(en) A. Leaf, J. Dorling, S. Kempley et K. McCormick, « Early or Delayed Enteral Feeding for Preterm Growth-Restricted Infants: A Randomized Trial », PEDIATRICS, vol. 129, no 5, , e1260–e1268 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.2011-2379, lire en ligne, consulté le )
(en) E. Morsing, M. Asard, D. Ley et K. Stjernqvist, « Cognitive Function After Intrauterine Growth Restriction and Very Preterm Birth », PEDIATRICS, vol. 127, no 4, , e874–e882 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.2010-1821, lire en ligne, consulté le )
(en) R. Geva, R. Eshel, Y. Leitner et A. F. Valevski, « Neuropsychological Outcome of Children With Intrauterine Growth Restriction: A 9-Year Prospective Study », PEDIATRICS, vol. 118, no 1, , p. 91–100 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.2005-2343, lire en ligne, consulté le )
(en) B. Larroque, S. Bertrais, P. Czernichow et J. Leger, « School Difficulties in 20-Year-Olds Who Were Born Small for Gestational Age at Term in a Regional Cohort Study », PEDIATRICS, vol. 108, no 1, , p. 111–115 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.108.1.111, lire en ligne, consulté le )
ahajournals.org
(en) Bero O. Verburg, Vincent W.V. Jaddoe, Juriy W. Wladimiroff et Albert Hofman, « Fetal Hemodynamic Adaptive Changes Related to Intrauterine Growth: The Generation R Study », Circulation, vol. 117, no 5, , p. 649–659 (ISSN0009-7322 et 1524-4539, DOI10.1161/CIRCULATIONAHA.107.709717, lire en ligne, consulté le )
(en) Robert B. Walton, Luckey C. Reed, Sarah M. Estrada et Stacey S. Schmiedecke, « Evaluation of Sildenafil and Tadalafil for Reversing Constriction of Fetal Arteries in a Human Placenta Perfusion Model », Hypertension, vol. 72, no 1, , p. 167–176 (ISSN0194-911X et 1524-4563, DOI10.1161/HYPERTENSIONAHA.117.10738, lire en ligne, consulté le )
(en) Nina D. Paauw, Fieke Terstappen, Wessel Ganzevoort et Jaap A. Joles, « Sildenafil During Pregnancy: A Preclinical Meta-Analysis on Fetal Growth and Maternal Blood Pressure », Hypertension, vol. 70, no 5, , p. 998–1006 (ISSN0194-911X et 1524-4563, DOI10.1161/HYPERTENSIONAHA.117.09690, lire en ligne, consulté le )
atsjournals.org
(en) Sarah J. Kotecha, W. John Watkins, Jonathan Heron et John Henderson, « Spirometric Lung Function in School-Age Children: Effect of Intrauterine Growth Retardation and Catch-up Growth », American Journal of Respiratory and Critical Care Medicine, vol. 181, no 9, , p. 969–974 (ISSN1073-449X et 1535-4970, PMID20093643, PMCIDPMC2862306, DOI10.1164/rccm.200906-0897OC, lire en ligne, consulté le )
(en) Bernard Thébaud et Steven H. Abman, « Bronchopulmonary Dysplasia: Where Have All the Vessels Gone? Roles of Angiogenic Growth Factors in Chronic Lung Disease », American Journal of Respiratory and Critical Care Medicine, vol. 175, no 10, , p. 978–985 (ISSN1073-449X et 1535-4970, PMID17272782, PMCIDPMC2176086, DOI10.1164/rccm.200611-1660PP, lire en ligne, consulté le )
(en) Csaba Galambos, Yin-Shan Ng, Ayoob Ali et Akihiko Noguchi, « Defective Pulmonary Development in the Absence of Heparin-Binding Vascular Endothelial Growth Factor Isoforms », American Journal of Respiratory Cell and Molecular Biology, vol. 27, no 2, , p. 194–203 (ISSN1044-1549 et 1535-4989, DOI10.1165/ajrcmb.27.2.4703, lire en ligne, consulté le )
biomedcentral.com
bmchealthservres.biomedcentral.com
(en) Alicia Marzouk, Antoine Filipovic-Pierucci, Olivier Baud et Vassilis Tsatsaris, « Prenatal and post-natal cost of small for gestational age infants: a national study », BMC Health Services Research, vol. 17, no 1, , p. 221 (ISSN1472-6963, PMID28320392, PMCIDPMC5359886, DOI10.1186/s12913-017-2155-x, lire en ligne, consulté le )
(en) EVERREST Consortium, Rebecca Spencer, Gareth Ambler et Jana Brodszki, « EVERREST prospective study: a 6-year prospective study to define the clinical and biological characteristics of pregnancies affected by severe early onset fetal growth restriction », BMC Pregnancy and Childbirth, vol. 17, no 1, , p. 43 (ISSN1471-2393, PMID28114884, PMCIDPMC5259830, DOI10.1186/s12884-017-1226-7, lire en ligne, consulté le )
(en) D. A Leon, H. O Lithell, D. Vagero et I. Koupilova, « Reduced fetal growth rate and increased risk of death from ischaemic heart disease: cohort study of 15 000 Swedish men and women born 1915-29 », BMJ, vol. 317, no 7153, , p. 241–245 (ISSN0959-8138 et 1468-5833, PMID9677213, PMCIDPMC28614, DOI10.1136/bmj.317.7153.241, lire en ligne, consulté le )
(en) Stephen Kempley, Neelam Gupta, Louise Linsell et Jon Dorling, « Feeding infants below 29 weeks’ gestation with abnormal antenatal Doppler: analysis from a randomised trial », Archives of Disease in Childhood - Fetal and Neonatal Edition, vol. 99, no 1, , F6–F11 (ISSN1359-2998 et 1468-2052, DOI10.1136/archdischild-2013-304393, lire en ligne, consulté le )
(en) Eveliina Ronkainen, Teija Dunder, Tuula Kaukola et Riitta Marttila, « Intrauterine growth restriction predicts lower lung function at school age in children born very preterm », Archives of Disease in Childhood - Fetal and Neonatal Edition, vol. 101, no 5, , F412–F417 (ISSN1359-2998 et 1468-2052, DOI10.1136/archdischild-2015-308922, lire en ligne, consulté le )
(en) Sebastian R Hobson, Rebecca Lim, Elizabeth E Gardiner et Nicole O Alers, « Phase I pilot clinical trial of antenatal maternally administered melatonin to decrease the level of oxidative stress in human pregnancies affected by pre-eclampsia (PAMPR): study protocol », BMJ Open, vol. 3, no 9, , e003788 (ISSN2044-6055 et 2044-6055, PMID24056493, PMCIDPMC3780337, DOI10.1136/bmjopen-2013-003788, lire en ligne, consulté le )
(en) B. J. Allison, S. B. Hooper, E. Coia et G. Jenkin, « Does growth restriction increase the vulnerability to acute ventilation-induced brain injury in newborn lambs? Implications for future health and disease », Journal of Developmental Origins of Health and Disease, vol. 8, no 5, , p. 556–565 (ISSN2040-1744 et 2040-1752, DOI10.1017/S204017441700037X, lire en ligne, consulté le )
cmijournal.org
(en) Reeta Vijayaselvi et AnneGeorge Cherian, « Risk assessment of intrauterine growth restriction », Current Medical Issues, vol. 15, no 4, , p. 262 (ISSN0973-4651, DOI10.4103/cmi.cmi_76_17, lire en ligne, consulté le )
csiro.au
publish.csiro.au
(en) Ja Owens, « Endocrine and substrate control of fetal growth: placental and maternal influences and insulin-like growth factors », Reproduction, Fertility and Development, vol. 3, no 5, , p. 501 (ISSN1031-3613, DOI10.1071/RD9910501, lire en ligne, consulté le )
doi.org
dx.doi.org
(en) Julia Unterscheider, Sean Daly, Michael Patrick Geary et Mairead Mary Kennelly, « Optimizing the Definition of Intrauterine Growth Restriction: The Multicenter Prospective PORTO Study », Obstetrical & Gynecological Survey, vol. 68, no 8, , p. 549–551 (ISSN0029-7828, DOI10.1097/OGX.0b013e3182a0597f, lire en ligne, consulté le )
(en) S. J. Gordijn, I. M. Beune, B. Thilaganathan et A. Papageorghiou, « Consensus definition of fetal growth restriction: a Delphi procedure: Consensus definition of FGR », Ultrasound in Obstetrics & Gynecology, vol. 48, no 3, , p. 333–339 (DOI10.1002/uog.15884, lire en ligne, consulté le )
(en) Lesley M. McCowan, Francesc Figueras et Ngaire H. Anderson, « Evidence-based national guidelines for the management of suspected fetal growth restriction: comparison, consensus, and controversy », American Journal of Obstetrics and Gynecology, vol. 218, no 2, , S855–S868 (DOI10.1016/j.ajog.2017.12.004, lire en ligne, consulté le )
(en) Ja Owens, « Endocrine and substrate control of fetal growth: placental and maternal influences and insulin-like growth factors », Reproduction, Fertility and Development, vol. 3, no 5, , p. 501 (ISSN1031-3613, DOI10.1071/RD9910501, lire en ligne, consulté le )
(en) Helmuth Vorherr, « Factors influencing fetal growth », American Journal of Obstetrics and Gynecology, vol. 142, no 5, , p. 577–588 (DOI10.1016/0002-9378(82)90765-7, lire en ligne, consulté le )
(en) Graham J. Burton et Eric Jauniaux, « Pathophysiology of placental-derived fetal growth restriction », American Journal of Obstetrics and Gynecology, vol. 218, no 2, , S745–S761 (DOI10.1016/j.ajog.2017.11.577, lire en ligne, consulté le )
(en) Francesc Figueras et Eduard Gratacos, « An integrated approach to fetal growth restriction », Best Practice & Research Clinical Obstetrics & Gynaecology, vol. 38, , p. 48–58 (DOI10.1016/j.bpobgyn.2016.10.006, lire en ligne, consulté le )
(en) G. M. Arikan, H. S. Scholz, E. Petru et M. C. H. Haeusler, « Cord blood oxygen saturation in vigorous infants at birth: what is normal? », BJOG: An International Journal of Obstetrics and Gynaecology, vol. 107, no 8, , p. 987–994 (ISSN1470-0328 et 1471-0528, DOI10.1111/j.1471-0528.2000.tb10401.x, lire en ligne, consulté le )
(en) Vanessa E. Murphy, Roger Smith, Warwick B. Giles et Vicki L. Clifton, « Endocrine Regulation of Human Fetal Growth: The Role of the Mother, Placenta, and Fetus », Endocrine Reviews, vol. 27, no 2, , p. 141–169 (ISSN0163-769X et 1945-7189, DOI10.1210/er.2005-0011, lire en ligne, consulté le )
(en) Georgios D. Agrogiannis, Stavros Sifakis, Efstratios S. Patsouris et Anastasia E. Konstantinidou, « Insulin-like growth factors in embryonic and fetal growth and skeletal development (Review) », Molecular Medicine Reports, vol. 10, no 2, , p. 579–584 (ISSN1791-2997 et 1791-3004, PMID24859417, PMCIDPMC4094767, DOI10.3892/mmr.2014.2258, lire en ligne, consulté le )
(en) Irène Netchine, Salah Azzi, Yves Le Bouc et Martin O. Savage, « IGF1 molecular anomalies demonstrate its critical role in fetal, postnatal growth and brain development », Best Practice & Research Clinical Endocrinology & Metabolism, vol. 25, no 1, , p. 181–190 (DOI10.1016/j.beem.2010.08.005, lire en ligne, consulté le )
(en) A. M. Spiroski, M. H. Oliver, A. L. Jaquiery et T. C. R. Prickett, « Postnatal effects of intrauterine treatment of the growth-restricted ovine fetus with intra-amniotic insulin-like growth factor-1: Postnatal effects of intra-amniotic IGF1 treatment of FGR », The Journal of Physiology, vol. 596, no 23, , p. 5925–5945 (PMID29235113, PMCIDPMC6265545, DOI10.1113/JP274999, lire en ligne, consulté le )
(en) R. Katie Morris, Ashwini Bilagi, Pooja Devani et Mark D. Kilby, « Association of serum PAPP-A levels in first trimester with small for gestational age and adverse pregnancy outcomes: systematic review and meta-analysis: Systematic review association serum PAPP-A and adverse pregnancy outcome », Prenatal Diagnosis, vol. 37, no 3, , p. 253–265 (DOI10.1002/pd.5001, lire en ligne, consulté le )
(en) M.J Waters et P.L Kaye, « The role of growth hormone in fetal development », Growth Hormone & IGF Research, vol. 12, no 3, , p. 137–146 (DOI10.1016/S1096-6374(02)00018-7, lire en ligne, consulté le )
(en) Euan M Wallace et Lesleigh S Baker, « Effect of antenatal betamethasone administration on placental vascular resistance », The Lancet, vol. 353, no 9162, , p. 1404–1407 (DOI10.1016/S0140-6736(98)08229-4, lire en ligne, consulté le )
(en) Woo Jeng Kim, Young Sin Han, Hyun Sun Ko et In Yang Park, « Antenatal corticosteroids and outcomes of preterm small-for-gestational-age neonates in a single medical center », Obstetrics & Gynecology Science, vol. 61, no 1, , p. 7 (ISSN2287-8572 et 2287-8580, PMID29372144, PMCIDPMC5780323, DOI10.5468/ogs.2018.61.1.7, lire en ligne, consulté le )
(en) Suzanne L. Miller, Veena G. Supramaniam, Graham Jenkin et David W. Walker, « Cardiovascular responses to maternal betamethasone administration in the intrauterine growth–restricted ovine fetus », American Journal of Obstetrics and Gynecology, vol. 201, no 6, , p. 613.e1–613.e8 (DOI10.1016/j.ajog.2009.07.028, lire en ligne, consulté le )
(en) Suzanne L. Miller, Mahalia Chai, Jan Loose et Margie Castillo-Meléndez, « The Effects of Maternal Betamethasone Administration on the Intrauterine Growth-Restricted Fetus », Endocrinology, vol. 148, no 3, , p. 1288–1295 (ISSN0013-7227 et 1945-7170, DOI10.1210/en.2006-1058, lire en ligne, consulté le )
(en) Dino A. Giussani, « The fetal brain sparing response to hypoxia: physiological mechanisms: Fetal brain sparing », The Journal of Physiology, vol. 594, no 5, , p. 1215–1230 (PMID26496004, PMCIDPMC4721497, DOI10.1113/JP271099, lire en ligne, consulté le )
(en) Janna L Morrison, « SHEEP MODELS OF INTRAUTERINE GROWTH RESTRICTION: FETAL ADAPTATIONS AND CONSEQUENCES », Clinical and Experimental Pharmacology and Physiology, vol. 35, no 7, , p. 730–743 (ISSN0305-1870 et 1440-1681, DOI10.1111/j.1440-1681.2008.04975.x, lire en ligne, consulté le )
(en) M.F. Schreuder et J. Nauta, « Prenatal programming of nephron number and blood pressure », Kidney International, vol. 72, no 3, , p. 265–268 (DOI10.1038/sj.ki.5002307, lire en ligne, consulté le )
(en) Anju Suhag et Vincenzo Berghella, « Intrauterine Growth Restriction (IUGR): Etiology and Diagnosis », Current Obstetrics and Gynecology Reports, vol. 2, no 2, , p. 102–111 (ISSN2161-3303, DOI10.1007/s13669-013-0041-z, lire en ligne, consulté le )
(en) Suzanne L. Miller, Petra S. Huppi et Carina Mallard, « The consequences of fetal growth restriction on brain structure and neurodevelopmental outcome: Fetal growth restriction: brain structure and function », The Journal of Physiology, vol. 594, no 4, , p. 807–823 (PMID26607046, PMCIDPMC4753264, DOI10.1113/JP271402, lire en ligne, consulté le )
(en) Ahmet A. Baschat, « Planning management and delivery of the growth-restricted fetus », Best Practice & Research Clinical Obstetrics & Gynaecology, vol. 49, , p. 53–65 (DOI10.1016/j.bpobgyn.2018.02.009, lire en ligne, consulté le )
(en) Sinja Alexandra Ernst, Tilman Brand, Anna Reeske et Jacob Spallek, « Care-Related and Maternal Risk Factors Associated with the Antenatal Nondetection of Intrauterine Growth Restriction : A Case-Control Study from Bremen, Germany », BioMed Research International, vol. 2017, , p. 1–10 (ISSN2314-6133 et 2314-6141, PMID28473976, PMCIDPMC5394345, DOI10.1155/2017/1746146, lire en ligne, consulté le )
(en) Justin R. Lappen et Stephen A. Myers, « The systematic error in the estimation of fetal weight and the underestimation of fetal growth restriction », American Journal of Obstetrics and Gynecology, vol. 216, no 5, , p. 477–483 (DOI10.1016/j.ajog.2017.02.013, lire en ligne, consulté le )
(en) Suneet Chauhan, Hind Beydoun, Eugene Chang et Adam Sandlin, « Prenatal Detection of Fetal Growth Restriction in Newborns Classified as Small for Gestational Age : Correlates and Risk of Neonatal Morbidity », American Journal of Perinatology, vol. 31, no 03, , p. 187–194 (ISSN0735-1631 et 1098-8785, DOI10.1055/s-0033-1343771, lire en ligne, consulté le )
(en) R. Callec, C. Lamy, E. Perdriolle-Galet et C. Patte, « Impact on obstetric outcome of third-trimester screening for small-for-gestational-age fetuses », Ultrasound in Obstetrics & Gynecology, vol. 46, no 2, , p. 216–220 (DOI10.1002/uog.14755, lire en ligne, consulté le )
(en) Jacob Larkin, Suneet Chauhan et Hyagriv Simhan, « Small for Gestational Age: The Differential Mortality When Detected versus Undetected Antenatally », American Journal of Perinatology, vol. 34, no 04, , p. 409–414 (ISSN0735-1631 et 1098-8785, DOI10.1055/s-0036-1592132, lire en ligne, consulté le )
(en) J. Zeitlin, P. Y. Ancel, M. J. Saurel-Cubizolles et E. Papiernik, « The relationship between intrauterine growth restriction and preterm delivery : an empirical approach using data from a European case-control study », BJOG: An International Journal of Obstetrics and Gynaecology, vol. 107, no 6, , p. 750–758 (ISSN1470-0328 et 1471-0528, DOI10.1111/j.1471-0528.2000.tb13336.x, lire en ligne, consulté le )
(en) Isabelle Monier, Pierre-Yves Ancel, Anne Ego et Pierre-Henri Jarreau, « Fetal and neonatal outcomes of preterm infants born before 32 weeks of gestation according to antenatal vs postnatal assessments of restricted growth », American Journal of Obstetrics and Gynecology, vol. 216, no 5, , p. 516.e1–516.e10 (DOI10.1016/j.ajog.2017.02.001, lire en ligne, consulté le )
A. Ego, « Définitions: petit poids pour l'âge gestationnel et retard de croissance intra-utérin [Definitions: small for gestational age and intrauterine growth retardation] », J Gynecol Obstet Biol Reprod (Paris), vol. 42, no 8, , p. 872-94. (PMID24210714, DOI10.1016/j.jgyn.2013.09.012, résumé)modifier
(en) Reeta Vijayaselvi et AnneGeorge Cherian, « Risk assessment of intrauterine growth restriction », Current Medical Issues, vol. 15, no 4, , p. 262 (ISSN0973-4651, DOI10.4103/cmi.cmi_76_17, lire en ligne, consulté le )
Francesca Gaccioli et Susanne Lager, « Placental Nutrient Transport and Intrauterine Growth Restriction », Frontiers in Physiology, vol. 7, (ISSN1664-042X, DOI10.3389/fphys.2016.00040, lire en ligne, consulté le )
(en) Nadeem Khan et S. J. Kazzi, « YIELD AND COSTS OF SCREENING GROWTH-RETARDED INFANTS FOR TORCH INFECTIONS », American Journal of Perinatology, vol. 17, no 03, , p. 131–136 (ISSN0735-1631 et 1098-8785, DOI10.1055/s-2000-9288, lire en ligne, consulté le )
(en) Manfred Accrombessi, Jennifer Zeitlin, Achille Massougbodji et Michel Cot, « What Do We Know about Risk Factors for Fetal Growth Restriction in Africa at the Time of Sustainable Development Goals? A Scoping Review », Paediatric and Perinatal Epidemiology, vol. 32, no 2, , p. 184–196 (DOI10.1111/ppe.12433, lire en ligne, consulté le )
(en) Cande V. Ananth et Alexander M. Friedman, « Ischemic placental disease and risks of perinatal mortality and morbidity and neurodevelopmental outcomes », Seminars in Perinatology, vol. 38, no 3, , p. 151–158 (DOI10.1053/j.semperi.2014.03.007, lire en ligne, consulté le )
(en) E Malacova, A Regan, N Nassar et C Raynes-Greenow, « Risk of stillbirth, preterm delivery, and fetal growth restriction following exposure in a previous birth: systematic review and meta-analysis », BJOG: An International Journal of Obstetrics & Gynaecology, vol. 125, no 2, , p. 183–192 (DOI10.1111/1471-0528.14906, lire en ligne, consulté le )
(en) Arun Sasi, Vinita Abraham, Miranda Davies-Tuck et Graeme R. Polglase, « Impact of intrauterine growth restriction on preterm lung disease », Acta Paediatrica, vol. 104, no 12, , e552–e556 (DOI10.1111/apa.13220, lire en ligne, consulté le )
(en) Alicia Marzouk, Antoine Filipovic-Pierucci, Olivier Baud et Vassilis Tsatsaris, « Prenatal and post-natal cost of small for gestational age infants: a national study », BMC Health Services Research, vol. 17, no 1, , p. 221 (ISSN1472-6963, PMID28320392, PMCIDPMC5359886, DOI10.1186/s12913-017-2155-x, lire en ligne, consulté le )
Gillian Lim, Jacinth Tracey, Nicole Boom et Sunita Karmakar, « CIHI Survey: Hospital Costs for Preterm and Small-for-Gestational Age Babies in Canada », Healthcare Quarterly, vol. 12, no 4, , p. 20–24 (DOI10.12927/hcq.2013.21121, lire en ligne, consulté le )
(en) Sheila M. Gephart et Corrine K. Hanson, « Preventing Necrotizing Enterocolitis With Standardized Feeding Protocols: Not Only Possible, But Imperative », Advances in Neonatal Care, vol. 13, no 1, , p. 48–54 (ISSN1536-0903, DOI10.1097/ANC.0b013e31827ece0a, lire en ligne, consulté le )
Valentina Bozzetti et Paolo E. Tagliabue, « Enteral feeding of intrauterine growth restriction preterm infants: theoretical risks and practical implications », La Pediatria Medica e Chirurgica, vol. 39, no 2, (ISSN2420-7748 et 0391-5387, DOI10.4081/pmc.2017.160, lire en ligne, consulté le )
(en) Valentina Bozzetti, Giuseppe Paterlini, Paola De Lorenzo et Diego Gazzolo, « Impact of Continuous vs Bolus Feeding on Splanchnic Perfusion in Very Low Birth Weight Infants: A Randomized Trial », The Journal of Pediatrics, vol. 176, , p. 86–92.e2 (DOI10.1016/j.jpeds.2016.05.031, lire en ligne, consulté le )
(en) P.-M. Fortune, M. Wagstaff et A. Petros, « Cerebro-splanchnic oxygenation ratio (CSOR) using near infrared spectroscopy may be able to predict splanchnic ischaemia in neonates », Intensive Care Medicine, vol. 27, no 8, , p. 1401–1407 (ISSN0342-4642 et 1432-1238, DOI10.1007/s001340100994, lire en ligne, consulté le )
(en) Stephen Kempley, Neelam Gupta, Louise Linsell et Jon Dorling, « Feeding infants below 29 weeks’ gestation with abnormal antenatal Doppler: analysis from a randomised trial », Archives of Disease in Childhood - Fetal and Neonatal Edition, vol. 99, no 1, , F6–F11 (ISSN1359-2998 et 1468-2052, DOI10.1136/archdischild-2013-304393, lire en ligne, consulté le )
(en) A. Leaf, J. Dorling, S. Kempley et K. McCormick, « Early or Delayed Enteral Feeding for Preterm Growth-Restricted Infants: A Randomized Trial », PEDIATRICS, vol. 129, no 5, , e1260–e1268 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.2011-2379, lire en ligne, consulté le )
(en) Enrico Zecca, Simonetta Costa, Giovanni Barone et Lucia Giordano, « Proactive Enteral Nutrition in Moderately Preterm Small for Gestational Age Infants: A Randomized Clinical Trial », The Journal of Pediatrics, vol. 165, no 6, , p. 1135–1139.e1 (DOI10.1016/j.jpeds.2014.08.065, lire en ligne, consulté le )
(en) Stefania Longo, Alessandro Borghesi, Chryssoula Tzialla et Mauro Stronati, « IUGR and infections », Early Human Development, vol. 90, , S42–S44 (DOI10.1016/S0378-3782(14)70014-3, lire en ligne, consulté le )
(en) Jennifer W. Lee, Deborah VanderVeen, Elizabeth N. Allred et Alan Leviton, « Prethreshold retinopathy in premature infants with intrauterine growth restriction », Acta Paediatrica, vol. 104, no 1, , p. 27–31 (PMID25196981, PMCIDPMC6172005, DOI10.1111/apa.12799, lire en ligne, consulté le )
(en) Maria Cristina Aisa, Benito Cappuccini, Antonella Barbati et Aldo Orlacchio, « Biochemical parameters of renal impairment/injury and surrogate markers of nephron number in intrauterine growth-restricted and preterm neonates at 30–40 days of postnatal corrected age », Pediatric Nephrology, vol. 31, no 12, , p. 2277–2287 (ISSN0931-041X et 1432-198X, DOI10.1007/s00467-016-3484-4, lire en ligne, consulté le )
(en) Antonella Barbati, Benito Cappuccini, Maria Cristina Aisa et Chiara Grasselli, « Increased Urinary Cystatin-C Levels Correlate with Reduced Renal Volumes in Neonates with Intrauterine Growth Restriction », Neonatology, vol. 109, no 2, , p. 154–160 (ISSN1661-7800 et 1661-7819, DOI10.1159/000441273, lire en ligne, consulté le )
(en) D. Oros, F. Figueras, R. Cruz-Martinez et E. Meler, « Longitudinal changes in uterine, umbilical and fetal cerebral Doppler indices in late-onset small-for-gestational age fetuses », Ultrasound in Obstetrics & Gynecology, vol. 37, no 2, , p. 191–195 (DOI10.1002/uog.7738, lire en ligne, consulté le )
(en) Wassim A. Hassan, Jeremy Brockelsby, Medhat Alberry et Tiziana Fanelli, « Cardiac function in early onset small for gestational age and growth restricted fetuses », European Journal of Obstetrics & Gynecology and Reproductive Biology, vol. 171, no 2, , p. 262–265 (DOI10.1016/j.ejogrb.2013.09.020, lire en ligne, consulté le )
(en) Gs Ghosh et S Gudmundsson, « Uterine and umbilical artery Doppler are comparable in predicting perinatal outcome of growth-restricted fetuses », BJOG: An International Journal of Obstetrics & Gynaecology, vol. 116, no 3, , p. 424–430 (DOI10.1111/j.1471-0528.2008.02057.x, lire en ligne, consulté le )
(en) M. Pérez-Cruz, M. Cruz-Lemini, M. T. Fernández et J. A. Parra, « Fetal cardiac function in late-onset intrauterine growth restriction vs small-for-gestational age, as defined by estimated fetal weight, cerebroplacental ratio and uterine artery Doppler: Cardiac function in late-onset small fetuses », Ultrasound in Obstetrics & Gynecology, vol. 46, no 4, , p. 465–471 (DOI10.1002/uog.14930, lire en ligne, consulté le )
(en) Fatima Crispi, Edgar Hernandez-Andrade, Maurice M.A.L. Pelsers et Walter Plasencia, « Cardiac dysfunction and cell damage across clinical stages of severity in growth-restricted fetuses », American Journal of Obstetrics and Gynecology, vol. 199, no 3, , p. 254.e1–254.e8 (DOI10.1016/j.ajog.2008.06.056, lire en ligne, consulté le )
(en) Carlos Menendez-Castro, Fabian Fahlbusch, Nada Cordasic et Kerstin Amann, « Early and Late Postnatal Myocardial and Vascular Changes in a Protein Restriction Rat Model of Intrauterine Growth Restriction », PLoS ONE, vol. 6, no 5, , e20369 (ISSN1932-6203, PMID21655297, PMCIDPMC3105022, DOI10.1371/journal.pone.0020369, lire en ligne, consulté le )
(en) James S Barry, Paul J Rozance, Laura D Brown et Russell V Anthony, « Increased fetal myocardial sensitivity to insulin-stimulated glucose metabolism during ovine fetal growth restriction », Experimental Biology and Medicine, vol. 241, no 8, , p. 839–847 (ISSN1535-3702 et 1535-3699, PMID26873920, PMCIDPMC4950398, DOI10.1177/1535370216632621, lire en ligne, consulté le )
(en) Rajan Poudel, I. Caroline McMillen, Stacey L. Dunn et Song Zhang, « Impact of chronic hypoxemia on blood flow to the brain, heart, and adrenal gland in the late-gestation IUGR sheep fetus », American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, vol. 308, no 3, , R151–R162 (ISSN0363-6119 et 1522-1490, DOI10.1152/ajpregu.00036.2014, lire en ligne, consulté le )
(en) Kristen J. Bubb, Megan L. Cock, M. Jane Black et Miodrag Dodic, « Intrauterine growth restriction delays cardiomyocyte maturation and alters coronary artery function in the fetal sheep: Fetal cardiac and coronary alteration after growth restriction », The Journal of Physiology, vol. 578, no 3, , p. 871–881 (PMID17124269, PMCIDPMC2151351, DOI10.1113/jphysiol.2006.121160, lire en ligne, consulté le )
(en) Christiane A Opitz et Wolfgang A Linke, « Plasticity of cardiac titin/connectin in heart development », Journal of Muscle Research and Cell Motility, vol. 26, nos 6-8, , p. 333–342 (ISSN0142-4319 et 1573-2657, DOI10.1007/s10974-005-9040-7, lire en ligne, consulté le )
(en) Jesus Igor Iruretagoyena, Anna Gonzalez-Tendero, Patricia Garcia-Canadilla et Ivan Amat-Roldan, « Cardiac dysfunction is associated with altered sarcomere ultrastructure in intrauterine growth restriction », American Journal of Obstetrics and Gynecology, vol. 210, no 6, , p. 550.e1–550.e7 (DOI10.1016/j.ajog.2014.01.023, lire en ligne, consulté le )
(en) Marianne Tare, Helena C. Parkington, Euan M. Wallace et Amy E. Sutherland, « Maternal melatonin administration mitigates coronary stiffness and endothelial dysfunction, and improves heart resilience to insult in growth restricted lambs: Melatonin rescues cardio-coronary function in IUGR », The Journal of Physiology, vol. 592, no 12, , p. 2695–2709 (PMID24710061, PMCIDPMC4080947, DOI10.1113/jphysiol.2014.270934, lire en ligne, consulté le )
(en) Kirsty L. Brain, Beth J. Allison, Youguo Niu et Christine M. Cross, « Induction of controlled hypoxic pregnancy in large mammalian species », Physiological Reports, vol. 3, no 12, , e12614 (PMID26660546, PMCIDPMC4760453, DOI10.14814/phy2.12614, lire en ligne, consulté le )
(en) Arvind Sehgal, Beth J. Allison, Stella M. Gwini et Suzanne L. Miller, « Cardiac Morphology and Function in Preterm Growth Restricted Infants: Relevance for Clinical Sequelae », The Journal of Pediatrics, vol. 188, , p. 128–134.e2 (DOI10.1016/j.jpeds.2017.05.076, lire en ligne, consulté le )
(en) B. J. Allison, K. L. Brain, Y. Niu et A. D. Kane, « Fetal in vivo continuous cardiovascular function during chronic hypoxia: Fetal brain sparing during chronic hypoxia », The Journal of Physiology, vol. 594, no 5, , p. 1247–1264 (PMID26926316, PMCIDPMC4771786, DOI10.1113/JP271091, lire en ligne, consulté le )
(en) Beth J. Allison, Joepe J. Kaandorp, Andrew D. Kane et Emily J. Camm, « Divergence of mechanistic pathways mediating cardiovascular aging and developmental programming of cardiovascular disease », The FASEB Journal, vol. 30, no 5, , p. 1968–1975 (ISSN0892-6638 et 1530-6860, PMID26932929, PMCIDPMC5036970, DOI10.1096/fj.201500057, lire en ligne, consulté le )
(en) A Sehgal, B J Allison, S M Gwini et S Menahem, « Vascular aging and cardiac maladaptation in growth-restricted preterm infants », Journal of Perinatology, vol. 38, no 1, , p. 92–97 (ISSN0743-8346 et 1476-5543, DOI10.1038/jp.2017.135, lire en ligne, consulté le )
(en) R. Blair Dodson, Paul J. Rozance, Carson C. Petrash et Kendall S. Hunter, « Thoracic and abdominal aortas stiffen through unique extracellular matrix changes in intrauterine growth restricted fetal sheep », American Journal of Physiology-Heart and Circulatory Physiology, vol. 306, no 3, , H429–H437 (ISSN0363-6135 et 1522-1539, PMID24322609, PMCIDPMC3920138, DOI10.1152/ajpheart.00472.2013, lire en ligne, consulté le )
(en) Anderson H. Kuo, Cun Li, Hillary F. Huber et Geoffrey D. Clarke, « Intrauterine growth restriction results in persistent vascular mismatch in adulthood: Persistent vascular mismatch in IUGR », The Journal of Physiology, vol. 596, no 23, , p. 5777–5790 (PMID29098705, PMCIDPMC6265527, DOI10.1113/JP275139, lire en ligne, consulté le )
Daniel Cañas, Emilio A. Herrera, Claudio García-Herrera et Diego Celentano, « Fetal Growth Restriction Induces Heterogeneous Effects on Vascular Biomechanical and Functional Properties in Guinea Pigs (Cavia porcellus) », Frontiers in Physiology, vol. 8, (ISSN1664-042X, PMID28344561, PMCIDPMC5344887, DOI10.3389/fphys.2017.00144, lire en ligne, consulté le )
(en) Cn Martyn et Se Greenwald, « Impaired synthesis of elastin in walls of aorta and large conduit arteries during early development as an initiating event in pathogenesis of systemic hypertension », The Lancet, vol. 350, no 9082, , p. 953–955 (DOI10.1016/S0140-6736(96)10508-0, lire en ligne, consulté le )
(en) R. Blair Dodson, Thomas A. Miller, Kyle Powers et Yueqin Yang, « Intrauterine growth restriction influences vascular remodeling and stiffening in the weanling rat more than sex or diet », American Journal of Physiology-Heart and Circulatory Physiology, vol. 312, no 2, , H250–H264 (ISSN0363-6135 et 1522-1539, DOI10.1152/ajpheart.00610.2016, lire en ligne, consulté le )
(en) Sotirios Fouzas, Ageliki A. Karatza, Periklis A. Davlouros et Dionisios Chrysis, « Neonatal cardiac dysfunction in intrauterine growth restriction », Pediatric Research, vol. 75, no 5, , p. 651–657 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2014.22, lire en ligne, consulté le )
(en) Emily Cohen, Christie Whatley, Flora Y. Wong et Euan M. Wallace, « Effects of foetal growth restriction and preterm birth on cardiac morphology and function during infancy », Acta Paediatrica, vol. 107, no 3, , p. 450–455 (DOI10.1111/apa.14144, lire en ligne, consulté le )
(en) Bero O. Verburg, Vincent W.V. Jaddoe, Juriy W. Wladimiroff et Albert Hofman, « Fetal Hemodynamic Adaptive Changes Related to Intrauterine Growth: The Generation R Study », Circulation, vol. 117, no 5, , p. 649–659 (ISSN0009-7322 et 1524-4539, DOI10.1161/CIRCULATIONAHA.107.709717, lire en ligne, consulté le )
(en) Tessa Roseboom, Susanne de Rooij et Rebecca Painter, « The Dutch famine and its long-term consequences for adult health », Early Human Development, vol. 82, no 8, , p. 485–491 (DOI10.1016/j.earlhumdev.2006.07.001, lire en ligne, consulté le )
(en) D. A Leon, H. O Lithell, D. Vagero et I. Koupilova, « Reduced fetal growth rate and increased risk of death from ischaemic heart disease: cohort study of 15 000 Swedish men and women born 1915-29 », BMJ, vol. 317, no 7153, , p. 241–245 (ISSN0959-8138 et 1468-5833, PMID9677213, PMCIDPMC28614, DOI10.1136/bmj.317.7153.241, lire en ligne, consulté le )
(en) Hideoki Fukuoka, « DOHaD (Developmental Origins of Health and Disease) and Birth Cohort Research », Journal of Nutritional Science and Vitaminology, vol. 61, no Supplement, , S2–S4 (ISSN0301-4800 et 1881-7742, DOI10.3177/jnsv.61.S2, lire en ligne, consulté le )
(en) Michael R Skilton, Nick Evans, Kaye A Griffiths et Jason A Harmer, « Aortic wall thickness in newborns with intrauterine growth restriction », The Lancet, vol. 365, no 9469, , p. 1484–1486 (DOI10.1016/S0140-6736(05)66419-7, lire en ligne, consulté le )
(en) Vincenzo Zanardo, Tiziana Fanelli, Gary Weiner et Vassilios Fanos, « Intrauterine growth restriction is associated with persistent aortic wall thickening and glomerular proteinuria during infancy », Kidney International, vol. 80, no 1, , p. 119–123 (PMID21490588, PMCIDPMC3257045, DOI10.1038/ki.2011.99, lire en ligne, consulté le )
(en) Atul Singhal, Mia Kattenhorn, Tim J Cole et John Deanfield, « Preterm birth, vascular function, and risk factors for atherosclerosis », The Lancet, vol. 358, no 9288, , p. 1159–1160 (DOI10.1016/S0140-6736(01)06276-6, lire en ligne, consulté le )
(en) Sarah J. Kotecha, W. John Watkins, Jonathan Heron et John Henderson, « Spirometric Lung Function in School-Age Children: Effect of Intrauterine Growth Retardation and Catch-up Growth », American Journal of Respiratory and Critical Care Medicine, vol. 181, no 9, , p. 969–974 (ISSN1073-449X et 1535-4970, PMID20093643, PMCIDPMC2862306, DOI10.1164/rccm.200906-0897OC, lire en ligne, consulté le )
(en) Arvind Sehgal, Stella M. Gwini, Samuel Menahem et Beth J. Allison, « Preterm growth restriction and bronchopulmonary dysplasia: the vascular hypothesis and related physiology », The Journal of Physiology, vol. 597, no 4, , p. 1209–1220 (ISSN0022-3751 et 1469-7793, PMID29746007, PMCIDPMC6376075, DOI10.1113/JP276040, lire en ligne, consulté le )
(en) Eveliina Ronkainen, Teija Dunder, Tuula Kaukola et Riitta Marttila, « Intrauterine growth restriction predicts lower lung function at school age in children born very preterm », Archives of Disease in Childhood - Fetal and Neonatal Edition, vol. 101, no 5, , F412–F417 (ISSN1359-2998 et 1468-2052, DOI10.1136/archdischild-2015-308922, lire en ligne, consulté le )
(en) Erin V. McGillick, Sandra Orgeig, Beth J. Allison et Kirsty L. Brain, « Maternal chronic hypoxia increases expression of genes regulating lung liquid movement and surfactant maturation in male fetuses in late gestation: Maternal chronic hypoxia promotes fetal lung maturation », The Journal of Physiology, vol. 595, no 13, , p. 4329–4350 (PMID28318025, PMCIDPMC5491863, DOI10.1113/JP273842, lire en ligne, consulté le )
(en) Namasivayam Ambalavanan, Teodora Nicola, James Hagood et Arlene Bulger, « Transforming growth factor-β signaling mediates hypoxia-induced pulmonary arterial remodeling and inhibition of alveolar development in newborn mouse lung », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 295, no 1, , L86–L95 (ISSN1040-0605 et 1522-1504, PMID18487357, PMCIDPMC2494779, DOI10.1152/ajplung.00534.2007, lire en ligne, consulté le )
(en) Graeme R. Polglase, Jade Barbuto, Beth J. Allison et Tamara Yawno, « Effects of antenatal melatonin therapy on lung structure in growth-restricted newborn lambs », Journal of Applied Physiology, vol. 123, no 5, , p. 1195–1203 (ISSN8750-7587 et 1522-1601, DOI10.1152/japplphysiol.00783.2016, lire en ligne, consulté le )
(en) Beth J. Allison, Stuart B. Hooper, Elise Coia et Valerie A. Zahra, « Ventilation-induced lung injury is not exacerbated by growth restriction in preterm lambs », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 310, no 3, , L213–L223 (ISSN1040-0605 et 1522-1504, DOI10.1152/ajplung.00328.2015, lire en ligne, consulté le )
(en) Amy E. Sutherland, Kelly J. Crossley, Beth J. Allison et Graham Jenkin, « The effects of intrauterine growth restriction and antenatal glucocorticoids on ovine fetal lung development », Pediatric Research, vol. 71, no 6, , p. 689–696 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2012.19, lire en ligne, consulté le )
G.S. Maritz, M.L. Cock, S. Louey et B.J. Joyce, « Effects of fetal growth restriction on lung development before and after birth: A morphometric analysis », Pediatric Pulmonology, vol. 32, no 3, , p. 201–210 (DOI10.1002/ppul.1109, lire en ligne, consulté le )
(en) L. Gortner, A. Hilgendorff, T. Bähner et M. Ebsen, « Hypoxia-Induced Intrauterine Growth Retardation: Effects on Pulmonary Development and Surfactant Protein Transcription », Neonatology, vol. 88, no 2, , p. 129–135 (ISSN1661-7800 et 1661-7819, DOI10.1159/000085895, lire en ligne, consulté le )
(en) Sandra Orgeig, Tamara A. Crittenden, Ceilidh Marchant et I. Caroline McMillen, « Intrauterine growth restriction delays surfactant protein maturation in the sheep fetus », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 298, no 4, , L575–L583 (ISSN1040-0605 et 1522-1504, DOI10.1152/ajplung.00226.2009, lire en ligne, consulté le )
(en) Meng Yuan Zhu, Natasha Milligan, Sarah Keating et Rory Windrim, « The hemodynamics of late-onset intrauterine growth restriction by MRI », American Journal of Obstetrics and Gynecology, vol. 214, no 3, , p. 367.e1–367.e17 (DOI10.1016/j.ajog.2015.10.004, lire en ligne, consulté le )
(en) T. Kiserud, C. Ebbing, J. Kessler et S. Rasmussen, « Fetal cardiac output, distribution to the placenta and impact of placental compromise », Ultrasound in Obstetrics and Gynecology, vol. 28, no 2, , p. 126–136 (ISSN0960-7692 et 1469-0705, DOI10.1002/uog.2832, lire en ligne, consulté le )
(en) Graeme R. Polglase, Beth J. Allison, Elise Coia et Anqi Li, « Altered cardiovascular function at birth in growth-restricted preterm lambs », Pediatric Research, vol. 80, no 4, , p. 538–546 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2016.104, lire en ligne, consulté le )
(en) S. B. Hooper et R. Harding, « FETAL LUNG LIQUID: A MAJOR DETERMINANT OF THE GROWTH AND FUNCTIONAL DEVELOPMENT OF THE FETAL LUNG », Clinical and Experimental Pharmacology and Physiology, vol. 22, no 4, , p. 235–241 (ISSN0305-1870 et 1440-1681, DOI10.1111/j.1440-1681.1995.tb01988.x, lire en ligne, consulté le )
(en) R. Harding, « Fetal pulmonary development: the role of respiratory movements », Equine Veterinary Journal, vol. 29, no S24, , p. 32–39 (DOI10.1111/j.2042-3306.1997.tb05076.x, lire en ligne, consulté le )
(en) Bernard Thébaud et Steven H. Abman, « Bronchopulmonary Dysplasia: Where Have All the Vessels Gone? Roles of Angiogenic Growth Factors in Chronic Lung Disease », American Journal of Respiratory and Critical Care Medicine, vol. 175, no 10, , p. 978–985 (ISSN1073-449X et 1535-4970, PMID17272782, PMCIDPMC2176086, DOI10.1164/rccm.200611-1660PP, lire en ligne, consulté le )
(en) Csaba Galambos, Yin-Shan Ng, Ayoob Ali et Akihiko Noguchi, « Defective Pulmonary Development in the Absence of Heparin-Binding Vascular Endothelial Growth Factor Isoforms », American Journal of Respiratory Cell and Molecular Biology, vol. 27, no 2, , p. 194–203 (ISSN1044-1549 et 1535-4989, DOI10.1165/ajrcmb.27.2.4703, lire en ligne, consulté le )
(en) Paul J. Rozance, Gregory J. Seedorf, Alicia Brown et Gates Roe, « Intrauterine growth restriction decreases pulmonary alveolar and vessel growth and causes pulmonary artery endothelial cell dysfunction in vitro in fetal sheep », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 301, no 6, , L860–L871 (ISSN1040-0605 et 1522-1504, PMID21873446, PMCIDPMC3233832, DOI10.1152/ajplung.00197.2011, lire en ligne, consulté le )
(en) Ahmet Karadag, Reiko Sakurai, Ying Wang et Pinzheng Guo, « Effect of maternal food restriction on fetal rat lung lipid differentiation program », Pediatric Pulmonology, vol. 44, no 7, , p. 635–644 (PMID19514059, PMCIDPMC2919756, DOI10.1002/ppul.21030, lire en ligne, consulté le )
(en) K.K. Mestan, J. Check, L. Minturn et S. Yallapragada, « Placental pathologic changes of maternal vascular underperfusion in bronchopulmonary dysplasia and pulmonary hypertension », Placenta, vol. 35, no 8, , p. 570–574 (PMID24906549, PMCIDPMC4119480, DOI10.1016/j.placenta.2014.05.003, lire en ligne, consulté le )
(en) Lena Eriksson, Bengt Haglund, Viveca Odlind et Maria Altman, « Perinatal conditions related to growth restriction and inflammation are associated with an increased risk of bronchopulmonary dysplasia », Acta Paediatrica, vol. 104, no 3, , p. 259–263 (DOI10.1111/apa.12888, lire en ligne, consulté le )
(en) Luigi Gagliardi, Franca Rusconi, Monica Da Frè et Giorgio Mello, « Pregnancy disorders leading to very preterm birth influence neonatal outcomes: results of the population-based ACTION cohort study », Pediatric Research, vol. 73, no 6, , p. 794–801 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2013.52, lire en ligne, consulté le )
(en) Demosthenes G. Papamatheakis, Madalitso Chundu, Arlin B. Blood et Sean M. Wilson, « Prenatal Programming of Pulmonary Hypertension Induced by Chronic Hypoxia or Ductal Ligation in Sheep », Pulmonary Circulation, vol. 3, no 4, , p. 757–780 (ISSN2045-8932 et 2045-8940, PMID25006393, PMCIDPMC4070839, DOI10.1086/674767, lire en ligne, consulté le )
(en) Gabriela Egaña-Ugrinovic, Magdalena Sanz-Cortes, Francesc Figueras et Nuria Bargalló, « Differences in cortical development assessed by fetal MRI in late-onset intrauterine growth restriction », American Journal of Obstetrics and Gynecology, vol. 209, no 2, , p. 126.e1–126.e8 (DOI10.1016/j.ajog.2013.04.008, lire en ligne, consulté le )
(en) Petra S. Hüppi, « Cortical Development in the Fetus and the Newborn: Advanced MR Techniques », Topics in Magnetic Resonance Imaging, vol. 22, no 1, , p. 33–38 (ISSN0899-3459, DOI10.1097/RMR.0b013e3182416f78, lire en ligne, consulté le )
(en) O. J. Arthurs, A. Rega, F. Guimiot et N. Belarbi, « Diffusion-weighted magnetic resonance imaging of the fetal brain in intrauterine growth restriction: Brain DWI in IUGR », Ultrasound in Obstetrics & Gynecology, vol. 50, no 1, , p. 79–87 (DOI10.1002/uog.17318, lire en ligne, consulté le )
Cristina Borradori Tolsa, Slava Zimine, Simon K Warfield et Monica Freschi, « Early Alteration of Structural and Functional Brain Development in Premature Infants Born with Intrauterine Growth Restriction », Pediatric Research, vol. 56, no 1, , p. 132–138 (ISSN0031-3998 et 1530-0447, DOI10.1203/01.PDR.0000128983.54614.7E, lire en ligne, consulté le )
(en) Luca A. Ramenghi, Anna Martinelli, Agnese De Carli et Valentina Brusati, « Cerebral Maturation in IUGR and Appropriate for Gestational Age Preterm Babies », Reproductive Sciences, vol. 18, no 5, , p. 469–475 (ISSN1933-7191 et 1933-7205, DOI10.1177/1933719110388847, lire en ligne, consulté le )
Gregory A Lodygensky, Mohammed L Seghier, Simon K Warfield et Cristina Borradori Tolsa, « Intrauterine Growth Restriction Affects the Preterm Infant's Hippocampus », Pediatric Research, vol. 63, no 4, , p. 438–443 (ISSN0031-3998 et 1530-0447, DOI10.1203/PDR.0b013e318165c005, lire en ligne, consulté le )
(en) Christie J. Bruno, Shreyans Bengani, William A. Gomes et Mariana Brewer, « MRI Differences Associated with Intrauterine Growth Restriction in Preterm Infants », Neonatology, vol. 111, no 4, , p. 317–323 (ISSN1661-7800 et 1661-7819, DOI10.1159/000453576, lire en ligne, consulté le )
(en) Dafnis Batalle, Emma Muñoz-Moreno, Cristian Tornador et Nuria Bargallo, « Altered resting-state whole-brain functional networks of neonates with intrauterine growth restriction », Cortex, vol. 77, , p. 119–131 (DOI10.1016/j.cortex.2016.01.012, lire en ligne, consulté le )
(en) Yohan van de Looij, Justin M. Dean, Alistair J. Gunn et Petra S. Hüppi, « Advanced magnetic resonance spectroscopy and imaging techniques applied to brain development and animal models of perinatal injury », International Journal of Developmental Neuroscience, vol. 45, no C, , p. 29–38 (DOI10.1016/j.ijdevneu.2015.03.009, lire en ligne, consulté le )
(en) Atul Malhotra, Michael Ditchfield, Michael C Fahey et Margie Castillo-Melendez, « Detection and assessment of brain injury in the growth-restricted fetus and neonate », Pediatric Research, vol. 82, no 2, , p. 184–193 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2017.37, lire en ligne, consulté le )
(en) Atul Malhotra, Zamir Yahya, Arun Sasi et Graham Jenkin, « Does fetal growth restriction lead to increased brain injury as detected by neonatal cranial ultrasound in premature infants?: Growth restriction and brain injury », Journal of Paediatrics and Child Health, vol. 51, no 11, , p. 1103–1108 (DOI10.1111/jpc.12910, lire en ligne, consulté le )
(en) Mohan B. Krishnamurthy, Abigail Popiel et Atul Malhotra, « Screening investigations in small-for-gestational-age near-term and term infants », European Journal of Pediatrics, vol. 176, no 12, , p. 1707–1712 (ISSN0340-6199 et 1432-1076, DOI10.1007/s00431-017-3031-8, lire en ligne, consulté le )
(en) Glenda McLean, Catherine Hough, Arvind Sehgal et Michael Ditchfield, « Three-dimensional ultrasound cranial imaging and early neurodevelopment in preterm growth-restricted infants: Ultrasound in growth restriction », Journal of Paediatrics and Child Health, vol. 54, no 4, , p. 420–425 (DOI10.1111/jpc.13808, lire en ligne, consulté le )
(en) R. Cruz-Martinez, V. Tenorio, N. Padilla et F. Crispi, « Risk of ultrasound-detected neonatal brain abnormalities in intrauterine growth-restricted fetuses born between 28 and 34 weeks' gestation: relationship with gestational age at birth and fetal Doppler parameters: Abnormal Doppler in IUGR fetuses and neonatal brain abnormality », Ultrasound in Obstetrics & Gynecology, vol. 46, no 4, , p. 452–459 (DOI10.1002/uog.14920, lire en ligne, consulté le )
(en) Nelly Padilla, Carles Falcón, Magdalena Sanz-Cortés et Francesc Figueras, « Differential effects of intrauterine growth restriction on brain structure and development in preterm infants: A magnetic resonance imaging study », Brain Research, vol. 1382, , p. 98–108 (DOI10.1016/j.brainres.2011.01.032, lire en ligne, consulté le )
(en) Nelly Padilla, Carme Junqué, Francesc Figueras et Magdalena Sanz-Cortes, « Differential vulnerability of gray matter and white matter to intrauterine growth restriction in preterm infants at 12 months corrected age », Brain Research, vol. 1545, , p. 1–11 (DOI10.1016/j.brainres.2013.12.007, lire en ligne, consulté le )
(en) Dafnis Batalle, Elisenda Eixarch, Francesc Figueras et Emma Muñoz-Moreno, « Altered small-world topology of structural brain networks in infants with intrauterine growth restriction and its association with later neurodevelopmental outcome », NeuroImage, vol. 60, no 2, , p. 1352–1366 (DOI10.1016/j.neuroimage.2012.01.059, lire en ligne, consulté le )
(en) Elda Fischi-Gómez, Lana Vasung, Djalel-Eddine Meskaldji et François Lazeyras, « Structural Brain Connectivity in School-Age Preterm Infants Provides Evidence for Impaired Networks Relevant for Higher Order Cognitive Skills and Social Cognition », Cerebral Cortex, vol. 25, no 9, , p. 2793–2805 (ISSN1047-3211 et 1460-2199, DOI10.1093/cercor/bhu073, lire en ligne, consulté le )
(en) J. C. Tanis, D. M. Schmitz, M. R. Boelen et L. Casarella, « Relationship between general movements in neonates who were growth restricted in utero and prenatal Doppler flow patterns: Neonatal general movements after FGR in relation to prenatal Doppler », Ultrasound in Obstetrics & Gynecology, vol. 48, no 6, , p. 772–778 (DOI10.1002/uog.15903, lire en ligne, consulté le )
(en) Anat Yerushalmy-Feler, Ronella Marom, Tali Peylan et Akiva Korn, « Electroencephalographic Characteristics in Preterm Infants Born with Intrauterine Growth Restriction », The Journal of Pediatrics, vol. 164, no 4, , p. 756–761.e1 (DOI10.1016/j.jpeds.2013.12.030, lire en ligne, consulté le )
(en) Emily Cohen, Flora Y. Wong, Euan M. Wallace et Joanne C. Mockler, « EEG power spectrum maturation in preterm fetal growth restricted infants », Brain Research, vol. 1678, , p. 180–186 (DOI10.1016/j.brainres.2017.10.010, lire en ligne, consulté le )
(en) E. Hernandez‐Andrade, H. Figueroa‐Diesel, T. Jansson et H. Rangel‐Nava, « Changes in regional fetal cerebral blood flow perfusion in relation to hemodynamic deterioration in severely growth‐restricted fetuses », Ultrasound in Obstetrics and Gynecology, vol. 32, no 1, , p. 71–76 (DOI10.1002/uog.5377, lire en ligne, consulté le )
(en) Hiroki Ishii, Takeshi Takami, Tao Fujioka et Norio Mizukaki, « Comparison of changes in cerebral and systemic perfusion between appropriate- and small-for-gestational-age infants during the first three days after birth », Brain and Development, vol. 36, no 5, , p. 380–387 (DOI10.1016/j.braindev.2013.06.006, lire en ligne, consulté le )
(en) Damien S. Hunter, Susan J. Hazel, Karen L. Kind et Julie A. Owens, « Programming the brain: Common outcomes and gaps in knowledge from animal studies of IUGR », Physiology & Behavior, vol. 164, , p. 233–248 (DOI10.1016/j.physbeh.2016.06.005, lire en ligne, consulté le )
(en) Alfred Basilious, Jerome Yager et Michael G Fehlings, « Neurological outcomes of animal models of uterine artery ligation and relevance to human intrauterine growth restriction: a systematic review », Developmental Medicine & Child Neurology, vol. 57, no 5, , p. 420–430 (PMID25330710, PMCIDPMC4406147, DOI10.1111/dmcn.12599, lire en ligne, consulté le )
(en) A.M. Swanson et A.L. David, « Animal models of fetal growth restriction: Considerations for translational medicine », Placenta, vol. 36, no 6, , p. 623–630 (DOI10.1016/j.placenta.2015.03.003, lire en ligne, consulté le )
(en) Annie R.A. McDougall, Vanny Wiradjaja, Aminath Azhan et Anqi Li, « Intrauterine Growth Restriction Alters the Postnatal Development of the Rat Cerebellum », Developmental Neuroscience, vol. 39, nos 1-4, , p. 215–227 (ISSN0378-5866 et 1421-9859, DOI10.1159/000470902, lire en ligne, consulté le )
(en) Anna Karynna Alves de Alencar Rocha, Beth J. Allison, Tamara Yawno et Graeme R. Polglase, « Early- versus Late-Onset Fetal Growth Restriction Differentially Affects the Development of the Fetal Sheep Brain », Developmental Neuroscience, vol. 39, nos 1-4, , p. 141–155 (ISSN0378-5866 et 1421-9859, DOI10.1159/000456542, lire en ligne, consulté le )
(en) Elisenda Eixarch, Dafnis Batalle, Miriam Illa et Emma Muñoz-Moreno, « Neonatal Neurobehavior and Diffusion MRI Changes in Brain Reorganization Due to Intrauterine Growth Restriction in a Rabbit Model », PLoS ONE, vol. 7, no 2, , e31497 (ISSN1932-6203, PMID22347486, PMCIDPMC3275591, DOI10.1371/journal.pone.0031497, lire en ligne, consulté le )
(en) Crystal A. Ruff, Stuart D. Faulkner, Prakasham Rumajogee et Stephanie Beldick, « The extent of intrauterine growth restriction determines the severity of cerebral injury and neurobehavioural deficits in rodents », PLOS ONE, vol. 12, no 9, , e0184653 (ISSN1932-6203, PMID28934247, PMCIDPMC5608203, DOI10.1371/journal.pone.0184653, lire en ligne, consulté le )
(en) Mary Tolcos, Steven Petratos, Jonathan J. Hirst et Flora Wong, « Blocked, delayed, or obstructed: What causes poor white matter development in intrauterine growth restricted infants? », Progress in Neurobiology, vol. 154, , p. 62–77 (DOI10.1016/j.pneurobio.2017.03.009, lire en ligne, consulté le )
(en) Maria Bisignano et Sandra Rees, « The effects of intrauterine growth retardation on synaptogenesis and mitochondrial formation in the cerebral and cerebellar cortices of fetal sheep », International Journal of Developmental Neuroscience, vol. 6, no 5, , p. 453–460 (DOI10.1016/0736-5748(88)90051-2, lire en ligne, consulté le )
(en) Margie Castillo-Melendez, Tamara Yawno, Beth J. Allison et Graham Jenkin, « Cerebrovascular adaptations to chronic hypoxia in the growth restricted lamb », International Journal of Developmental Neuroscience, vol. 45, no C, , p. 55–65 (DOI10.1016/j.ijdevneu.2015.01.004, lire en ligne, consulté le )
(en) B. J. Allison, S. B. Hooper, E. Coia et G. Jenkin, « Does growth restriction increase the vulnerability to acute ventilation-induced brain injury in newborn lambs? Implications for future health and disease », Journal of Developmental Origins of Health and Disease, vol. 8, no 5, , p. 556–565 (ISSN2040-1744 et 2040-1752, DOI10.1017/S204017441700037X, lire en ligne, consulté le )
(en) Atul Malhotra, Margie Castillo-Melendez, Beth J. Allison et Amy E. Sutherland, « Neuropathology as a consequence of neonatal ventilation in premature growth-restricted lambs », American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, vol. 315, no 6, , R1183–R1194 (ISSN0363-6119 et 1522-1490, DOI10.1152/ajpregu.00171.2018, lire en ligne, consulté le )
(en) Eve M. Blair et Karin B. Nelson, « Fetal growth restriction and risk of cerebral palsy in singletons born after at least 35 weeks’ gestation », American Journal of Obstetrics and Gynecology, vol. 212, no 4, , p. 520.e1–520.e7 (DOI10.1016/j.ajog.2014.10.1103, lire en ligne, consulté le )
(en) E. Morsing, M. Asard, D. Ley et K. Stjernqvist, « Cognitive Function After Intrauterine Growth Restriction and Very Preterm Birth », PEDIATRICS, vol. 127, no 4, , e874–e882 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.2010-1821, lire en ligne, consulté le )
(en) Alastair H. MacLennan, Suzanna C. Thompson et Jozef Gecz, « Cerebral palsy: causes, pathways, and the role of genetic variants », American Journal of Obstetrics and Gynecology, vol. 213, no 6, , p. 779–788 (DOI10.1016/j.ajog.2015.05.034, lire en ligne, consulté le )
(en) In-Kyung Sung, Betty Vohr et William Oh, « Growth and neurodevelopmental outcome of very low birth weight infants with intrauterine growth retardation: Comparison with control subjects matched by birth weight and gestational age », The Journal of Pediatrics, vol. 123, no 4, , p. 618–624 (DOI10.1016/S0022-3476(05)80965-5, lire en ligne, consulté le )
(en) Yael Leitner, Aviva Fattal-Valevski, Ronny Geva et Rina Eshel, « Neurodevelopmental Outcome of Children With Intrauterine Growth Retardation: A Longitudinal, 10-Year Prospective Study », Journal of Child Neurology, vol. 22, no 5, , p. 580–587 (ISSN0883-0738 et 1708-8283, DOI10.1177/0883073807302605, lire en ligne, consulté le )
(en) James A. Low, Mark H. Handley-Derry, Sharon O. Burke et Ray D. Peters, « Association of intrauterine fetal growth retardation and learning deficits at age 9 to 11 years », American Journal of Obstetrics and Gynecology, vol. 167, no 6, , p. 1499–1505 (DOI10.1016/0002-9378(92)91727-R, lire en ligne, consulté le )
(en) Ronny Geva, Rina Eshel, Yael Leitner et Aviva Fattal-Valevski, « Memory functions of children born with asymmetric intrauterine growth restriction », Brain Research, vol. 1117, no 1, , p. 186–194 (DOI10.1016/j.brainres.2006.08.004, lire en ligne, consulté le )
(en) R. Geva, R. Eshel, Y. Leitner et A. F. Valevski, « Neuropsychological Outcome of Children With Intrauterine Growth Restriction: A 9-Year Prospective Study », PEDIATRICS, vol. 118, no 1, , p. 91–100 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.2005-2343, lire en ligne, consulté le )
(en) E Murray, M Fernandes, M Fazel et Sh Kennedy, « Differential effect of intrauterine growth restriction on childhood neurodevelopment: a systematic review », BJOG: An International Journal of Obstetrics & Gynaecology, vol. 122, no 8, , p. 1062–1072 (DOI10.1111/1471-0528.13435, lire en ligne, consulté le )
(en) B. Larroque, S. Bertrais, P. Czernichow et J. Leger, « School Difficulties in 20-Year-Olds Who Were Born Small for Gestational Age at Term in a Regional Cohort Study », PEDIATRICS, vol. 108, no 1, , p. 111–115 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.108.1.111, lire en ligne, consulté le )
(en) Robert B. Walton, Luckey C. Reed, Sarah M. Estrada et Stacey S. Schmiedecke, « Evaluation of Sildenafil and Tadalafil for Reversing Constriction of Fetal Arteries in a Human Placenta Perfusion Model », Hypertension, vol. 72, no 1, , p. 167–176 (ISSN0194-911X et 1524-4563, DOI10.1161/HYPERTENSIONAHA.117.10738, lire en ligne, consulté le )
(en) Raheela N Khan, Hasiba Hamoud, Averil Warren et Li F Wong, « Relaxant action of sildenafil citrate (Viagra) on human myometrium of pregnancy », American Journal of Obstetrics and Gynecology, vol. 191, no 1, , p. 315–321 (DOI10.1016/j.ajog.2003.11.005, lire en ligne, consulté le )
(en) Mark Wareing, Jenny E. Myers, Maureen O’Hara et Philip N. Baker, « Sildenafil Citrate (Viagra) Enhances Vasodilatation in Fetal Growth Restriction », The Journal of Clinical Endocrinology & Metabolism, vol. 90, no 5, , p. 2550–2555 (ISSN0021-972X et 1945-7197, DOI10.1210/jc.2004-1831, lire en ligne, consulté le )
(en) Nina D. Paauw, Fieke Terstappen, Wessel Ganzevoort et Jaap A. Joles, « Sildenafil During Pregnancy: A Preclinical Meta-Analysis on Fetal Growth and Maternal Blood Pressure », Hypertension, vol. 70, no 5, , p. 998–1006 (ISSN0194-911X et 1524-4563, DOI10.1161/HYPERTENSIONAHA.117.09690, lire en ligne, consulté le )
(en) Suzanne L. Miller, Jan M. Loose, Graham Jenkin et Euan M. Wallace, « The effects of sildenafil citrate (Viagra) on uterine blood flow and well being in the intrauterine growth-restricted fetus », American Journal of Obstetrics and Gynecology, vol. 200, no 1, , p. 102.e1–102.e7 (DOI10.1016/j.ajog.2008.08.029, lire en ligne, consulté le )
(en) Gordon C S Smith, « The STRIDER trial: one step forward, one step back », The Lancet Child & Adolescent Health, vol. 2, no 2, , p. 80–81 (DOI10.1016/S2352-4642(17)30176-1, lire en ligne, consulté le )
(en) B Pellicer, S Herraiz, O Cauli et R Rodrigo, « Haemodynamic effects of long-term administration of sildenafil in normotensive pregnant and non-pregnant rats: Sildenafil in pregnant rats », BJOG: An International Journal of Obstetrics & Gynaecology, vol. 118, no 5, , p. 615–623 (DOI10.1111/j.1471-0528.2010.02839.x, lire en ligne, consulté le )
(en) EVERREST Consortium, Rebecca Spencer, Gareth Ambler et Jana Brodszki, « EVERREST prospective study: a 6-year prospective study to define the clinical and biological characteristics of pregnancies affected by severe early onset fetal growth restriction », BMC Pregnancy and Childbirth, vol. 17, no 1, , p. 43 (ISSN1471-2393, PMID28114884, PMCIDPMC5259830, DOI10.1186/s12884-017-1226-7, lire en ligne, consulté le )
(en) A L David, B Torondel, I Zachary et V Wigley, « Local delivery of VEGF adenovirus to the uterine artery increases vasorelaxation and uterine blood flow in the pregnant sheep », Gene Therapy, vol. 15, no 19, , p. 1344–1350 (ISSN0969-7128 et 1476-5462, DOI10.1038/gt.2008.102, lire en ligne, consulté le )
(en) David J. Carr, Jacqueline M. Wallace, Raymond P. Aitken et John S. Milne, « Peri- and Postnatal Effects of Prenatal Adenoviral VEGF Gene Therapy in Growth-Restricted Sheep1 », Biology of Reproduction, vol. 94, no 6, (ISSN0006-3363 et 1529-7268, DOI10.1095/biolreprod.115.133744, lire en ligne, consulté le )
(en) Andrew D. Kane, Emilio A. Herrera, Emily J. Camm et Dino A. Giussani, « Vitamin C Prevents Intrauterine Programming of in vivo Cardiovascular Dysfunction in the Rat », Circulation Journal, vol. 77, no 10, , p. 2604–2611 (ISSN1346-9843 et 1347-4820, DOI10.1253/circj.CJ-13-0311, lire en ligne, consulté le )
Ilaria Fantasia, Sofia Bussolaro, Tamara Stampalija et Daniel L. Rolnik, « The role of melatonin in pregnancies complicated by placental insufficiency: A systematic review », European Journal of Obstetrics, Gynecology, and Reproductive Biology, vol. 278, , p. 22–28 (ISSN1872-7654, PMID36108451, DOI10.1016/j.ejogrb.2022.08.029, lire en ligne, consulté le )
(en) Suzanne L. Miller, Tamara Yawno, Nicole O. Alers et Margie Castillo-Melendez, « Antenatal antioxidant treatment with melatonin to decrease newborn neurodevelopmental deficits and brain injury caused by fetal growth restriction », Journal of Pineal Research, vol. 56, no 3, , p. 283–294 (DOI10.1111/jpi.12121, lire en ligne, consulté le )
(en) Alejandro González-Candia, Marcelino Veliz, Claudio Araya et Sebastian Quezada, « Potential adverse effects of antenatal melatonin as a treatment for intrauterine growth restriction: findings in pregnant sheep », American Journal of Obstetrics and Gynecology, vol. 215, no 2, , p. 245.e1–245.e7 (DOI10.1016/j.ajog.2016.02.040, lire en ligne, consulté le )
(en) Sebastian R. Hobson, Seshi Gurusinghe, Rebecca Lim et Nicole O. Alers, « Melatonin improves endothelial function in vitro and prolongs pregnancy in women with early-onset preeclampsia », Journal of Pineal Research, vol. 65, no 3, , e12508 (DOI10.1111/jpi.12508, lire en ligne, consulté le )
Cristian R. Astorga, Alejandro González-Candia, Alejandro A. Candia et Esteban G. Figueroa, « Melatonin Decreases Pulmonary Vascular Remodeling and Oxygen Sensitivity in Pulmonary Hypertensive Newborn Lambs », Frontiers in Physiology, vol. 9, , p. 185 (ISSN1664-042X, PMID29559926, PMCIDPMC5845624, DOI10.3389/fphys.2018.00185, lire en ligne, consulté le )
(en) Flavio Torres, Alejandro González-Candia, Camilo Montt et Germán Ebensperger, « Melatonin reduces oxidative stress and improves vascular function in pulmonary hypertensive newborn sheep », Journal of Pineal Research, vol. 58, no 3, , p. 362–373 (DOI10.1111/jpi.12222, lire en ligne, consulté le )
Anne-Karin Welin, Pernilla Svedin, Risto Lapatto et Bo Sultan, « Melatonin Reduces Inflammation and Cell Death in White Matter in the Mid-Gestation Fetal Sheep Following Umbilical Cord Occlusion », Pediatric Research, vol. 61, no 2, , p. 153–158 (ISSN0031-3998 et 1530-0447, DOI10.1203/01.pdr.0000252546.20451.1a, lire en ligne, consulté le )
Tamara Yawno, Mawin Mahen, Jingang Li et Michael C. Fahey, « The Beneficial Effects of Melatonin Administration Following Hypoxia-Ischemia in Preterm Fetal Sheep », Frontiers in Cellular Neuroscience, vol. 11, , p. 296 (ISSN1662-5102, PMID29018332, PMCIDPMC5615225, DOI10.3389/fncel.2017.00296, lire en ligne, consulté le )
(en) Suzanne L. Miller, Edwin B. Yan, Margie Castillo-Meléndez et Graham Jenkin, « Melatonin Provides Neuroprotection in the Late-Gestation Fetal Sheep Brain in Response to Umbilical Cord Occlusion », Developmental Neuroscience, vol. 27, nos 2-4, , p. 200–210 (ISSN0378-5866 et 1421-9859, DOI10.1159/000085993, lire en ligne, consulté le )
(en) Margie Castillo-Melendez, Tamara Yawno, Amy Sutherland et Graham Jenkin, « Effects of Antenatal Melatonin Treatment on the Cerebral Vasculature in an Ovine Model of Fetal Growth Restriction », Developmental Neuroscience, vol. 39, nos 1-4, , p. 323–337 (ISSN0378-5866 et 1421-9859, DOI10.1159/000471797, lire en ligne, consulté le )
(en) Sebastian R Hobson, Rebecca Lim, Elizabeth E Gardiner et Nicole O Alers, « Phase I pilot clinical trial of antenatal maternally administered melatonin to decrease the level of oxidative stress in human pregnancies affected by pre-eclampsia (PAMPR): study protocol », BMJ Open, vol. 3, no 9, , e003788 (ISSN2044-6055 et 2044-6055, PMID24056493, PMCIDPMC3780337, DOI10.1136/bmjopen-2013-003788, lire en ligne, consulté le )
(en) Chansutha Thangaratnarajah, Katharina Dinger, Christina Vohlen et Christian Klaudt, « Novel role of NPY in neuroimmune interaction and lung growth after intrauterine growth restriction », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 313, no 3, , L491–L506 (ISSN1040-0605 et 1522-1504, DOI10.1152/ajplung.00432.2016, lire en ligne, consulté le )
(en) Emmanuel Somm, Pierre Larvaron, Yohan van de Looij et Audrey Toulotte, « Protective effects of maternal nutritional supplementation with lactoferrin on growth and brain metabolism », Pediatric Research, vol. 75, no 1, , p. 51–61 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2013.199, lire en ligne, consulté le )
(en) Paolo Manzoni, « Bovine Lactoferrin Supplementation for Prevention of Late-Onset Sepsis in Very Low-Birth-Weight NeonatesA Randomized Trial », JAMA, vol. 302, no 13, , p. 1421 (ISSN0098-7484, DOI10.1001/jama.2009.1403, lire en ligne, consulté le )
(en) Yohan van de Looij, Vanessa Ginet, Alexandra Chatagner et Audrey Toulotte, « Lactoferrin during lactation protects the immature hypoxic-ischemic rat brain », Annals of Clinical and Translational Neurology, vol. 1, no 12, , p. 955–967 (PMID25574471, PMCIDPMC4284122, DOI10.1002/acn3.138, lire en ligne, consulté le )
(en) Miriam Illa, Verónica Brito, Laura Pla et Elisenda Eixarch, « Early Environmental Enrichment Enhances Abnormal Brain Connectivity in a Rabbit Model of Intrauterine Growth Restriction », Fetal Diagnosis and Therapy, vol. 44, no 3, , p. 184–193 (ISSN1015-3837 et 1421-9964, DOI10.1159/000481171, lire en ligne, consulté le )
(en) J.L. James, S. Srinivasan, M. Alexander et L.W. Chamley, « Can we fix it? Evaluating the potential of placental stem cells for the treatment of pregnancy disorders », Placenta, vol. 35, no 2, , p. 77–84 (DOI10.1016/j.placenta.2013.12.010, lire en ligne, consulté le )
elsevier.com
linkinghub.elsevier.com
(en) Lesley M. McCowan, Francesc Figueras et Ngaire H. Anderson, « Evidence-based national guidelines for the management of suspected fetal growth restriction: comparison, consensus, and controversy », American Journal of Obstetrics and Gynecology, vol. 218, no 2, , S855–S868 (DOI10.1016/j.ajog.2017.12.004, lire en ligne, consulté le )
(en) Helmuth Vorherr, « Factors influencing fetal growth », American Journal of Obstetrics and Gynecology, vol. 142, no 5, , p. 577–588 (DOI10.1016/0002-9378(82)90765-7, lire en ligne, consulté le )
(en) Graham J. Burton et Eric Jauniaux, « Pathophysiology of placental-derived fetal growth restriction », American Journal of Obstetrics and Gynecology, vol. 218, no 2, , S745–S761 (DOI10.1016/j.ajog.2017.11.577, lire en ligne, consulté le )
(en) Francesc Figueras et Eduard Gratacos, « An integrated approach to fetal growth restriction », Best Practice & Research Clinical Obstetrics & Gynaecology, vol. 38, , p. 48–58 (DOI10.1016/j.bpobgyn.2016.10.006, lire en ligne, consulté le )
(en) Irène Netchine, Salah Azzi, Yves Le Bouc et Martin O. Savage, « IGF1 molecular anomalies demonstrate its critical role in fetal, postnatal growth and brain development », Best Practice & Research Clinical Endocrinology & Metabolism, vol. 25, no 1, , p. 181–190 (DOI10.1016/j.beem.2010.08.005, lire en ligne, consulté le )
(en) M.J Waters et P.L Kaye, « The role of growth hormone in fetal development », Growth Hormone & IGF Research, vol. 12, no 3, , p. 137–146 (DOI10.1016/S1096-6374(02)00018-7, lire en ligne, consulté le )
(en) Euan M Wallace et Lesleigh S Baker, « Effect of antenatal betamethasone administration on placental vascular resistance », The Lancet, vol. 353, no 9162, , p. 1404–1407 (DOI10.1016/S0140-6736(98)08229-4, lire en ligne, consulté le )
(en) Suzanne L. Miller, Veena G. Supramaniam, Graham Jenkin et David W. Walker, « Cardiovascular responses to maternal betamethasone administration in the intrauterine growth–restricted ovine fetus », American Journal of Obstetrics and Gynecology, vol. 201, no 6, , p. 613.e1–613.e8 (DOI10.1016/j.ajog.2009.07.028, lire en ligne, consulté le )
(en) M.F. Schreuder et J. Nauta, « Prenatal programming of nephron number and blood pressure », Kidney International, vol. 72, no 3, , p. 265–268 (DOI10.1038/sj.ki.5002307, lire en ligne, consulté le )
(en) Ahmet A. Baschat, « Planning management and delivery of the growth-restricted fetus », Best Practice & Research Clinical Obstetrics & Gynaecology, vol. 49, , p. 53–65 (DOI10.1016/j.bpobgyn.2018.02.009, lire en ligne, consulté le )
(en) Justin R. Lappen et Stephen A. Myers, « The systematic error in the estimation of fetal weight and the underestimation of fetal growth restriction », American Journal of Obstetrics and Gynecology, vol. 216, no 5, , p. 477–483 (DOI10.1016/j.ajog.2017.02.013, lire en ligne, consulté le )
(en) Isabelle Monier, Pierre-Yves Ancel, Anne Ego et Pierre-Henri Jarreau, « Fetal and neonatal outcomes of preterm infants born before 32 weeks of gestation according to antenatal vs postnatal assessments of restricted growth », American Journal of Obstetrics and Gynecology, vol. 216, no 5, , p. 516.e1–516.e10 (DOI10.1016/j.ajog.2017.02.001, lire en ligne, consulté le )
(en) Cande V. Ananth et Alexander M. Friedman, « Ischemic placental disease and risks of perinatal mortality and morbidity and neurodevelopmental outcomes », Seminars in Perinatology, vol. 38, no 3, , p. 151–158 (DOI10.1053/j.semperi.2014.03.007, lire en ligne, consulté le )
(en) Valentina Bozzetti, Giuseppe Paterlini, Paola De Lorenzo et Diego Gazzolo, « Impact of Continuous vs Bolus Feeding on Splanchnic Perfusion in Very Low Birth Weight Infants: A Randomized Trial », The Journal of Pediatrics, vol. 176, , p. 86–92.e2 (DOI10.1016/j.jpeds.2016.05.031, lire en ligne, consulté le )
(en) Enrico Zecca, Simonetta Costa, Giovanni Barone et Lucia Giordano, « Proactive Enteral Nutrition in Moderately Preterm Small for Gestational Age Infants: A Randomized Clinical Trial », The Journal of Pediatrics, vol. 165, no 6, , p. 1135–1139.e1 (DOI10.1016/j.jpeds.2014.08.065, lire en ligne, consulté le )
(en) Stefania Longo, Alessandro Borghesi, Chryssoula Tzialla et Mauro Stronati, « IUGR and infections », Early Human Development, vol. 90, , S42–S44 (DOI10.1016/S0378-3782(14)70014-3, lire en ligne, consulté le )
(en) Wassim A. Hassan, Jeremy Brockelsby, Medhat Alberry et Tiziana Fanelli, « Cardiac function in early onset small for gestational age and growth restricted fetuses », European Journal of Obstetrics & Gynecology and Reproductive Biology, vol. 171, no 2, , p. 262–265 (DOI10.1016/j.ejogrb.2013.09.020, lire en ligne, consulté le )
(en) Fatima Crispi, Edgar Hernandez-Andrade, Maurice M.A.L. Pelsers et Walter Plasencia, « Cardiac dysfunction and cell damage across clinical stages of severity in growth-restricted fetuses », American Journal of Obstetrics and Gynecology, vol. 199, no 3, , p. 254.e1–254.e8 (DOI10.1016/j.ajog.2008.06.056, lire en ligne, consulté le )
(en) Jesus Igor Iruretagoyena, Anna Gonzalez-Tendero, Patricia Garcia-Canadilla et Ivan Amat-Roldan, « Cardiac dysfunction is associated with altered sarcomere ultrastructure in intrauterine growth restriction », American Journal of Obstetrics and Gynecology, vol. 210, no 6, , p. 550.e1–550.e7 (DOI10.1016/j.ajog.2014.01.023, lire en ligne, consulté le )
(en) Arvind Sehgal, Beth J. Allison, Stella M. Gwini et Suzanne L. Miller, « Cardiac Morphology and Function in Preterm Growth Restricted Infants: Relevance for Clinical Sequelae », The Journal of Pediatrics, vol. 188, , p. 128–134.e2 (DOI10.1016/j.jpeds.2017.05.076, lire en ligne, consulté le )
(en) Cn Martyn et Se Greenwald, « Impaired synthesis of elastin in walls of aorta and large conduit arteries during early development as an initiating event in pathogenesis of systemic hypertension », The Lancet, vol. 350, no 9082, , p. 953–955 (DOI10.1016/S0140-6736(96)10508-0, lire en ligne, consulté le )
(en) Tessa Roseboom, Susanne de Rooij et Rebecca Painter, « The Dutch famine and its long-term consequences for adult health », Early Human Development, vol. 82, no 8, , p. 485–491 (DOI10.1016/j.earlhumdev.2006.07.001, lire en ligne, consulté le )
(en) Michael R Skilton, Nick Evans, Kaye A Griffiths et Jason A Harmer, « Aortic wall thickness in newborns with intrauterine growth restriction », The Lancet, vol. 365, no 9469, , p. 1484–1486 (DOI10.1016/S0140-6736(05)66419-7, lire en ligne, consulté le )
(en) Vincenzo Zanardo, Tiziana Fanelli, Gary Weiner et Vassilios Fanos, « Intrauterine growth restriction is associated with persistent aortic wall thickening and glomerular proteinuria during infancy », Kidney International, vol. 80, no 1, , p. 119–123 (PMID21490588, PMCIDPMC3257045, DOI10.1038/ki.2011.99, lire en ligne, consulté le )
(en) Atul Singhal, Mia Kattenhorn, Tim J Cole et John Deanfield, « Preterm birth, vascular function, and risk factors for atherosclerosis », The Lancet, vol. 358, no 9288, , p. 1159–1160 (DOI10.1016/S0140-6736(01)06276-6, lire en ligne, consulté le )
(en) Meng Yuan Zhu, Natasha Milligan, Sarah Keating et Rory Windrim, « The hemodynamics of late-onset intrauterine growth restriction by MRI », American Journal of Obstetrics and Gynecology, vol. 214, no 3, , p. 367.e1–367.e17 (DOI10.1016/j.ajog.2015.10.004, lire en ligne, consulté le )
(en) K.K. Mestan, J. Check, L. Minturn et S. Yallapragada, « Placental pathologic changes of maternal vascular underperfusion in bronchopulmonary dysplasia and pulmonary hypertension », Placenta, vol. 35, no 8, , p. 570–574 (PMID24906549, PMCIDPMC4119480, DOI10.1016/j.placenta.2014.05.003, lire en ligne, consulté le )
(en) Gabriela Egaña-Ugrinovic, Magdalena Sanz-Cortes, Francesc Figueras et Nuria Bargalló, « Differences in cortical development assessed by fetal MRI in late-onset intrauterine growth restriction », American Journal of Obstetrics and Gynecology, vol. 209, no 2, , p. 126.e1–126.e8 (DOI10.1016/j.ajog.2013.04.008, lire en ligne, consulté le )
(en) Dafnis Batalle, Emma Muñoz-Moreno, Cristian Tornador et Nuria Bargallo, « Altered resting-state whole-brain functional networks of neonates with intrauterine growth restriction », Cortex, vol. 77, , p. 119–131 (DOI10.1016/j.cortex.2016.01.012, lire en ligne, consulté le )
(en) Nelly Padilla, Carles Falcón, Magdalena Sanz-Cortés et Francesc Figueras, « Differential effects of intrauterine growth restriction on brain structure and development in preterm infants: A magnetic resonance imaging study », Brain Research, vol. 1382, , p. 98–108 (DOI10.1016/j.brainres.2011.01.032, lire en ligne, consulté le )
(en) Nelly Padilla, Carme Junqué, Francesc Figueras et Magdalena Sanz-Cortes, « Differential vulnerability of gray matter and white matter to intrauterine growth restriction in preterm infants at 12 months corrected age », Brain Research, vol. 1545, , p. 1–11 (DOI10.1016/j.brainres.2013.12.007, lire en ligne, consulté le )
(en) Dafnis Batalle, Elisenda Eixarch, Francesc Figueras et Emma Muñoz-Moreno, « Altered small-world topology of structural brain networks in infants with intrauterine growth restriction and its association with later neurodevelopmental outcome », NeuroImage, vol. 60, no 2, , p. 1352–1366 (DOI10.1016/j.neuroimage.2012.01.059, lire en ligne, consulté le )
(en) Anat Yerushalmy-Feler, Ronella Marom, Tali Peylan et Akiva Korn, « Electroencephalographic Characteristics in Preterm Infants Born with Intrauterine Growth Restriction », The Journal of Pediatrics, vol. 164, no 4, , p. 756–761.e1 (DOI10.1016/j.jpeds.2013.12.030, lire en ligne, consulté le )
(en) Emily Cohen, Flora Y. Wong, Euan M. Wallace et Joanne C. Mockler, « EEG power spectrum maturation in preterm fetal growth restricted infants », Brain Research, vol. 1678, , p. 180–186 (DOI10.1016/j.brainres.2017.10.010, lire en ligne, consulté le )
(en) Hiroki Ishii, Takeshi Takami, Tao Fujioka et Norio Mizukaki, « Comparison of changes in cerebral and systemic perfusion between appropriate- and small-for-gestational-age infants during the first three days after birth », Brain and Development, vol. 36, no 5, , p. 380–387 (DOI10.1016/j.braindev.2013.06.006, lire en ligne, consulté le )
(en) Damien S. Hunter, Susan J. Hazel, Karen L. Kind et Julie A. Owens, « Programming the brain: Common outcomes and gaps in knowledge from animal studies of IUGR », Physiology & Behavior, vol. 164, , p. 233–248 (DOI10.1016/j.physbeh.2016.06.005, lire en ligne, consulté le )
(en) A.M. Swanson et A.L. David, « Animal models of fetal growth restriction: Considerations for translational medicine », Placenta, vol. 36, no 6, , p. 623–630 (DOI10.1016/j.placenta.2015.03.003, lire en ligne, consulté le )
(en) Mary Tolcos, Steven Petratos, Jonathan J. Hirst et Flora Wong, « Blocked, delayed, or obstructed: What causes poor white matter development in intrauterine growth restricted infants? », Progress in Neurobiology, vol. 154, , p. 62–77 (DOI10.1016/j.pneurobio.2017.03.009, lire en ligne, consulté le )
(en) Eve M. Blair et Karin B. Nelson, « Fetal growth restriction and risk of cerebral palsy in singletons born after at least 35 weeks’ gestation », American Journal of Obstetrics and Gynecology, vol. 212, no 4, , p. 520.e1–520.e7 (DOI10.1016/j.ajog.2014.10.1103, lire en ligne, consulté le )
(en) Alastair H. MacLennan, Suzanna C. Thompson et Jozef Gecz, « Cerebral palsy: causes, pathways, and the role of genetic variants », American Journal of Obstetrics and Gynecology, vol. 213, no 6, , p. 779–788 (DOI10.1016/j.ajog.2015.05.034, lire en ligne, consulté le )
(en) In-Kyung Sung, Betty Vohr et William Oh, « Growth and neurodevelopmental outcome of very low birth weight infants with intrauterine growth retardation: Comparison with control subjects matched by birth weight and gestational age », The Journal of Pediatrics, vol. 123, no 4, , p. 618–624 (DOI10.1016/S0022-3476(05)80965-5, lire en ligne, consulté le )
(en) James A. Low, Mark H. Handley-Derry, Sharon O. Burke et Ray D. Peters, « Association of intrauterine fetal growth retardation and learning deficits at age 9 to 11 years », American Journal of Obstetrics and Gynecology, vol. 167, no 6, , p. 1499–1505 (DOI10.1016/0002-9378(92)91727-R, lire en ligne, consulté le )
(en) Ronny Geva, Rina Eshel, Yael Leitner et Aviva Fattal-Valevski, « Memory functions of children born with asymmetric intrauterine growth restriction », Brain Research, vol. 1117, no 1, , p. 186–194 (DOI10.1016/j.brainres.2006.08.004, lire en ligne, consulté le )
(en) Raheela N Khan, Hasiba Hamoud, Averil Warren et Li F Wong, « Relaxant action of sildenafil citrate (Viagra) on human myometrium of pregnancy », American Journal of Obstetrics and Gynecology, vol. 191, no 1, , p. 315–321 (DOI10.1016/j.ajog.2003.11.005, lire en ligne, consulté le )
(en) Suzanne L. Miller, Jan M. Loose, Graham Jenkin et Euan M. Wallace, « The effects of sildenafil citrate (Viagra) on uterine blood flow and well being in the intrauterine growth-restricted fetus », American Journal of Obstetrics and Gynecology, vol. 200, no 1, , p. 102.e1–102.e7 (DOI10.1016/j.ajog.2008.08.029, lire en ligne, consulté le )
(en) Gordon C S Smith, « The STRIDER trial: one step forward, one step back », The Lancet Child & Adolescent Health, vol. 2, no 2, , p. 80–81 (DOI10.1016/S2352-4642(17)30176-1, lire en ligne, consulté le )
(en) Alejandro González-Candia, Marcelino Veliz, Claudio Araya et Sebastian Quezada, « Potential adverse effects of antenatal melatonin as a treatment for intrauterine growth restriction: findings in pregnant sheep », American Journal of Obstetrics and Gynecology, vol. 215, no 2, , p. 245.e1–245.e7 (DOI10.1016/j.ajog.2016.02.040, lire en ligne, consulté le )
(en) J.L. James, S. Srinivasan, M. Alexander et L.W. Chamley, « Can we fix it? Evaluating the potential of placental stem cells for the treatment of pregnancy disorders », Placenta, vol. 35, no 2, , p. 77–84 (DOI10.1016/j.placenta.2013.12.010, lire en ligne, consulté le )
Francesca Gaccioli et Susanne Lager, « Placental Nutrient Transport and Intrauterine Growth Restriction », Frontiers in Physiology, vol. 7, (ISSN1664-042X, DOI10.3389/fphys.2016.00040, lire en ligne, consulté le )
Daniel Cañas, Emilio A. Herrera, Claudio García-Herrera et Diego Celentano, « Fetal Growth Restriction Induces Heterogeneous Effects on Vascular Biomechanical and Functional Properties in Guinea Pigs (Cavia porcellus) », Frontiers in Physiology, vol. 8, (ISSN1664-042X, PMID28344561, PMCIDPMC5344887, DOI10.3389/fphys.2017.00144, lire en ligne, consulté le )
Cristian R. Astorga, Alejandro González-Candia, Alejandro A. Candia et Esteban G. Figueroa, « Melatonin Decreases Pulmonary Vascular Remodeling and Oxygen Sensitivity in Pulmonary Hypertensive Newborn Lambs », Frontiers in Physiology, vol. 9, , p. 185 (ISSN1664-042X, PMID29559926, PMCIDPMC5845624, DOI10.3389/fphys.2018.00185, lire en ligne, consulté le )
Tamara Yawno, Mawin Mahen, Jingang Li et Michael C. Fahey, « The Beneficial Effects of Melatonin Administration Following Hypoxia-Ischemia in Preterm Fetal Sheep », Frontiers in Cellular Neuroscience, vol. 11, , p. 296 (ISSN1662-5102, PMID29018332, PMCIDPMC5615225, DOI10.3389/fncel.2017.00296, lire en ligne, consulté le )
hindawi.com
(en) Sinja Alexandra Ernst, Tilman Brand, Anna Reeske et Jacob Spallek, « Care-Related and Maternal Risk Factors Associated with the Antenatal Nondetection of Intrauterine Growth Restriction : A Case-Control Study from Bremen, Germany », BioMed Research International, vol. 2017, , p. 1–10 (ISSN2314-6133 et 2314-6141, PMID28473976, PMCIDPMC5394345, DOI10.1155/2017/1746146, lire en ligne, consulté le )
issn.org
portal.issn.org
(en) Julia Unterscheider, Sean Daly, Michael Patrick Geary et Mairead Mary Kennelly, « Optimizing the Definition of Intrauterine Growth Restriction: The Multicenter Prospective PORTO Study », Obstetrical & Gynecological Survey, vol. 68, no 8, , p. 549–551 (ISSN0029-7828, DOI10.1097/OGX.0b013e3182a0597f, lire en ligne, consulté le )
(en) Ja Owens, « Endocrine and substrate control of fetal growth: placental and maternal influences and insulin-like growth factors », Reproduction, Fertility and Development, vol. 3, no 5, , p. 501 (ISSN1031-3613, DOI10.1071/RD9910501, lire en ligne, consulté le )
(en) G. M. Arikan, H. S. Scholz, E. Petru et M. C. H. Haeusler, « Cord blood oxygen saturation in vigorous infants at birth: what is normal? », BJOG: An International Journal of Obstetrics and Gynaecology, vol. 107, no 8, , p. 987–994 (ISSN1470-0328 et 1471-0528, DOI10.1111/j.1471-0528.2000.tb10401.x, lire en ligne, consulté le )
(en) Vanessa E. Murphy, Roger Smith, Warwick B. Giles et Vicki L. Clifton, « Endocrine Regulation of Human Fetal Growth: The Role of the Mother, Placenta, and Fetus », Endocrine Reviews, vol. 27, no 2, , p. 141–169 (ISSN0163-769X et 1945-7189, DOI10.1210/er.2005-0011, lire en ligne, consulté le )
(en) Georgios D. Agrogiannis, Stavros Sifakis, Efstratios S. Patsouris et Anastasia E. Konstantinidou, « Insulin-like growth factors in embryonic and fetal growth and skeletal development (Review) », Molecular Medicine Reports, vol. 10, no 2, , p. 579–584 (ISSN1791-2997 et 1791-3004, PMID24859417, PMCIDPMC4094767, DOI10.3892/mmr.2014.2258, lire en ligne, consulté le )
(en) Woo Jeng Kim, Young Sin Han, Hyun Sun Ko et In Yang Park, « Antenatal corticosteroids and outcomes of preterm small-for-gestational-age neonates in a single medical center », Obstetrics & Gynecology Science, vol. 61, no 1, , p. 7 (ISSN2287-8572 et 2287-8580, PMID29372144, PMCIDPMC5780323, DOI10.5468/ogs.2018.61.1.7, lire en ligne, consulté le )
(en) Suzanne L. Miller, Mahalia Chai, Jan Loose et Margie Castillo-Meléndez, « The Effects of Maternal Betamethasone Administration on the Intrauterine Growth-Restricted Fetus », Endocrinology, vol. 148, no 3, , p. 1288–1295 (ISSN0013-7227 et 1945-7170, DOI10.1210/en.2006-1058, lire en ligne, consulté le )
(en) Janna L Morrison, « SHEEP MODELS OF INTRAUTERINE GROWTH RESTRICTION: FETAL ADAPTATIONS AND CONSEQUENCES », Clinical and Experimental Pharmacology and Physiology, vol. 35, no 7, , p. 730–743 (ISSN0305-1870 et 1440-1681, DOI10.1111/j.1440-1681.2008.04975.x, lire en ligne, consulté le )
(en) Anju Suhag et Vincenzo Berghella, « Intrauterine Growth Restriction (IUGR): Etiology and Diagnosis », Current Obstetrics and Gynecology Reports, vol. 2, no 2, , p. 102–111 (ISSN2161-3303, DOI10.1007/s13669-013-0041-z, lire en ligne, consulté le )
(en) Sinja Alexandra Ernst, Tilman Brand, Anna Reeske et Jacob Spallek, « Care-Related and Maternal Risk Factors Associated with the Antenatal Nondetection of Intrauterine Growth Restriction : A Case-Control Study from Bremen, Germany », BioMed Research International, vol. 2017, , p. 1–10 (ISSN2314-6133 et 2314-6141, PMID28473976, PMCIDPMC5394345, DOI10.1155/2017/1746146, lire en ligne, consulté le )
(en) Suneet Chauhan, Hind Beydoun, Eugene Chang et Adam Sandlin, « Prenatal Detection of Fetal Growth Restriction in Newborns Classified as Small for Gestational Age : Correlates and Risk of Neonatal Morbidity », American Journal of Perinatology, vol. 31, no 03, , p. 187–194 (ISSN0735-1631 et 1098-8785, DOI10.1055/s-0033-1343771, lire en ligne, consulté le )
(en) Jacob Larkin, Suneet Chauhan et Hyagriv Simhan, « Small for Gestational Age: The Differential Mortality When Detected versus Undetected Antenatally », American Journal of Perinatology, vol. 34, no 04, , p. 409–414 (ISSN0735-1631 et 1098-8785, DOI10.1055/s-0036-1592132, lire en ligne, consulté le )
(en) J. Zeitlin, P. Y. Ancel, M. J. Saurel-Cubizolles et E. Papiernik, « The relationship between intrauterine growth restriction and preterm delivery : an empirical approach using data from a European case-control study », BJOG: An International Journal of Obstetrics and Gynaecology, vol. 107, no 6, , p. 750–758 (ISSN1470-0328 et 1471-0528, DOI10.1111/j.1471-0528.2000.tb13336.x, lire en ligne, consulté le )
(en) Reeta Vijayaselvi et AnneGeorge Cherian, « Risk assessment of intrauterine growth restriction », Current Medical Issues, vol. 15, no 4, , p. 262 (ISSN0973-4651, DOI10.4103/cmi.cmi_76_17, lire en ligne, consulté le )
Francesca Gaccioli et Susanne Lager, « Placental Nutrient Transport and Intrauterine Growth Restriction », Frontiers in Physiology, vol. 7, (ISSN1664-042X, DOI10.3389/fphys.2016.00040, lire en ligne, consulté le )
(en) Nadeem Khan et S. J. Kazzi, « YIELD AND COSTS OF SCREENING GROWTH-RETARDED INFANTS FOR TORCH INFECTIONS », American Journal of Perinatology, vol. 17, no 03, , p. 131–136 (ISSN0735-1631 et 1098-8785, DOI10.1055/s-2000-9288, lire en ligne, consulté le )
(en) Alicia Marzouk, Antoine Filipovic-Pierucci, Olivier Baud et Vassilis Tsatsaris, « Prenatal and post-natal cost of small for gestational age infants: a national study », BMC Health Services Research, vol. 17, no 1, , p. 221 (ISSN1472-6963, PMID28320392, PMCIDPMC5359886, DOI10.1186/s12913-017-2155-x, lire en ligne, consulté le )
(en) Sheila M. Gephart et Corrine K. Hanson, « Preventing Necrotizing Enterocolitis With Standardized Feeding Protocols: Not Only Possible, But Imperative », Advances in Neonatal Care, vol. 13, no 1, , p. 48–54 (ISSN1536-0903, DOI10.1097/ANC.0b013e31827ece0a, lire en ligne, consulté le )
Valentina Bozzetti et Paolo E. Tagliabue, « Enteral feeding of intrauterine growth restriction preterm infants: theoretical risks and practical implications », La Pediatria Medica e Chirurgica, vol. 39, no 2, (ISSN2420-7748 et 0391-5387, DOI10.4081/pmc.2017.160, lire en ligne, consulté le )
(en) P.-M. Fortune, M. Wagstaff et A. Petros, « Cerebro-splanchnic oxygenation ratio (CSOR) using near infrared spectroscopy may be able to predict splanchnic ischaemia in neonates », Intensive Care Medicine, vol. 27, no 8, , p. 1401–1407 (ISSN0342-4642 et 1432-1238, DOI10.1007/s001340100994, lire en ligne, consulté le )
(en) Stephen Kempley, Neelam Gupta, Louise Linsell et Jon Dorling, « Feeding infants below 29 weeks’ gestation with abnormal antenatal Doppler: analysis from a randomised trial », Archives of Disease in Childhood - Fetal and Neonatal Edition, vol. 99, no 1, , F6–F11 (ISSN1359-2998 et 1468-2052, DOI10.1136/archdischild-2013-304393, lire en ligne, consulté le )
(en) A. Leaf, J. Dorling, S. Kempley et K. McCormick, « Early or Delayed Enteral Feeding for Preterm Growth-Restricted Infants: A Randomized Trial », PEDIATRICS, vol. 129, no 5, , e1260–e1268 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.2011-2379, lire en ligne, consulté le )
(en) Maria Cristina Aisa, Benito Cappuccini, Antonella Barbati et Aldo Orlacchio, « Biochemical parameters of renal impairment/injury and surrogate markers of nephron number in intrauterine growth-restricted and preterm neonates at 30–40 days of postnatal corrected age », Pediatric Nephrology, vol. 31, no 12, , p. 2277–2287 (ISSN0931-041X et 1432-198X, DOI10.1007/s00467-016-3484-4, lire en ligne, consulté le )
(en) Antonella Barbati, Benito Cappuccini, Maria Cristina Aisa et Chiara Grasselli, « Increased Urinary Cystatin-C Levels Correlate with Reduced Renal Volumes in Neonates with Intrauterine Growth Restriction », Neonatology, vol. 109, no 2, , p. 154–160 (ISSN1661-7800 et 1661-7819, DOI10.1159/000441273, lire en ligne, consulté le )
(en) Carlos Menendez-Castro, Fabian Fahlbusch, Nada Cordasic et Kerstin Amann, « Early and Late Postnatal Myocardial and Vascular Changes in a Protein Restriction Rat Model of Intrauterine Growth Restriction », PLoS ONE, vol. 6, no 5, , e20369 (ISSN1932-6203, PMID21655297, PMCIDPMC3105022, DOI10.1371/journal.pone.0020369, lire en ligne, consulté le )
(en) James S Barry, Paul J Rozance, Laura D Brown et Russell V Anthony, « Increased fetal myocardial sensitivity to insulin-stimulated glucose metabolism during ovine fetal growth restriction », Experimental Biology and Medicine, vol. 241, no 8, , p. 839–847 (ISSN1535-3702 et 1535-3699, PMID26873920, PMCIDPMC4950398, DOI10.1177/1535370216632621, lire en ligne, consulté le )
(en) Rajan Poudel, I. Caroline McMillen, Stacey L. Dunn et Song Zhang, « Impact of chronic hypoxemia on blood flow to the brain, heart, and adrenal gland in the late-gestation IUGR sheep fetus », American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, vol. 308, no 3, , R151–R162 (ISSN0363-6119 et 1522-1490, DOI10.1152/ajpregu.00036.2014, lire en ligne, consulté le )
(en) Christiane A Opitz et Wolfgang A Linke, « Plasticity of cardiac titin/connectin in heart development », Journal of Muscle Research and Cell Motility, vol. 26, nos 6-8, , p. 333–342 (ISSN0142-4319 et 1573-2657, DOI10.1007/s10974-005-9040-7, lire en ligne, consulté le )
(en) Beth J. Allison, Joepe J. Kaandorp, Andrew D. Kane et Emily J. Camm, « Divergence of mechanistic pathways mediating cardiovascular aging and developmental programming of cardiovascular disease », The FASEB Journal, vol. 30, no 5, , p. 1968–1975 (ISSN0892-6638 et 1530-6860, PMID26932929, PMCIDPMC5036970, DOI10.1096/fj.201500057, lire en ligne, consulté le )
(en) A Sehgal, B J Allison, S M Gwini et S Menahem, « Vascular aging and cardiac maladaptation in growth-restricted preterm infants », Journal of Perinatology, vol. 38, no 1, , p. 92–97 (ISSN0743-8346 et 1476-5543, DOI10.1038/jp.2017.135, lire en ligne, consulté le )
(en) R. Blair Dodson, Paul J. Rozance, Carson C. Petrash et Kendall S. Hunter, « Thoracic and abdominal aortas stiffen through unique extracellular matrix changes in intrauterine growth restricted fetal sheep », American Journal of Physiology-Heart and Circulatory Physiology, vol. 306, no 3, , H429–H437 (ISSN0363-6135 et 1522-1539, PMID24322609, PMCIDPMC3920138, DOI10.1152/ajpheart.00472.2013, lire en ligne, consulté le )
Daniel Cañas, Emilio A. Herrera, Claudio García-Herrera et Diego Celentano, « Fetal Growth Restriction Induces Heterogeneous Effects on Vascular Biomechanical and Functional Properties in Guinea Pigs (Cavia porcellus) », Frontiers in Physiology, vol. 8, (ISSN1664-042X, PMID28344561, PMCIDPMC5344887, DOI10.3389/fphys.2017.00144, lire en ligne, consulté le )
(en) R. Blair Dodson, Thomas A. Miller, Kyle Powers et Yueqin Yang, « Intrauterine growth restriction influences vascular remodeling and stiffening in the weanling rat more than sex or diet », American Journal of Physiology-Heart and Circulatory Physiology, vol. 312, no 2, , H250–H264 (ISSN0363-6135 et 1522-1539, DOI10.1152/ajpheart.00610.2016, lire en ligne, consulté le )
(en) Sotirios Fouzas, Ageliki A. Karatza, Periklis A. Davlouros et Dionisios Chrysis, « Neonatal cardiac dysfunction in intrauterine growth restriction », Pediatric Research, vol. 75, no 5, , p. 651–657 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2014.22, lire en ligne, consulté le )
(en) Bero O. Verburg, Vincent W.V. Jaddoe, Juriy W. Wladimiroff et Albert Hofman, « Fetal Hemodynamic Adaptive Changes Related to Intrauterine Growth: The Generation R Study », Circulation, vol. 117, no 5, , p. 649–659 (ISSN0009-7322 et 1524-4539, DOI10.1161/CIRCULATIONAHA.107.709717, lire en ligne, consulté le )
(en) D. A Leon, H. O Lithell, D. Vagero et I. Koupilova, « Reduced fetal growth rate and increased risk of death from ischaemic heart disease: cohort study of 15 000 Swedish men and women born 1915-29 », BMJ, vol. 317, no 7153, , p. 241–245 (ISSN0959-8138 et 1468-5833, PMID9677213, PMCIDPMC28614, DOI10.1136/bmj.317.7153.241, lire en ligne, consulté le )
(en) Hideoki Fukuoka, « DOHaD (Developmental Origins of Health and Disease) and Birth Cohort Research », Journal of Nutritional Science and Vitaminology, vol. 61, no Supplement, , S2–S4 (ISSN0301-4800 et 1881-7742, DOI10.3177/jnsv.61.S2, lire en ligne, consulté le )
(en) Sarah J. Kotecha, W. John Watkins, Jonathan Heron et John Henderson, « Spirometric Lung Function in School-Age Children: Effect of Intrauterine Growth Retardation and Catch-up Growth », American Journal of Respiratory and Critical Care Medicine, vol. 181, no 9, , p. 969–974 (ISSN1073-449X et 1535-4970, PMID20093643, PMCIDPMC2862306, DOI10.1164/rccm.200906-0897OC, lire en ligne, consulté le )
(en) Arvind Sehgal, Stella M. Gwini, Samuel Menahem et Beth J. Allison, « Preterm growth restriction and bronchopulmonary dysplasia: the vascular hypothesis and related physiology », The Journal of Physiology, vol. 597, no 4, , p. 1209–1220 (ISSN0022-3751 et 1469-7793, PMID29746007, PMCIDPMC6376075, DOI10.1113/JP276040, lire en ligne, consulté le )
(en) Eveliina Ronkainen, Teija Dunder, Tuula Kaukola et Riitta Marttila, « Intrauterine growth restriction predicts lower lung function at school age in children born very preterm », Archives of Disease in Childhood - Fetal and Neonatal Edition, vol. 101, no 5, , F412–F417 (ISSN1359-2998 et 1468-2052, DOI10.1136/archdischild-2015-308922, lire en ligne, consulté le )
(en) Namasivayam Ambalavanan, Teodora Nicola, James Hagood et Arlene Bulger, « Transforming growth factor-β signaling mediates hypoxia-induced pulmonary arterial remodeling and inhibition of alveolar development in newborn mouse lung », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 295, no 1, , L86–L95 (ISSN1040-0605 et 1522-1504, PMID18487357, PMCIDPMC2494779, DOI10.1152/ajplung.00534.2007, lire en ligne, consulté le )
(en) Graeme R. Polglase, Jade Barbuto, Beth J. Allison et Tamara Yawno, « Effects of antenatal melatonin therapy on lung structure in growth-restricted newborn lambs », Journal of Applied Physiology, vol. 123, no 5, , p. 1195–1203 (ISSN8750-7587 et 1522-1601, DOI10.1152/japplphysiol.00783.2016, lire en ligne, consulté le )
(en) Beth J. Allison, Stuart B. Hooper, Elise Coia et Valerie A. Zahra, « Ventilation-induced lung injury is not exacerbated by growth restriction in preterm lambs », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 310, no 3, , L213–L223 (ISSN1040-0605 et 1522-1504, DOI10.1152/ajplung.00328.2015, lire en ligne, consulté le )
(en) Amy E. Sutherland, Kelly J. Crossley, Beth J. Allison et Graham Jenkin, « The effects of intrauterine growth restriction and antenatal glucocorticoids on ovine fetal lung development », Pediatric Research, vol. 71, no 6, , p. 689–696 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2012.19, lire en ligne, consulté le )
(en) L. Gortner, A. Hilgendorff, T. Bähner et M. Ebsen, « Hypoxia-Induced Intrauterine Growth Retardation: Effects on Pulmonary Development and Surfactant Protein Transcription », Neonatology, vol. 88, no 2, , p. 129–135 (ISSN1661-7800 et 1661-7819, DOI10.1159/000085895, lire en ligne, consulté le )
(en) Sandra Orgeig, Tamara A. Crittenden, Ceilidh Marchant et I. Caroline McMillen, « Intrauterine growth restriction delays surfactant protein maturation in the sheep fetus », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 298, no 4, , L575–L583 (ISSN1040-0605 et 1522-1504, DOI10.1152/ajplung.00226.2009, lire en ligne, consulté le )
(en) T. Kiserud, C. Ebbing, J. Kessler et S. Rasmussen, « Fetal cardiac output, distribution to the placenta and impact of placental compromise », Ultrasound in Obstetrics and Gynecology, vol. 28, no 2, , p. 126–136 (ISSN0960-7692 et 1469-0705, DOI10.1002/uog.2832, lire en ligne, consulté le )
(en) Graeme R. Polglase, Beth J. Allison, Elise Coia et Anqi Li, « Altered cardiovascular function at birth in growth-restricted preterm lambs », Pediatric Research, vol. 80, no 4, , p. 538–546 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2016.104, lire en ligne, consulté le )
(en) S. B. Hooper et R. Harding, « FETAL LUNG LIQUID: A MAJOR DETERMINANT OF THE GROWTH AND FUNCTIONAL DEVELOPMENT OF THE FETAL LUNG », Clinical and Experimental Pharmacology and Physiology, vol. 22, no 4, , p. 235–241 (ISSN0305-1870 et 1440-1681, DOI10.1111/j.1440-1681.1995.tb01988.x, lire en ligne, consulté le )
(en) Bernard Thébaud et Steven H. Abman, « Bronchopulmonary Dysplasia: Where Have All the Vessels Gone? Roles of Angiogenic Growth Factors in Chronic Lung Disease », American Journal of Respiratory and Critical Care Medicine, vol. 175, no 10, , p. 978–985 (ISSN1073-449X et 1535-4970, PMID17272782, PMCIDPMC2176086, DOI10.1164/rccm.200611-1660PP, lire en ligne, consulté le )
(en) Csaba Galambos, Yin-Shan Ng, Ayoob Ali et Akihiko Noguchi, « Defective Pulmonary Development in the Absence of Heparin-Binding Vascular Endothelial Growth Factor Isoforms », American Journal of Respiratory Cell and Molecular Biology, vol. 27, no 2, , p. 194–203 (ISSN1044-1549 et 1535-4989, DOI10.1165/ajrcmb.27.2.4703, lire en ligne, consulté le )
(en) Paul J. Rozance, Gregory J. Seedorf, Alicia Brown et Gates Roe, « Intrauterine growth restriction decreases pulmonary alveolar and vessel growth and causes pulmonary artery endothelial cell dysfunction in vitro in fetal sheep », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 301, no 6, , L860–L871 (ISSN1040-0605 et 1522-1504, PMID21873446, PMCIDPMC3233832, DOI10.1152/ajplung.00197.2011, lire en ligne, consulté le )
(en) Luigi Gagliardi, Franca Rusconi, Monica Da Frè et Giorgio Mello, « Pregnancy disorders leading to very preterm birth influence neonatal outcomes: results of the population-based ACTION cohort study », Pediatric Research, vol. 73, no 6, , p. 794–801 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2013.52, lire en ligne, consulté le )
(en) Demosthenes G. Papamatheakis, Madalitso Chundu, Arlin B. Blood et Sean M. Wilson, « Prenatal Programming of Pulmonary Hypertension Induced by Chronic Hypoxia or Ductal Ligation in Sheep », Pulmonary Circulation, vol. 3, no 4, , p. 757–780 (ISSN2045-8932 et 2045-8940, PMID25006393, PMCIDPMC4070839, DOI10.1086/674767, lire en ligne, consulté le )
(en) Petra S. Hüppi, « Cortical Development in the Fetus and the Newborn: Advanced MR Techniques », Topics in Magnetic Resonance Imaging, vol. 22, no 1, , p. 33–38 (ISSN0899-3459, DOI10.1097/RMR.0b013e3182416f78, lire en ligne, consulté le )
Cristina Borradori Tolsa, Slava Zimine, Simon K Warfield et Monica Freschi, « Early Alteration of Structural and Functional Brain Development in Premature Infants Born with Intrauterine Growth Restriction », Pediatric Research, vol. 56, no 1, , p. 132–138 (ISSN0031-3998 et 1530-0447, DOI10.1203/01.PDR.0000128983.54614.7E, lire en ligne, consulté le )
(en) Luca A. Ramenghi, Anna Martinelli, Agnese De Carli et Valentina Brusati, « Cerebral Maturation in IUGR and Appropriate for Gestational Age Preterm Babies », Reproductive Sciences, vol. 18, no 5, , p. 469–475 (ISSN1933-7191 et 1933-7205, DOI10.1177/1933719110388847, lire en ligne, consulté le )
Gregory A Lodygensky, Mohammed L Seghier, Simon K Warfield et Cristina Borradori Tolsa, « Intrauterine Growth Restriction Affects the Preterm Infant's Hippocampus », Pediatric Research, vol. 63, no 4, , p. 438–443 (ISSN0031-3998 et 1530-0447, DOI10.1203/PDR.0b013e318165c005, lire en ligne, consulté le )
(en) Christie J. Bruno, Shreyans Bengani, William A. Gomes et Mariana Brewer, « MRI Differences Associated with Intrauterine Growth Restriction in Preterm Infants », Neonatology, vol. 111, no 4, , p. 317–323 (ISSN1661-7800 et 1661-7819, DOI10.1159/000453576, lire en ligne, consulté le )
(en) Atul Malhotra, Michael Ditchfield, Michael C Fahey et Margie Castillo-Melendez, « Detection and assessment of brain injury in the growth-restricted fetus and neonate », Pediatric Research, vol. 82, no 2, , p. 184–193 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2017.37, lire en ligne, consulté le )
(en) Mohan B. Krishnamurthy, Abigail Popiel et Atul Malhotra, « Screening investigations in small-for-gestational-age near-term and term infants », European Journal of Pediatrics, vol. 176, no 12, , p. 1707–1712 (ISSN0340-6199 et 1432-1076, DOI10.1007/s00431-017-3031-8, lire en ligne, consulté le )
(en) Elda Fischi-Gómez, Lana Vasung, Djalel-Eddine Meskaldji et François Lazeyras, « Structural Brain Connectivity in School-Age Preterm Infants Provides Evidence for Impaired Networks Relevant for Higher Order Cognitive Skills and Social Cognition », Cerebral Cortex, vol. 25, no 9, , p. 2793–2805 (ISSN1047-3211 et 1460-2199, DOI10.1093/cercor/bhu073, lire en ligne, consulté le )
(en) Annie R.A. McDougall, Vanny Wiradjaja, Aminath Azhan et Anqi Li, « Intrauterine Growth Restriction Alters the Postnatal Development of the Rat Cerebellum », Developmental Neuroscience, vol. 39, nos 1-4, , p. 215–227 (ISSN0378-5866 et 1421-9859, DOI10.1159/000470902, lire en ligne, consulté le )
(en) Anna Karynna Alves de Alencar Rocha, Beth J. Allison, Tamara Yawno et Graeme R. Polglase, « Early- versus Late-Onset Fetal Growth Restriction Differentially Affects the Development of the Fetal Sheep Brain », Developmental Neuroscience, vol. 39, nos 1-4, , p. 141–155 (ISSN0378-5866 et 1421-9859, DOI10.1159/000456542, lire en ligne, consulté le )
(en) Elisenda Eixarch, Dafnis Batalle, Miriam Illa et Emma Muñoz-Moreno, « Neonatal Neurobehavior and Diffusion MRI Changes in Brain Reorganization Due to Intrauterine Growth Restriction in a Rabbit Model », PLoS ONE, vol. 7, no 2, , e31497 (ISSN1932-6203, PMID22347486, PMCIDPMC3275591, DOI10.1371/journal.pone.0031497, lire en ligne, consulté le )
(en) Crystal A. Ruff, Stuart D. Faulkner, Prakasham Rumajogee et Stephanie Beldick, « The extent of intrauterine growth restriction determines the severity of cerebral injury and neurobehavioural deficits in rodents », PLOS ONE, vol. 12, no 9, , e0184653 (ISSN1932-6203, PMID28934247, PMCIDPMC5608203, DOI10.1371/journal.pone.0184653, lire en ligne, consulté le )
(en) B. J. Allison, S. B. Hooper, E. Coia et G. Jenkin, « Does growth restriction increase the vulnerability to acute ventilation-induced brain injury in newborn lambs? Implications for future health and disease », Journal of Developmental Origins of Health and Disease, vol. 8, no 5, , p. 556–565 (ISSN2040-1744 et 2040-1752, DOI10.1017/S204017441700037X, lire en ligne, consulté le )
(en) Atul Malhotra, Margie Castillo-Melendez, Beth J. Allison et Amy E. Sutherland, « Neuropathology as a consequence of neonatal ventilation in premature growth-restricted lambs », American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, vol. 315, no 6, , R1183–R1194 (ISSN0363-6119 et 1522-1490, DOI10.1152/ajpregu.00171.2018, lire en ligne, consulté le )
(en) E. Morsing, M. Asard, D. Ley et K. Stjernqvist, « Cognitive Function After Intrauterine Growth Restriction and Very Preterm Birth », PEDIATRICS, vol. 127, no 4, , e874–e882 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.2010-1821, lire en ligne, consulté le )
(en) Yael Leitner, Aviva Fattal-Valevski, Ronny Geva et Rina Eshel, « Neurodevelopmental Outcome of Children With Intrauterine Growth Retardation: A Longitudinal, 10-Year Prospective Study », Journal of Child Neurology, vol. 22, no 5, , p. 580–587 (ISSN0883-0738 et 1708-8283, DOI10.1177/0883073807302605, lire en ligne, consulté le )
(en) R. Geva, R. Eshel, Y. Leitner et A. F. Valevski, « Neuropsychological Outcome of Children With Intrauterine Growth Restriction: A 9-Year Prospective Study », PEDIATRICS, vol. 118, no 1, , p. 91–100 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.2005-2343, lire en ligne, consulté le )
(en) B. Larroque, S. Bertrais, P. Czernichow et J. Leger, « School Difficulties in 20-Year-Olds Who Were Born Small for Gestational Age at Term in a Regional Cohort Study », PEDIATRICS, vol. 108, no 1, , p. 111–115 (ISSN0031-4005 et 1098-4275, DOI10.1542/peds.108.1.111, lire en ligne, consulté le )
(en) Robert B. Walton, Luckey C. Reed, Sarah M. Estrada et Stacey S. Schmiedecke, « Evaluation of Sildenafil and Tadalafil for Reversing Constriction of Fetal Arteries in a Human Placenta Perfusion Model », Hypertension, vol. 72, no 1, , p. 167–176 (ISSN0194-911X et 1524-4563, DOI10.1161/HYPERTENSIONAHA.117.10738, lire en ligne, consulté le )
(en) Mark Wareing, Jenny E. Myers, Maureen O’Hara et Philip N. Baker, « Sildenafil Citrate (Viagra) Enhances Vasodilatation in Fetal Growth Restriction », The Journal of Clinical Endocrinology & Metabolism, vol. 90, no 5, , p. 2550–2555 (ISSN0021-972X et 1945-7197, DOI10.1210/jc.2004-1831, lire en ligne, consulté le )
(en) Nina D. Paauw, Fieke Terstappen, Wessel Ganzevoort et Jaap A. Joles, « Sildenafil During Pregnancy: A Preclinical Meta-Analysis on Fetal Growth and Maternal Blood Pressure », Hypertension, vol. 70, no 5, , p. 998–1006 (ISSN0194-911X et 1524-4563, DOI10.1161/HYPERTENSIONAHA.117.09690, lire en ligne, consulté le )
(en) EVERREST Consortium, Rebecca Spencer, Gareth Ambler et Jana Brodszki, « EVERREST prospective study: a 6-year prospective study to define the clinical and biological characteristics of pregnancies affected by severe early onset fetal growth restriction », BMC Pregnancy and Childbirth, vol. 17, no 1, , p. 43 (ISSN1471-2393, PMID28114884, PMCIDPMC5259830, DOI10.1186/s12884-017-1226-7, lire en ligne, consulté le )
(en) A L David, B Torondel, I Zachary et V Wigley, « Local delivery of VEGF adenovirus to the uterine artery increases vasorelaxation and uterine blood flow in the pregnant sheep », Gene Therapy, vol. 15, no 19, , p. 1344–1350 (ISSN0969-7128 et 1476-5462, DOI10.1038/gt.2008.102, lire en ligne, consulté le )
(en) David J. Carr, Jacqueline M. Wallace, Raymond P. Aitken et John S. Milne, « Peri- and Postnatal Effects of Prenatal Adenoviral VEGF Gene Therapy in Growth-Restricted Sheep1 », Biology of Reproduction, vol. 94, no 6, (ISSN0006-3363 et 1529-7268, DOI10.1095/biolreprod.115.133744, lire en ligne, consulté le )
(en) Andrew D. Kane, Emilio A. Herrera, Emily J. Camm et Dino A. Giussani, « Vitamin C Prevents Intrauterine Programming of in vivo Cardiovascular Dysfunction in the Rat », Circulation Journal, vol. 77, no 10, , p. 2604–2611 (ISSN1346-9843 et 1347-4820, DOI10.1253/circj.CJ-13-0311, lire en ligne, consulté le )
Ilaria Fantasia, Sofia Bussolaro, Tamara Stampalija et Daniel L. Rolnik, « The role of melatonin in pregnancies complicated by placental insufficiency: A systematic review », European Journal of Obstetrics, Gynecology, and Reproductive Biology, vol. 278, , p. 22–28 (ISSN1872-7654, PMID36108451, DOI10.1016/j.ejogrb.2022.08.029, lire en ligne, consulté le )
Cristian R. Astorga, Alejandro González-Candia, Alejandro A. Candia et Esteban G. Figueroa, « Melatonin Decreases Pulmonary Vascular Remodeling and Oxygen Sensitivity in Pulmonary Hypertensive Newborn Lambs », Frontiers in Physiology, vol. 9, , p. 185 (ISSN1664-042X, PMID29559926, PMCIDPMC5845624, DOI10.3389/fphys.2018.00185, lire en ligne, consulté le )
Anne-Karin Welin, Pernilla Svedin, Risto Lapatto et Bo Sultan, « Melatonin Reduces Inflammation and Cell Death in White Matter in the Mid-Gestation Fetal Sheep Following Umbilical Cord Occlusion », Pediatric Research, vol. 61, no 2, , p. 153–158 (ISSN0031-3998 et 1530-0447, DOI10.1203/01.pdr.0000252546.20451.1a, lire en ligne, consulté le )
Tamara Yawno, Mawin Mahen, Jingang Li et Michael C. Fahey, « The Beneficial Effects of Melatonin Administration Following Hypoxia-Ischemia in Preterm Fetal Sheep », Frontiers in Cellular Neuroscience, vol. 11, , p. 296 (ISSN1662-5102, PMID29018332, PMCIDPMC5615225, DOI10.3389/fncel.2017.00296, lire en ligne, consulté le )
(en) Suzanne L. Miller, Edwin B. Yan, Margie Castillo-Meléndez et Graham Jenkin, « Melatonin Provides Neuroprotection in the Late-Gestation Fetal Sheep Brain in Response to Umbilical Cord Occlusion », Developmental Neuroscience, vol. 27, nos 2-4, , p. 200–210 (ISSN0378-5866 et 1421-9859, DOI10.1159/000085993, lire en ligne, consulté le )
(en) Margie Castillo-Melendez, Tamara Yawno, Amy Sutherland et Graham Jenkin, « Effects of Antenatal Melatonin Treatment on the Cerebral Vasculature in an Ovine Model of Fetal Growth Restriction », Developmental Neuroscience, vol. 39, nos 1-4, , p. 323–337 (ISSN0378-5866 et 1421-9859, DOI10.1159/000471797, lire en ligne, consulté le )
(en) Sebastian R Hobson, Rebecca Lim, Elizabeth E Gardiner et Nicole O Alers, « Phase I pilot clinical trial of antenatal maternally administered melatonin to decrease the level of oxidative stress in human pregnancies affected by pre-eclampsia (PAMPR): study protocol », BMJ Open, vol. 3, no 9, , e003788 (ISSN2044-6055 et 2044-6055, PMID24056493, PMCIDPMC3780337, DOI10.1136/bmjopen-2013-003788, lire en ligne, consulté le )
(en) Chansutha Thangaratnarajah, Katharina Dinger, Christina Vohlen et Christian Klaudt, « Novel role of NPY in neuroimmune interaction and lung growth after intrauterine growth restriction », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 313, no 3, , L491–L506 (ISSN1040-0605 et 1522-1504, DOI10.1152/ajplung.00432.2016, lire en ligne, consulté le )
(en) Emmanuel Somm, Pierre Larvaron, Yohan van de Looij et Audrey Toulotte, « Protective effects of maternal nutritional supplementation with lactoferrin on growth and brain metabolism », Pediatric Research, vol. 75, no 1, , p. 51–61 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2013.199, lire en ligne, consulté le )
(en) Paolo Manzoni, « Bovine Lactoferrin Supplementation for Prevention of Late-Onset Sepsis in Very Low-Birth-Weight NeonatesA Randomized Trial », JAMA, vol. 302, no 13, , p. 1421 (ISSN0098-7484, DOI10.1001/jama.2009.1403, lire en ligne, consulté le )
(en) Miriam Illa, Verónica Brito, Laura Pla et Elisenda Eixarch, « Early Environmental Enrichment Enhances Abnormal Brain Connectivity in a Rabbit Model of Intrauterine Growth Restriction », Fetal Diagnosis and Therapy, vol. 44, no 3, , p. 184–193 (ISSN1015-3837 et 1421-9964, DOI10.1159/000481171, lire en ligne, consulté le )
jamanetwork.com
jama.jamanetwork.com
(en) Paolo Manzoni, « Bovine Lactoferrin Supplementation for Prevention of Late-Onset Sepsis in Very Low-Birth-Weight NeonatesA Randomized Trial », JAMA, vol. 302, no 13, , p. 1421 (ISSN0098-7484, DOI10.1001/jama.2009.1403, lire en ligne, consulté le )
jst.go.jp
jstage.jst.go.jp
(en) Hideoki Fukuoka, « DOHaD (Developmental Origins of Health and Disease) and Birth Cohort Research », Journal of Nutritional Science and Vitaminology, vol. 61, no Supplement, , S2–S4 (ISSN0301-4800 et 1881-7742, DOI10.3177/jnsv.61.S2, lire en ligne, consulté le )
(en) Andrew D. Kane, Emilio A. Herrera, Emily J. Camm et Dino A. Giussani, « Vitamin C Prevents Intrauterine Programming of in vivo Cardiovascular Dysfunction in the Rat », Circulation Journal, vol. 77, no 10, , p. 2604–2611 (ISSN1346-9843 et 1347-4820, DOI10.1253/circj.CJ-13-0311, lire en ligne, consulté le )
karger.com
(en) Antonella Barbati, Benito Cappuccini, Maria Cristina Aisa et Chiara Grasselli, « Increased Urinary Cystatin-C Levels Correlate with Reduced Renal Volumes in Neonates with Intrauterine Growth Restriction », Neonatology, vol. 109, no 2, , p. 154–160 (ISSN1661-7800 et 1661-7819, DOI10.1159/000441273, lire en ligne, consulté le )
(en) L. Gortner, A. Hilgendorff, T. Bähner et M. Ebsen, « Hypoxia-Induced Intrauterine Growth Retardation: Effects on Pulmonary Development and Surfactant Protein Transcription », Neonatology, vol. 88, no 2, , p. 129–135 (ISSN1661-7800 et 1661-7819, DOI10.1159/000085895, lire en ligne, consulté le )
(en) Christie J. Bruno, Shreyans Bengani, William A. Gomes et Mariana Brewer, « MRI Differences Associated with Intrauterine Growth Restriction in Preterm Infants », Neonatology, vol. 111, no 4, , p. 317–323 (ISSN1661-7800 et 1661-7819, DOI10.1159/000453576, lire en ligne, consulté le )
(en) Annie R.A. McDougall, Vanny Wiradjaja, Aminath Azhan et Anqi Li, « Intrauterine Growth Restriction Alters the Postnatal Development of the Rat Cerebellum », Developmental Neuroscience, vol. 39, nos 1-4, , p. 215–227 (ISSN0378-5866 et 1421-9859, DOI10.1159/000470902, lire en ligne, consulté le )
(en) Anna Karynna Alves de Alencar Rocha, Beth J. Allison, Tamara Yawno et Graeme R. Polglase, « Early- versus Late-Onset Fetal Growth Restriction Differentially Affects the Development of the Fetal Sheep Brain », Developmental Neuroscience, vol. 39, nos 1-4, , p. 141–155 (ISSN0378-5866 et 1421-9859, DOI10.1159/000456542, lire en ligne, consulté le )
(en) Suzanne L. Miller, Edwin B. Yan, Margie Castillo-Meléndez et Graham Jenkin, « Melatonin Provides Neuroprotection in the Late-Gestation Fetal Sheep Brain in Response to Umbilical Cord Occlusion », Developmental Neuroscience, vol. 27, nos 2-4, , p. 200–210 (ISSN0378-5866 et 1421-9859, DOI10.1159/000085993, lire en ligne, consulté le )
(en) Margie Castillo-Melendez, Tamara Yawno, Amy Sutherland et Graham Jenkin, « Effects of Antenatal Melatonin Treatment on the Cerebral Vasculature in an Ovine Model of Fetal Growth Restriction », Developmental Neuroscience, vol. 39, nos 1-4, , p. 323–337 (ISSN0378-5866 et 1421-9859, DOI10.1159/000471797, lire en ligne, consulté le )
(en) Miriam Illa, Verónica Brito, Laura Pla et Elisenda Eixarch, « Early Environmental Enrichment Enhances Abnormal Brain Connectivity in a Rabbit Model of Intrauterine Growth Restriction », Fetal Diagnosis and Therapy, vol. 44, no 3, , p. 184–193 (ISSN1015-3837 et 1421-9964, DOI10.1159/000481171, lire en ligne, consulté le )
koreamed.org
synapse.koreamed.org
(en) Woo Jeng Kim, Young Sin Han, Hyun Sun Ko et In Yang Park, « Antenatal corticosteroids and outcomes of preterm small-for-gestational-age neonates in a single medical center », Obstetrics & Gynecology Science, vol. 61, no 1, , p. 7 (ISSN2287-8572 et 2287-8580, PMID29372144, PMCIDPMC5780323, DOI10.5468/ogs.2018.61.1.7, lire en ligne, consulté le )
longwoods.com
Gillian Lim, Jacinth Tracey, Nicole Boom et Sunita Karmakar, « CIHI Survey: Hospital Costs for Preterm and Small-for-Gestational Age Babies in Canada », Healthcare Quarterly, vol. 12, no 4, , p. 20–24 (DOI10.12927/hcq.2013.21121, lire en ligne, consulté le )
(en) Petra S. Hüppi, « Cortical Development in the Fetus and the Newborn: Advanced MR Techniques », Topics in Magnetic Resonance Imaging, vol. 22, no 1, , p. 33–38 (ISSN0899-3459, DOI10.1097/RMR.0b013e3182416f78, lire en ligne, consulté le )
(en) A Sehgal, B J Allison, S M Gwini et S Menahem, « Vascular aging and cardiac maladaptation in growth-restricted preterm infants », Journal of Perinatology, vol. 38, no 1, , p. 92–97 (ISSN0743-8346 et 1476-5543, DOI10.1038/jp.2017.135, lire en ligne, consulté le )
(en) Sotirios Fouzas, Ageliki A. Karatza, Periklis A. Davlouros et Dionisios Chrysis, « Neonatal cardiac dysfunction in intrauterine growth restriction », Pediatric Research, vol. 75, no 5, , p. 651–657 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2014.22, lire en ligne, consulté le )
(en) Amy E. Sutherland, Kelly J. Crossley, Beth J. Allison et Graham Jenkin, « The effects of intrauterine growth restriction and antenatal glucocorticoids on ovine fetal lung development », Pediatric Research, vol. 71, no 6, , p. 689–696 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2012.19, lire en ligne, consulté le )
(en) Graeme R. Polglase, Beth J. Allison, Elise Coia et Anqi Li, « Altered cardiovascular function at birth in growth-restricted preterm lambs », Pediatric Research, vol. 80, no 4, , p. 538–546 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2016.104, lire en ligne, consulté le )
(en) Luigi Gagliardi, Franca Rusconi, Monica Da Frè et Giorgio Mello, « Pregnancy disorders leading to very preterm birth influence neonatal outcomes: results of the population-based ACTION cohort study », Pediatric Research, vol. 73, no 6, , p. 794–801 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2013.52, lire en ligne, consulté le )
Cristina Borradori Tolsa, Slava Zimine, Simon K Warfield et Monica Freschi, « Early Alteration of Structural and Functional Brain Development in Premature Infants Born with Intrauterine Growth Restriction », Pediatric Research, vol. 56, no 1, , p. 132–138 (ISSN0031-3998 et 1530-0447, DOI10.1203/01.PDR.0000128983.54614.7E, lire en ligne, consulté le )
Gregory A Lodygensky, Mohammed L Seghier, Simon K Warfield et Cristina Borradori Tolsa, « Intrauterine Growth Restriction Affects the Preterm Infant's Hippocampus », Pediatric Research, vol. 63, no 4, , p. 438–443 (ISSN0031-3998 et 1530-0447, DOI10.1203/PDR.0b013e318165c005, lire en ligne, consulté le )
(en) Atul Malhotra, Michael Ditchfield, Michael C Fahey et Margie Castillo-Melendez, « Detection and assessment of brain injury in the growth-restricted fetus and neonate », Pediatric Research, vol. 82, no 2, , p. 184–193 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2017.37, lire en ligne, consulté le )
(en) A L David, B Torondel, I Zachary et V Wigley, « Local delivery of VEGF adenovirus to the uterine artery increases vasorelaxation and uterine blood flow in the pregnant sheep », Gene Therapy, vol. 15, no 19, , p. 1344–1350 (ISSN0969-7128 et 1476-5462, DOI10.1038/gt.2008.102, lire en ligne, consulté le )
Anne-Karin Welin, Pernilla Svedin, Risto Lapatto et Bo Sultan, « Melatonin Reduces Inflammation and Cell Death in White Matter in the Mid-Gestation Fetal Sheep Following Umbilical Cord Occlusion », Pediatric Research, vol. 61, no 2, , p. 153–158 (ISSN0031-3998 et 1530-0447, DOI10.1203/01.pdr.0000252546.20451.1a, lire en ligne, consulté le )
(en) Emmanuel Somm, Pierre Larvaron, Yohan van de Looij et Audrey Toulotte, « Protective effects of maternal nutritional supplementation with lactoferrin on growth and brain metabolism », Pediatric Research, vol. 75, no 1, , p. 51–61 (ISSN0031-3998 et 1530-0447, DOI10.1038/pr.2013.199, lire en ligne, consulté le )
(en) Georgios D. Agrogiannis, Stavros Sifakis, Efstratios S. Patsouris et Anastasia E. Konstantinidou, « Insulin-like growth factors in embryonic and fetal growth and skeletal development (Review) », Molecular Medicine Reports, vol. 10, no 2, , p. 579–584 (ISSN1791-2997 et 1791-3004, PMID24859417, PMCIDPMC4094767, DOI10.3892/mmr.2014.2258, lire en ligne, consulté le )
(en) A. M. Spiroski, M. H. Oliver, A. L. Jaquiery et T. C. R. Prickett, « Postnatal effects of intrauterine treatment of the growth-restricted ovine fetus with intra-amniotic insulin-like growth factor-1: Postnatal effects of intra-amniotic IGF1 treatment of FGR », The Journal of Physiology, vol. 596, no 23, , p. 5925–5945 (PMID29235113, PMCIDPMC6265545, DOI10.1113/JP274999, lire en ligne, consulté le )
(en) Woo Jeng Kim, Young Sin Han, Hyun Sun Ko et In Yang Park, « Antenatal corticosteroids and outcomes of preterm small-for-gestational-age neonates in a single medical center », Obstetrics & Gynecology Science, vol. 61, no 1, , p. 7 (ISSN2287-8572 et 2287-8580, PMID29372144, PMCIDPMC5780323, DOI10.5468/ogs.2018.61.1.7, lire en ligne, consulté le )
(en) Dino A. Giussani, « The fetal brain sparing response to hypoxia: physiological mechanisms: Fetal brain sparing », The Journal of Physiology, vol. 594, no 5, , p. 1215–1230 (PMID26496004, PMCIDPMC4721497, DOI10.1113/JP271099, lire en ligne, consulté le )
(en) Suzanne L. Miller, Petra S. Huppi et Carina Mallard, « The consequences of fetal growth restriction on brain structure and neurodevelopmental outcome: Fetal growth restriction: brain structure and function », The Journal of Physiology, vol. 594, no 4, , p. 807–823 (PMID26607046, PMCIDPMC4753264, DOI10.1113/JP271402, lire en ligne, consulté le )
(en) Sinja Alexandra Ernst, Tilman Brand, Anna Reeske et Jacob Spallek, « Care-Related and Maternal Risk Factors Associated with the Antenatal Nondetection of Intrauterine Growth Restriction : A Case-Control Study from Bremen, Germany », BioMed Research International, vol. 2017, , p. 1–10 (ISSN2314-6133 et 2314-6141, PMID28473976, PMCIDPMC5394345, DOI10.1155/2017/1746146, lire en ligne, consulté le )
A. Ego, « Définitions: petit poids pour l'âge gestationnel et retard de croissance intra-utérin [Definitions: small for gestational age and intrauterine growth retardation] », J Gynecol Obstet Biol Reprod (Paris), vol. 42, no 8, , p. 872-94. (PMID24210714, DOI10.1016/j.jgyn.2013.09.012, résumé)modifier
(en) Alicia Marzouk, Antoine Filipovic-Pierucci, Olivier Baud et Vassilis Tsatsaris, « Prenatal and post-natal cost of small for gestational age infants: a national study », BMC Health Services Research, vol. 17, no 1, , p. 221 (ISSN1472-6963, PMID28320392, PMCIDPMC5359886, DOI10.1186/s12913-017-2155-x, lire en ligne, consulté le )
(en) Jennifer W. Lee, Deborah VanderVeen, Elizabeth N. Allred et Alan Leviton, « Prethreshold retinopathy in premature infants with intrauterine growth restriction », Acta Paediatrica, vol. 104, no 1, , p. 27–31 (PMID25196981, PMCIDPMC6172005, DOI10.1111/apa.12799, lire en ligne, consulté le )
(en) Carlos Menendez-Castro, Fabian Fahlbusch, Nada Cordasic et Kerstin Amann, « Early and Late Postnatal Myocardial and Vascular Changes in a Protein Restriction Rat Model of Intrauterine Growth Restriction », PLoS ONE, vol. 6, no 5, , e20369 (ISSN1932-6203, PMID21655297, PMCIDPMC3105022, DOI10.1371/journal.pone.0020369, lire en ligne, consulté le )
(en) James S Barry, Paul J Rozance, Laura D Brown et Russell V Anthony, « Increased fetal myocardial sensitivity to insulin-stimulated glucose metabolism during ovine fetal growth restriction », Experimental Biology and Medicine, vol. 241, no 8, , p. 839–847 (ISSN1535-3702 et 1535-3699, PMID26873920, PMCIDPMC4950398, DOI10.1177/1535370216632621, lire en ligne, consulté le )
(en) Kristen J. Bubb, Megan L. Cock, M. Jane Black et Miodrag Dodic, « Intrauterine growth restriction delays cardiomyocyte maturation and alters coronary artery function in the fetal sheep: Fetal cardiac and coronary alteration after growth restriction », The Journal of Physiology, vol. 578, no 3, , p. 871–881 (PMID17124269, PMCIDPMC2151351, DOI10.1113/jphysiol.2006.121160, lire en ligne, consulté le )
(en) Marianne Tare, Helena C. Parkington, Euan M. Wallace et Amy E. Sutherland, « Maternal melatonin administration mitigates coronary stiffness and endothelial dysfunction, and improves heart resilience to insult in growth restricted lambs: Melatonin rescues cardio-coronary function in IUGR », The Journal of Physiology, vol. 592, no 12, , p. 2695–2709 (PMID24710061, PMCIDPMC4080947, DOI10.1113/jphysiol.2014.270934, lire en ligne, consulté le )
(en) Kirsty L. Brain, Beth J. Allison, Youguo Niu et Christine M. Cross, « Induction of controlled hypoxic pregnancy in large mammalian species », Physiological Reports, vol. 3, no 12, , e12614 (PMID26660546, PMCIDPMC4760453, DOI10.14814/phy2.12614, lire en ligne, consulté le )
(en) B. J. Allison, K. L. Brain, Y. Niu et A. D. Kane, « Fetal in vivo continuous cardiovascular function during chronic hypoxia: Fetal brain sparing during chronic hypoxia », The Journal of Physiology, vol. 594, no 5, , p. 1247–1264 (PMID26926316, PMCIDPMC4771786, DOI10.1113/JP271091, lire en ligne, consulté le )
(en) Beth J. Allison, Joepe J. Kaandorp, Andrew D. Kane et Emily J. Camm, « Divergence of mechanistic pathways mediating cardiovascular aging and developmental programming of cardiovascular disease », The FASEB Journal, vol. 30, no 5, , p. 1968–1975 (ISSN0892-6638 et 1530-6860, PMID26932929, PMCIDPMC5036970, DOI10.1096/fj.201500057, lire en ligne, consulté le )
(en) R. Blair Dodson, Paul J. Rozance, Carson C. Petrash et Kendall S. Hunter, « Thoracic and abdominal aortas stiffen through unique extracellular matrix changes in intrauterine growth restricted fetal sheep », American Journal of Physiology-Heart and Circulatory Physiology, vol. 306, no 3, , H429–H437 (ISSN0363-6135 et 1522-1539, PMID24322609, PMCIDPMC3920138, DOI10.1152/ajpheart.00472.2013, lire en ligne, consulté le )
(en) Anderson H. Kuo, Cun Li, Hillary F. Huber et Geoffrey D. Clarke, « Intrauterine growth restriction results in persistent vascular mismatch in adulthood: Persistent vascular mismatch in IUGR », The Journal of Physiology, vol. 596, no 23, , p. 5777–5790 (PMID29098705, PMCIDPMC6265527, DOI10.1113/JP275139, lire en ligne, consulté le )
Daniel Cañas, Emilio A. Herrera, Claudio García-Herrera et Diego Celentano, « Fetal Growth Restriction Induces Heterogeneous Effects on Vascular Biomechanical and Functional Properties in Guinea Pigs (Cavia porcellus) », Frontiers in Physiology, vol. 8, (ISSN1664-042X, PMID28344561, PMCIDPMC5344887, DOI10.3389/fphys.2017.00144, lire en ligne, consulté le )
(en) D. A Leon, H. O Lithell, D. Vagero et I. Koupilova, « Reduced fetal growth rate and increased risk of death from ischaemic heart disease: cohort study of 15 000 Swedish men and women born 1915-29 », BMJ, vol. 317, no 7153, , p. 241–245 (ISSN0959-8138 et 1468-5833, PMID9677213, PMCIDPMC28614, DOI10.1136/bmj.317.7153.241, lire en ligne, consulté le )
(en) Vincenzo Zanardo, Tiziana Fanelli, Gary Weiner et Vassilios Fanos, « Intrauterine growth restriction is associated with persistent aortic wall thickening and glomerular proteinuria during infancy », Kidney International, vol. 80, no 1, , p. 119–123 (PMID21490588, PMCIDPMC3257045, DOI10.1038/ki.2011.99, lire en ligne, consulté le )
(en) Sarah J. Kotecha, W. John Watkins, Jonathan Heron et John Henderson, « Spirometric Lung Function in School-Age Children: Effect of Intrauterine Growth Retardation and Catch-up Growth », American Journal of Respiratory and Critical Care Medicine, vol. 181, no 9, , p. 969–974 (ISSN1073-449X et 1535-4970, PMID20093643, PMCIDPMC2862306, DOI10.1164/rccm.200906-0897OC, lire en ligne, consulté le )
(en) Arvind Sehgal, Stella M. Gwini, Samuel Menahem et Beth J. Allison, « Preterm growth restriction and bronchopulmonary dysplasia: the vascular hypothesis and related physiology », The Journal of Physiology, vol. 597, no 4, , p. 1209–1220 (ISSN0022-3751 et 1469-7793, PMID29746007, PMCIDPMC6376075, DOI10.1113/JP276040, lire en ligne, consulté le )
(en) Erin V. McGillick, Sandra Orgeig, Beth J. Allison et Kirsty L. Brain, « Maternal chronic hypoxia increases expression of genes regulating lung liquid movement and surfactant maturation in male fetuses in late gestation: Maternal chronic hypoxia promotes fetal lung maturation », The Journal of Physiology, vol. 595, no 13, , p. 4329–4350 (PMID28318025, PMCIDPMC5491863, DOI10.1113/JP273842, lire en ligne, consulté le )
(en) Namasivayam Ambalavanan, Teodora Nicola, James Hagood et Arlene Bulger, « Transforming growth factor-β signaling mediates hypoxia-induced pulmonary arterial remodeling and inhibition of alveolar development in newborn mouse lung », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 295, no 1, , L86–L95 (ISSN1040-0605 et 1522-1504, PMID18487357, PMCIDPMC2494779, DOI10.1152/ajplung.00534.2007, lire en ligne, consulté le )
(en) Bernard Thébaud et Steven H. Abman, « Bronchopulmonary Dysplasia: Where Have All the Vessels Gone? Roles of Angiogenic Growth Factors in Chronic Lung Disease », American Journal of Respiratory and Critical Care Medicine, vol. 175, no 10, , p. 978–985 (ISSN1073-449X et 1535-4970, PMID17272782, PMCIDPMC2176086, DOI10.1164/rccm.200611-1660PP, lire en ligne, consulté le )
(en) Paul J. Rozance, Gregory J. Seedorf, Alicia Brown et Gates Roe, « Intrauterine growth restriction decreases pulmonary alveolar and vessel growth and causes pulmonary artery endothelial cell dysfunction in vitro in fetal sheep », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 301, no 6, , L860–L871 (ISSN1040-0605 et 1522-1504, PMID21873446, PMCIDPMC3233832, DOI10.1152/ajplung.00197.2011, lire en ligne, consulté le )
(en) Ahmet Karadag, Reiko Sakurai, Ying Wang et Pinzheng Guo, « Effect of maternal food restriction on fetal rat lung lipid differentiation program », Pediatric Pulmonology, vol. 44, no 7, , p. 635–644 (PMID19514059, PMCIDPMC2919756, DOI10.1002/ppul.21030, lire en ligne, consulté le )
(en) K.K. Mestan, J. Check, L. Minturn et S. Yallapragada, « Placental pathologic changes of maternal vascular underperfusion in bronchopulmonary dysplasia and pulmonary hypertension », Placenta, vol. 35, no 8, , p. 570–574 (PMID24906549, PMCIDPMC4119480, DOI10.1016/j.placenta.2014.05.003, lire en ligne, consulté le )
(en) Demosthenes G. Papamatheakis, Madalitso Chundu, Arlin B. Blood et Sean M. Wilson, « Prenatal Programming of Pulmonary Hypertension Induced by Chronic Hypoxia or Ductal Ligation in Sheep », Pulmonary Circulation, vol. 3, no 4, , p. 757–780 (ISSN2045-8932 et 2045-8940, PMID25006393, PMCIDPMC4070839, DOI10.1086/674767, lire en ligne, consulté le )
(en) Alfred Basilious, Jerome Yager et Michael G Fehlings, « Neurological outcomes of animal models of uterine artery ligation and relevance to human intrauterine growth restriction: a systematic review », Developmental Medicine & Child Neurology, vol. 57, no 5, , p. 420–430 (PMID25330710, PMCIDPMC4406147, DOI10.1111/dmcn.12599, lire en ligne, consulté le )
(en) Elisenda Eixarch, Dafnis Batalle, Miriam Illa et Emma Muñoz-Moreno, « Neonatal Neurobehavior and Diffusion MRI Changes in Brain Reorganization Due to Intrauterine Growth Restriction in a Rabbit Model », PLoS ONE, vol. 7, no 2, , e31497 (ISSN1932-6203, PMID22347486, PMCIDPMC3275591, DOI10.1371/journal.pone.0031497, lire en ligne, consulté le )
(en) Crystal A. Ruff, Stuart D. Faulkner, Prakasham Rumajogee et Stephanie Beldick, « The extent of intrauterine growth restriction determines the severity of cerebral injury and neurobehavioural deficits in rodents », PLOS ONE, vol. 12, no 9, , e0184653 (ISSN1932-6203, PMID28934247, PMCIDPMC5608203, DOI10.1371/journal.pone.0184653, lire en ligne, consulté le )
(en) EVERREST Consortium, Rebecca Spencer, Gareth Ambler et Jana Brodszki, « EVERREST prospective study: a 6-year prospective study to define the clinical and biological characteristics of pregnancies affected by severe early onset fetal growth restriction », BMC Pregnancy and Childbirth, vol. 17, no 1, , p. 43 (ISSN1471-2393, PMID28114884, PMCIDPMC5259830, DOI10.1186/s12884-017-1226-7, lire en ligne, consulté le )
Ilaria Fantasia, Sofia Bussolaro, Tamara Stampalija et Daniel L. Rolnik, « The role of melatonin in pregnancies complicated by placental insufficiency: A systematic review », European Journal of Obstetrics, Gynecology, and Reproductive Biology, vol. 278, , p. 22–28 (ISSN1872-7654, PMID36108451, DOI10.1016/j.ejogrb.2022.08.029, lire en ligne, consulté le )
Cristian R. Astorga, Alejandro González-Candia, Alejandro A. Candia et Esteban G. Figueroa, « Melatonin Decreases Pulmonary Vascular Remodeling and Oxygen Sensitivity in Pulmonary Hypertensive Newborn Lambs », Frontiers in Physiology, vol. 9, , p. 185 (ISSN1664-042X, PMID29559926, PMCIDPMC5845624, DOI10.3389/fphys.2018.00185, lire en ligne, consulté le )
Tamara Yawno, Mawin Mahen, Jingang Li et Michael C. Fahey, « The Beneficial Effects of Melatonin Administration Following Hypoxia-Ischemia in Preterm Fetal Sheep », Frontiers in Cellular Neuroscience, vol. 11, , p. 296 (ISSN1662-5102, PMID29018332, PMCIDPMC5615225, DOI10.3389/fncel.2017.00296, lire en ligne, consulté le )
(en) Sebastian R Hobson, Rebecca Lim, Elizabeth E Gardiner et Nicole O Alers, « Phase I pilot clinical trial of antenatal maternally administered melatonin to decrease the level of oxidative stress in human pregnancies affected by pre-eclampsia (PAMPR): study protocol », BMJ Open, vol. 3, no 9, , e003788 (ISSN2044-6055 et 2044-6055, PMID24056493, PMCIDPMC3780337, DOI10.1136/bmjopen-2013-003788, lire en ligne, consulté le )
(en) Yohan van de Looij, Vanessa Ginet, Alexandra Chatagner et Audrey Toulotte, « Lactoferrin during lactation protects the immature hypoxic-ischemic rat brain », Annals of Clinical and Translational Neurology, vol. 1, no 12, , p. 955–967 (PMID25574471, PMCIDPMC4284122, DOI10.1002/acn3.138, lire en ligne, consulté le )
pubmed.ncbi.nlm.nih.gov
Ilaria Fantasia, Sofia Bussolaro, Tamara Stampalija et Daniel L. Rolnik, « The role of melatonin in pregnancies complicated by placental insufficiency: A systematic review », European Journal of Obstetrics, Gynecology, and Reproductive Biology, vol. 278, , p. 22–28 (ISSN1872-7654, PMID36108451, DOI10.1016/j.ejogrb.2022.08.029, lire en ligne, consulté le )
oup.com
academic.oup.com
(en) Vanessa E. Murphy, Roger Smith, Warwick B. Giles et Vicki L. Clifton, « Endocrine Regulation of Human Fetal Growth: The Role of the Mother, Placenta, and Fetus », Endocrine Reviews, vol. 27, no 2, , p. 141–169 (ISSN0163-769X et 1945-7189, DOI10.1210/er.2005-0011, lire en ligne, consulté le )
(en) Suzanne L. Miller, Mahalia Chai, Jan Loose et Margie Castillo-Meléndez, « The Effects of Maternal Betamethasone Administration on the Intrauterine Growth-Restricted Fetus », Endocrinology, vol. 148, no 3, , p. 1288–1295 (ISSN0013-7227 et 1945-7170, DOI10.1210/en.2006-1058, lire en ligne, consulté le )
(en) Elda Fischi-Gómez, Lana Vasung, Djalel-Eddine Meskaldji et François Lazeyras, « Structural Brain Connectivity in School-Age Preterm Infants Provides Evidence for Impaired Networks Relevant for Higher Order Cognitive Skills and Social Cognition », Cerebral Cortex, vol. 25, no 9, , p. 2793–2805 (ISSN1047-3211 et 1460-2199, DOI10.1093/cercor/bhu073, lire en ligne, consulté le )
(en) Mark Wareing, Jenny E. Myers, Maureen O’Hara et Philip N. Baker, « Sildenafil Citrate (Viagra) Enhances Vasodilatation in Fetal Growth Restriction », The Journal of Clinical Endocrinology & Metabolism, vol. 90, no 5, , p. 2550–2555 (ISSN0021-972X et 1945-7197, DOI10.1210/jc.2004-1831, lire en ligne, consulté le )
(en) David J. Carr, Jacqueline M. Wallace, Raymond P. Aitken et John S. Milne, « Peri- and Postnatal Effects of Prenatal Adenoviral VEGF Gene Therapy in Growth-Restricted Sheep1 », Biology of Reproduction, vol. 94, no 6, (ISSN0006-3363 et 1529-7268, DOI10.1095/biolreprod.115.133744, lire en ligne, consulté le )
pediatrmedchir.org
Valentina Bozzetti et Paolo E. Tagliabue, « Enteral feeding of intrauterine growth restriction preterm infants: theoretical risks and practical implications », La Pediatria Medica e Chirurgica, vol. 39, no 2, (ISSN2420-7748 et 0391-5387, DOI10.4081/pmc.2017.160, lire en ligne, consulté le )
physiology.org
(en) Rajan Poudel, I. Caroline McMillen, Stacey L. Dunn et Song Zhang, « Impact of chronic hypoxemia on blood flow to the brain, heart, and adrenal gland in the late-gestation IUGR sheep fetus », American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, vol. 308, no 3, , R151–R162 (ISSN0363-6119 et 1522-1490, DOI10.1152/ajpregu.00036.2014, lire en ligne, consulté le )
(en) R. Blair Dodson, Paul J. Rozance, Carson C. Petrash et Kendall S. Hunter, « Thoracic and abdominal aortas stiffen through unique extracellular matrix changes in intrauterine growth restricted fetal sheep », American Journal of Physiology-Heart and Circulatory Physiology, vol. 306, no 3, , H429–H437 (ISSN0363-6135 et 1522-1539, PMID24322609, PMCIDPMC3920138, DOI10.1152/ajpheart.00472.2013, lire en ligne, consulté le )
(en) R. Blair Dodson, Thomas A. Miller, Kyle Powers et Yueqin Yang, « Intrauterine growth restriction influences vascular remodeling and stiffening in the weanling rat more than sex or diet », American Journal of Physiology-Heart and Circulatory Physiology, vol. 312, no 2, , H250–H264 (ISSN0363-6135 et 1522-1539, DOI10.1152/ajpheart.00610.2016, lire en ligne, consulté le )
(en) Namasivayam Ambalavanan, Teodora Nicola, James Hagood et Arlene Bulger, « Transforming growth factor-β signaling mediates hypoxia-induced pulmonary arterial remodeling and inhibition of alveolar development in newborn mouse lung », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 295, no 1, , L86–L95 (ISSN1040-0605 et 1522-1504, PMID18487357, PMCIDPMC2494779, DOI10.1152/ajplung.00534.2007, lire en ligne, consulté le )
(en) Graeme R. Polglase, Jade Barbuto, Beth J. Allison et Tamara Yawno, « Effects of antenatal melatonin therapy on lung structure in growth-restricted newborn lambs », Journal of Applied Physiology, vol. 123, no 5, , p. 1195–1203 (ISSN8750-7587 et 1522-1601, DOI10.1152/japplphysiol.00783.2016, lire en ligne, consulté le )
(en) Beth J. Allison, Stuart B. Hooper, Elise Coia et Valerie A. Zahra, « Ventilation-induced lung injury is not exacerbated by growth restriction in preterm lambs », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 310, no 3, , L213–L223 (ISSN1040-0605 et 1522-1504, DOI10.1152/ajplung.00328.2015, lire en ligne, consulté le )
(en) Sandra Orgeig, Tamara A. Crittenden, Ceilidh Marchant et I. Caroline McMillen, « Intrauterine growth restriction delays surfactant protein maturation in the sheep fetus », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 298, no 4, , L575–L583 (ISSN1040-0605 et 1522-1504, DOI10.1152/ajplung.00226.2009, lire en ligne, consulté le )
(en) Paul J. Rozance, Gregory J. Seedorf, Alicia Brown et Gates Roe, « Intrauterine growth restriction decreases pulmonary alveolar and vessel growth and causes pulmonary artery endothelial cell dysfunction in vitro in fetal sheep », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 301, no 6, , L860–L871 (ISSN1040-0605 et 1522-1504, PMID21873446, PMCIDPMC3233832, DOI10.1152/ajplung.00197.2011, lire en ligne, consulté le )
(en) Atul Malhotra, Margie Castillo-Melendez, Beth J. Allison et Amy E. Sutherland, « Neuropathology as a consequence of neonatal ventilation in premature growth-restricted lambs », American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, vol. 315, no 6, , R1183–R1194 (ISSN0363-6119 et 1522-1490, DOI10.1152/ajpregu.00171.2018, lire en ligne, consulté le )
(en) Chansutha Thangaratnarajah, Katharina Dinger, Christina Vohlen et Christian Klaudt, « Novel role of NPY in neuroimmune interaction and lung growth after intrauterine growth restriction », American Journal of Physiology-Lung Cellular and Molecular Physiology, vol. 313, no 3, , L491–L506 (ISSN1040-0605 et 1522-1504, DOI10.1152/ajplung.00432.2016, lire en ligne, consulté le )
(en) Carlos Menendez-Castro, Fabian Fahlbusch, Nada Cordasic et Kerstin Amann, « Early and Late Postnatal Myocardial and Vascular Changes in a Protein Restriction Rat Model of Intrauterine Growth Restriction », PLoS ONE, vol. 6, no 5, , e20369 (ISSN1932-6203, PMID21655297, PMCIDPMC3105022, DOI10.1371/journal.pone.0020369, lire en ligne, consulté le )
(en) Elisenda Eixarch, Dafnis Batalle, Miriam Illa et Emma Muñoz-Moreno, « Neonatal Neurobehavior and Diffusion MRI Changes in Brain Reorganization Due to Intrauterine Growth Restriction in a Rabbit Model », PLoS ONE, vol. 7, no 2, , e31497 (ISSN1932-6203, PMID22347486, PMCIDPMC3275591, DOI10.1371/journal.pone.0031497, lire en ligne, consulté le )
(en) Crystal A. Ruff, Stuart D. Faulkner, Prakasham Rumajogee et Stephanie Beldick, « The extent of intrauterine growth restriction determines the severity of cerebral injury and neurobehavioural deficits in rodents », PLOS ONE, vol. 12, no 9, , e0184653 (ISSN1932-6203, PMID28934247, PMCIDPMC5608203, DOI10.1371/journal.pone.0184653, lire en ligne, consulté le )
A. Ego, « Définitions: petit poids pour l'âge gestationnel et retard de croissance intra-utérin [Definitions: small for gestational age and intrauterine growth retardation] », J Gynecol Obstet Biol Reprod (Paris), vol. 42, no 8, , p. 872-94. (PMID24210714, DOI10.1016/j.jgyn.2013.09.012, résumé)modifier
(en) James S Barry, Paul J Rozance, Laura D Brown et Russell V Anthony, « Increased fetal myocardial sensitivity to insulin-stimulated glucose metabolism during ovine fetal growth restriction », Experimental Biology and Medicine, vol. 241, no 8, , p. 839–847 (ISSN1535-3702 et 1535-3699, PMID26873920, PMCIDPMC4950398, DOI10.1177/1535370216632621, lire en ligne, consulté le )
(en) Demosthenes G. Papamatheakis, Madalitso Chundu, Arlin B. Blood et Sean M. Wilson, « Prenatal Programming of Pulmonary Hypertension Induced by Chronic Hypoxia or Ductal Ligation in Sheep », Pulmonary Circulation, vol. 3, no 4, , p. 757–780 (ISSN2045-8932 et 2045-8940, PMID25006393, PMCIDPMC4070839, DOI10.1086/674767, lire en ligne, consulté le )
(en) Luca A. Ramenghi, Anna Martinelli, Agnese De Carli et Valentina Brusati, « Cerebral Maturation in IUGR and Appropriate for Gestational Age Preterm Babies », Reproductive Sciences, vol. 18, no 5, , p. 469–475 (ISSN1933-7191 et 1933-7205, DOI10.1177/1933719110388847, lire en ligne, consulté le )
(en) Yael Leitner, Aviva Fattal-Valevski, Ronny Geva et Rina Eshel, « Neurodevelopmental Outcome of Children With Intrauterine Growth Retardation: A Longitudinal, 10-Year Prospective Study », Journal of Child Neurology, vol. 22, no 5, , p. 580–587 (ISSN0883-0738 et 1708-8283, DOI10.1177/0883073807302605, lire en ligne, consulté le )
spandidos-publications.com
(en) Georgios D. Agrogiannis, Stavros Sifakis, Efstratios S. Patsouris et Anastasia E. Konstantinidou, « Insulin-like growth factors in embryonic and fetal growth and skeletal development (Review) », Molecular Medicine Reports, vol. 10, no 2, , p. 579–584 (ISSN1791-2997 et 1791-3004, PMID24859417, PMCIDPMC4094767, DOI10.3892/mmr.2014.2258, lire en ligne, consulté le )
springer.com
link.springer.com
(en) Anju Suhag et Vincenzo Berghella, « Intrauterine Growth Restriction (IUGR): Etiology and Diagnosis », Current Obstetrics and Gynecology Reports, vol. 2, no 2, , p. 102–111 (ISSN2161-3303, DOI10.1007/s13669-013-0041-z, lire en ligne, consulté le )
(en) P.-M. Fortune, M. Wagstaff et A. Petros, « Cerebro-splanchnic oxygenation ratio (CSOR) using near infrared spectroscopy may be able to predict splanchnic ischaemia in neonates », Intensive Care Medicine, vol. 27, no 8, , p. 1401–1407 (ISSN0342-4642 et 1432-1238, DOI10.1007/s001340100994, lire en ligne, consulté le )
(en) Maria Cristina Aisa, Benito Cappuccini, Antonella Barbati et Aldo Orlacchio, « Biochemical parameters of renal impairment/injury and surrogate markers of nephron number in intrauterine growth-restricted and preterm neonates at 30–40 days of postnatal corrected age », Pediatric Nephrology, vol. 31, no 12, , p. 2277–2287 (ISSN0931-041X et 1432-198X, DOI10.1007/s00467-016-3484-4, lire en ligne, consulté le )
(en) Christiane A Opitz et Wolfgang A Linke, « Plasticity of cardiac titin/connectin in heart development », Journal of Muscle Research and Cell Motility, vol. 26, nos 6-8, , p. 333–342 (ISSN0142-4319 et 1573-2657, DOI10.1007/s10974-005-9040-7, lire en ligne, consulté le )
(en) Mohan B. Krishnamurthy, Abigail Popiel et Atul Malhotra, « Screening investigations in small-for-gestational-age near-term and term infants », European Journal of Pediatrics, vol. 176, no 12, , p. 1707–1712 (ISSN0340-6199 et 1432-1076, DOI10.1007/s00431-017-3031-8, lire en ligne, consulté le )
(en) Suneet Chauhan, Hind Beydoun, Eugene Chang et Adam Sandlin, « Prenatal Detection of Fetal Growth Restriction in Newborns Classified as Small for Gestational Age : Correlates and Risk of Neonatal Morbidity », American Journal of Perinatology, vol. 31, no 03, , p. 187–194 (ISSN0735-1631 et 1098-8785, DOI10.1055/s-0033-1343771, lire en ligne, consulté le )
(en) Jacob Larkin, Suneet Chauhan et Hyagriv Simhan, « Small for Gestational Age: The Differential Mortality When Detected versus Undetected Antenatally », American Journal of Perinatology, vol. 34, no 04, , p. 409–414 (ISSN0735-1631 et 1098-8785, DOI10.1055/s-0036-1592132, lire en ligne, consulté le )
(en) Nadeem Khan et S. J. Kazzi, « YIELD AND COSTS OF SCREENING GROWTH-RETARDED INFANTS FOR TORCH INFECTIONS », American Journal of Perinatology, vol. 17, no 03, , p. 131–136 (ISSN0735-1631 et 1098-8785, DOI10.1055/s-2000-9288, lire en ligne, consulté le )
wikipedia.org
fr.wikipedia.org
A. Ego, « Définitions: petit poids pour l'âge gestationnel et retard de croissance intra-utérin [Definitions: small for gestational age and intrauterine growth retardation] », J Gynecol Obstet Biol Reprod (Paris), vol. 42, no 8, , p. 872-94. (PMID24210714, DOI10.1016/j.jgyn.2013.09.012, résumé)modifier
wiley.com
doi.wiley.com
(en) S. J. Gordijn, I. M. Beune, B. Thilaganathan et A. Papageorghiou, « Consensus definition of fetal growth restriction: a Delphi procedure: Consensus definition of FGR », Ultrasound in Obstetrics & Gynecology, vol. 48, no 3, , p. 333–339 (DOI10.1002/uog.15884, lire en ligne, consulté le )
(en) G. M. Arikan, H. S. Scholz, E. Petru et M. C. H. Haeusler, « Cord blood oxygen saturation in vigorous infants at birth: what is normal? », BJOG: An International Journal of Obstetrics and Gynaecology, vol. 107, no 8, , p. 987–994 (ISSN1470-0328 et 1471-0528, DOI10.1111/j.1471-0528.2000.tb10401.x, lire en ligne, consulté le )
(en) A. M. Spiroski, M. H. Oliver, A. L. Jaquiery et T. C. R. Prickett, « Postnatal effects of intrauterine treatment of the growth-restricted ovine fetus with intra-amniotic insulin-like growth factor-1: Postnatal effects of intra-amniotic IGF1 treatment of FGR », The Journal of Physiology, vol. 596, no 23, , p. 5925–5945 (PMID29235113, PMCIDPMC6265545, DOI10.1113/JP274999, lire en ligne, consulté le )
(en) R. Katie Morris, Ashwini Bilagi, Pooja Devani et Mark D. Kilby, « Association of serum PAPP-A levels in first trimester with small for gestational age and adverse pregnancy outcomes: systematic review and meta-analysis: Systematic review association serum PAPP-A and adverse pregnancy outcome », Prenatal Diagnosis, vol. 37, no 3, , p. 253–265 (DOI10.1002/pd.5001, lire en ligne, consulté le )
(en) Dino A. Giussani, « The fetal brain sparing response to hypoxia: physiological mechanisms: Fetal brain sparing », The Journal of Physiology, vol. 594, no 5, , p. 1215–1230 (PMID26496004, PMCIDPMC4721497, DOI10.1113/JP271099, lire en ligne, consulté le )
(en) Janna L Morrison, « SHEEP MODELS OF INTRAUTERINE GROWTH RESTRICTION: FETAL ADAPTATIONS AND CONSEQUENCES », Clinical and Experimental Pharmacology and Physiology, vol. 35, no 7, , p. 730–743 (ISSN0305-1870 et 1440-1681, DOI10.1111/j.1440-1681.2008.04975.x, lire en ligne, consulté le )
(en) Suzanne L. Miller, Petra S. Huppi et Carina Mallard, « The consequences of fetal growth restriction on brain structure and neurodevelopmental outcome: Fetal growth restriction: brain structure and function », The Journal of Physiology, vol. 594, no 4, , p. 807–823 (PMID26607046, PMCIDPMC4753264, DOI10.1113/JP271402, lire en ligne, consulté le )
(en) R. Callec, C. Lamy, E. Perdriolle-Galet et C. Patte, « Impact on obstetric outcome of third-trimester screening for small-for-gestational-age fetuses », Ultrasound in Obstetrics & Gynecology, vol. 46, no 2, , p. 216–220 (DOI10.1002/uog.14755, lire en ligne, consulté le )
(en) J. Zeitlin, P. Y. Ancel, M. J. Saurel-Cubizolles et E. Papiernik, « The relationship between intrauterine growth restriction and preterm delivery : an empirical approach using data from a European case-control study », BJOG: An International Journal of Obstetrics and Gynaecology, vol. 107, no 6, , p. 750–758 (ISSN1470-0328 et 1471-0528, DOI10.1111/j.1471-0528.2000.tb13336.x, lire en ligne, consulté le )
(en) Manfred Accrombessi, Jennifer Zeitlin, Achille Massougbodji et Michel Cot, « What Do We Know about Risk Factors for Fetal Growth Restriction in Africa at the Time of Sustainable Development Goals? A Scoping Review », Paediatric and Perinatal Epidemiology, vol. 32, no 2, , p. 184–196 (DOI10.1111/ppe.12433, lire en ligne, consulté le )
(en) E Malacova, A Regan, N Nassar et C Raynes-Greenow, « Risk of stillbirth, preterm delivery, and fetal growth restriction following exposure in a previous birth: systematic review and meta-analysis », BJOG: An International Journal of Obstetrics & Gynaecology, vol. 125, no 2, , p. 183–192 (DOI10.1111/1471-0528.14906, lire en ligne, consulté le )
(en) Arun Sasi, Vinita Abraham, Miranda Davies-Tuck et Graeme R. Polglase, « Impact of intrauterine growth restriction on preterm lung disease », Acta Paediatrica, vol. 104, no 12, , e552–e556 (DOI10.1111/apa.13220, lire en ligne, consulté le )
(en) Jennifer W. Lee, Deborah VanderVeen, Elizabeth N. Allred et Alan Leviton, « Prethreshold retinopathy in premature infants with intrauterine growth restriction », Acta Paediatrica, vol. 104, no 1, , p. 27–31 (PMID25196981, PMCIDPMC6172005, DOI10.1111/apa.12799, lire en ligne, consulté le )
(en) D. Oros, F. Figueras, R. Cruz-Martinez et E. Meler, « Longitudinal changes in uterine, umbilical and fetal cerebral Doppler indices in late-onset small-for-gestational age fetuses », Ultrasound in Obstetrics & Gynecology, vol. 37, no 2, , p. 191–195 (DOI10.1002/uog.7738, lire en ligne, consulté le )
(en) Gs Ghosh et S Gudmundsson, « Uterine and umbilical artery Doppler are comparable in predicting perinatal outcome of growth-restricted fetuses », BJOG: An International Journal of Obstetrics & Gynaecology, vol. 116, no 3, , p. 424–430 (DOI10.1111/j.1471-0528.2008.02057.x, lire en ligne, consulté le )
(en) M. Pérez-Cruz, M. Cruz-Lemini, M. T. Fernández et J. A. Parra, « Fetal cardiac function in late-onset intrauterine growth restriction vs small-for-gestational age, as defined by estimated fetal weight, cerebroplacental ratio and uterine artery Doppler: Cardiac function in late-onset small fetuses », Ultrasound in Obstetrics & Gynecology, vol. 46, no 4, , p. 465–471 (DOI10.1002/uog.14930, lire en ligne, consulté le )
(en) Kristen J. Bubb, Megan L. Cock, M. Jane Black et Miodrag Dodic, « Intrauterine growth restriction delays cardiomyocyte maturation and alters coronary artery function in the fetal sheep: Fetal cardiac and coronary alteration after growth restriction », The Journal of Physiology, vol. 578, no 3, , p. 871–881 (PMID17124269, PMCIDPMC2151351, DOI10.1113/jphysiol.2006.121160, lire en ligne, consulté le )
(en) Marianne Tare, Helena C. Parkington, Euan M. Wallace et Amy E. Sutherland, « Maternal melatonin administration mitigates coronary stiffness and endothelial dysfunction, and improves heart resilience to insult in growth restricted lambs: Melatonin rescues cardio-coronary function in IUGR », The Journal of Physiology, vol. 592, no 12, , p. 2695–2709 (PMID24710061, PMCIDPMC4080947, DOI10.1113/jphysiol.2014.270934, lire en ligne, consulté le )
(en) Kirsty L. Brain, Beth J. Allison, Youguo Niu et Christine M. Cross, « Induction of controlled hypoxic pregnancy in large mammalian species », Physiological Reports, vol. 3, no 12, , e12614 (PMID26660546, PMCIDPMC4760453, DOI10.14814/phy2.12614, lire en ligne, consulté le )
(en) B. J. Allison, K. L. Brain, Y. Niu et A. D. Kane, « Fetal in vivo continuous cardiovascular function during chronic hypoxia: Fetal brain sparing during chronic hypoxia », The Journal of Physiology, vol. 594, no 5, , p. 1247–1264 (PMID26926316, PMCIDPMC4771786, DOI10.1113/JP271091, lire en ligne, consulté le )
(en) Anderson H. Kuo, Cun Li, Hillary F. Huber et Geoffrey D. Clarke, « Intrauterine growth restriction results in persistent vascular mismatch in adulthood: Persistent vascular mismatch in IUGR », The Journal of Physiology, vol. 596, no 23, , p. 5777–5790 (PMID29098705, PMCIDPMC6265527, DOI10.1113/JP275139, lire en ligne, consulté le )
(en) Emily Cohen, Christie Whatley, Flora Y. Wong et Euan M. Wallace, « Effects of foetal growth restriction and preterm birth on cardiac morphology and function during infancy », Acta Paediatrica, vol. 107, no 3, , p. 450–455 (DOI10.1111/apa.14144, lire en ligne, consulté le )
(en) Erin V. McGillick, Sandra Orgeig, Beth J. Allison et Kirsty L. Brain, « Maternal chronic hypoxia increases expression of genes regulating lung liquid movement and surfactant maturation in male fetuses in late gestation: Maternal chronic hypoxia promotes fetal lung maturation », The Journal of Physiology, vol. 595, no 13, , p. 4329–4350 (PMID28318025, PMCIDPMC5491863, DOI10.1113/JP273842, lire en ligne, consulté le )
G.S. Maritz, M.L. Cock, S. Louey et B.J. Joyce, « Effects of fetal growth restriction on lung development before and after birth: A morphometric analysis », Pediatric Pulmonology, vol. 32, no 3, , p. 201–210 (DOI10.1002/ppul.1109, lire en ligne, consulté le )
(en) T. Kiserud, C. Ebbing, J. Kessler et S. Rasmussen, « Fetal cardiac output, distribution to the placenta and impact of placental compromise », Ultrasound in Obstetrics and Gynecology, vol. 28, no 2, , p. 126–136 (ISSN0960-7692 et 1469-0705, DOI10.1002/uog.2832, lire en ligne, consulté le )
(en) S. B. Hooper et R. Harding, « FETAL LUNG LIQUID: A MAJOR DETERMINANT OF THE GROWTH AND FUNCTIONAL DEVELOPMENT OF THE FETAL LUNG », Clinical and Experimental Pharmacology and Physiology, vol. 22, no 4, , p. 235–241 (ISSN0305-1870 et 1440-1681, DOI10.1111/j.1440-1681.1995.tb01988.x, lire en ligne, consulté le )
(en) R. Harding, « Fetal pulmonary development: the role of respiratory movements », Equine Veterinary Journal, vol. 29, no S24, , p. 32–39 (DOI10.1111/j.2042-3306.1997.tb05076.x, lire en ligne, consulté le )
(en) Ahmet Karadag, Reiko Sakurai, Ying Wang et Pinzheng Guo, « Effect of maternal food restriction on fetal rat lung lipid differentiation program », Pediatric Pulmonology, vol. 44, no 7, , p. 635–644 (PMID19514059, PMCIDPMC2919756, DOI10.1002/ppul.21030, lire en ligne, consulté le )
(en) Lena Eriksson, Bengt Haglund, Viveca Odlind et Maria Altman, « Perinatal conditions related to growth restriction and inflammation are associated with an increased risk of bronchopulmonary dysplasia », Acta Paediatrica, vol. 104, no 3, , p. 259–263 (DOI10.1111/apa.12888, lire en ligne, consulté le )
(en) O. J. Arthurs, A. Rega, F. Guimiot et N. Belarbi, « Diffusion-weighted magnetic resonance imaging of the fetal brain in intrauterine growth restriction: Brain DWI in IUGR », Ultrasound in Obstetrics & Gynecology, vol. 50, no 1, , p. 79–87 (DOI10.1002/uog.17318, lire en ligne, consulté le )
(en) Yohan van de Looij, Justin M. Dean, Alistair J. Gunn et Petra S. Hüppi, « Advanced magnetic resonance spectroscopy and imaging techniques applied to brain development and animal models of perinatal injury », International Journal of Developmental Neuroscience, vol. 45, no C, , p. 29–38 (DOI10.1016/j.ijdevneu.2015.03.009, lire en ligne, consulté le )
(en) Atul Malhotra, Zamir Yahya, Arun Sasi et Graham Jenkin, « Does fetal growth restriction lead to increased brain injury as detected by neonatal cranial ultrasound in premature infants?: Growth restriction and brain injury », Journal of Paediatrics and Child Health, vol. 51, no 11, , p. 1103–1108 (DOI10.1111/jpc.12910, lire en ligne, consulté le )
(en) Glenda McLean, Catherine Hough, Arvind Sehgal et Michael Ditchfield, « Three-dimensional ultrasound cranial imaging and early neurodevelopment in preterm growth-restricted infants: Ultrasound in growth restriction », Journal of Paediatrics and Child Health, vol. 54, no 4, , p. 420–425 (DOI10.1111/jpc.13808, lire en ligne, consulté le )
(en) R. Cruz-Martinez, V. Tenorio, N. Padilla et F. Crispi, « Risk of ultrasound-detected neonatal brain abnormalities in intrauterine growth-restricted fetuses born between 28 and 34 weeks' gestation: relationship with gestational age at birth and fetal Doppler parameters: Abnormal Doppler in IUGR fetuses and neonatal brain abnormality », Ultrasound in Obstetrics & Gynecology, vol. 46, no 4, , p. 452–459 (DOI10.1002/uog.14920, lire en ligne, consulté le )
(en) J. C. Tanis, D. M. Schmitz, M. R. Boelen et L. Casarella, « Relationship between general movements in neonates who were growth restricted in utero and prenatal Doppler flow patterns: Neonatal general movements after FGR in relation to prenatal Doppler », Ultrasound in Obstetrics & Gynecology, vol. 48, no 6, , p. 772–778 (DOI10.1002/uog.15903, lire en ligne, consulté le )
(en) E. Hernandez‐Andrade, H. Figueroa‐Diesel, T. Jansson et H. Rangel‐Nava, « Changes in regional fetal cerebral blood flow perfusion in relation to hemodynamic deterioration in severely growth‐restricted fetuses », Ultrasound in Obstetrics and Gynecology, vol. 32, no 1, , p. 71–76 (DOI10.1002/uog.5377, lire en ligne, consulté le )
(en) Alfred Basilious, Jerome Yager et Michael G Fehlings, « Neurological outcomes of animal models of uterine artery ligation and relevance to human intrauterine growth restriction: a systematic review », Developmental Medicine & Child Neurology, vol. 57, no 5, , p. 420–430 (PMID25330710, PMCIDPMC4406147, DOI10.1111/dmcn.12599, lire en ligne, consulté le )
(en) Maria Bisignano et Sandra Rees, « The effects of intrauterine growth retardation on synaptogenesis and mitochondrial formation in the cerebral and cerebellar cortices of fetal sheep », International Journal of Developmental Neuroscience, vol. 6, no 5, , p. 453–460 (DOI10.1016/0736-5748(88)90051-2, lire en ligne, consulté le )
(en) Margie Castillo-Melendez, Tamara Yawno, Beth J. Allison et Graham Jenkin, « Cerebrovascular adaptations to chronic hypoxia in the growth restricted lamb », International Journal of Developmental Neuroscience, vol. 45, no C, , p. 55–65 (DOI10.1016/j.ijdevneu.2015.01.004, lire en ligne, consulté le )
(en) E Murray, M Fernandes, M Fazel et Sh Kennedy, « Differential effect of intrauterine growth restriction on childhood neurodevelopment: a systematic review », BJOG: An International Journal of Obstetrics & Gynaecology, vol. 122, no 8, , p. 1062–1072 (DOI10.1111/1471-0528.13435, lire en ligne, consulté le )
(en) B Pellicer, S Herraiz, O Cauli et R Rodrigo, « Haemodynamic effects of long-term administration of sildenafil in normotensive pregnant and non-pregnant rats: Sildenafil in pregnant rats », BJOG: An International Journal of Obstetrics & Gynaecology, vol. 118, no 5, , p. 615–623 (DOI10.1111/j.1471-0528.2010.02839.x, lire en ligne, consulté le )
(en) Suzanne L. Miller, Tamara Yawno, Nicole O. Alers et Margie Castillo-Melendez, « Antenatal antioxidant treatment with melatonin to decrease newborn neurodevelopmental deficits and brain injury caused by fetal growth restriction », Journal of Pineal Research, vol. 56, no 3, , p. 283–294 (DOI10.1111/jpi.12121, lire en ligne, consulté le )
(en) Sebastian R. Hobson, Seshi Gurusinghe, Rebecca Lim et Nicole O. Alers, « Melatonin improves endothelial function in vitro and prolongs pregnancy in women with early-onset preeclampsia », Journal of Pineal Research, vol. 65, no 3, , e12508 (DOI10.1111/jpi.12508, lire en ligne, consulté le )
(en) Flavio Torres, Alejandro González-Candia, Camilo Montt et Germán Ebensperger, « Melatonin reduces oxidative stress and improves vascular function in pulmonary hypertensive newborn sheep », Journal of Pineal Research, vol. 58, no 3, , p. 362–373 (DOI10.1111/jpi.12222, lire en ligne, consulté le )
(en) Yohan van de Looij, Vanessa Ginet, Alexandra Chatagner et Audrey Toulotte, « Lactoferrin during lactation protects the immature hypoxic-ischemic rat brain », Annals of Clinical and Translational Neurology, vol. 1, no 12, , p. 955–967 (PMID25574471, PMCIDPMC4284122, DOI10.1002/acn3.138, lire en ligne, consulté le )
onlinelibrary.wiley.com
(en) Beth J. Allison, Joepe J. Kaandorp, Andrew D. Kane et Emily J. Camm, « Divergence of mechanistic pathways mediating cardiovascular aging and developmental programming of cardiovascular disease », The FASEB Journal, vol. 30, no 5, , p. 1968–1975 (ISSN0892-6638 et 1530-6860, PMID26932929, PMCIDPMC5036970, DOI10.1096/fj.201500057, lire en ligne, consulté le )
(en) Arvind Sehgal, Stella M. Gwini, Samuel Menahem et Beth J. Allison, « Preterm growth restriction and bronchopulmonary dysplasia: the vascular hypothesis and related physiology », The Journal of Physiology, vol. 597, no 4, , p. 1209–1220 (ISSN0022-3751 et 1469-7793, PMID29746007, PMCIDPMC6376075, DOI10.1113/JP276040, lire en ligne, consulté le )
wkhealth.com
content.wkhealth.com
(en) Julia Unterscheider, Sean Daly, Michael Patrick Geary et Mairead Mary Kennelly, « Optimizing the Definition of Intrauterine Growth Restriction: The Multicenter Prospective PORTO Study », Obstetrical & Gynecological Survey, vol. 68, no 8, , p. 549–551 (ISSN0029-7828, DOI10.1097/OGX.0b013e3182a0597f, lire en ligne, consulté le )
(en) Sheila M. Gephart et Corrine K. Hanson, « Preventing Necrotizing Enterocolitis With Standardized Feeding Protocols: Not Only Possible, But Imperative », Advances in Neonatal Care, vol. 13, no 1, , p. 48–54 (ISSN1536-0903, DOI10.1097/ANC.0b013e31827ece0a, lire en ligne, consulté le )