Lex B.L.B.VerdijkLex B.L.B. i inni, Satellite cell content is specifically reduced in type II skeletal muscle fibers in the elderly, „American Journal of Physiology. Endocrinology and Metabolism”, 292 (1), 2007, E151–157, DOI: 10.1152/ajpendo.00278.2006, ISSN0193-1849, PMID: 16926381 [dostęp 2021-04-05].
Robert W.R.W.MortonRobert W.R.W. i inni, Defining anabolic resistance: implications for delivery of clinical care nutrition, „Current Opinion in Critical Care”, 24 (2), 2018, s. 124–130, DOI: 10.1097/MCC.0000000000000488, ISSN1531-7072, PMID: 29389741 [dostęp 2021-04-05].
Seung KuS.K.LeeSeung KuS.K. i inni, Association of Sasang Constitutional Type with Sarcopenia, „Evidence-based Complementary and Alternative Medicine : eCAM”, 2015, 2015, DOI: 10.1155/2015/651090, ISSN1741-427X, PMID: 26649062, PMCID: PMC4662974 [dostęp 2021-04-07].
MijiM.KimMijiM., Chang WonCh.W.WonChang WonCh.W., Sarcopenia Is Associated with Cognitive Impairment Mainly Due to Slow Gait Speed: Results from the Korean Frailty and Aging Cohort Study (KFACS), „International Journal of Environmental Research and Public Health”, 16 (9), 2019, DOI: 10.3390/ijerph16091491, ISSN1661-7827, PMID: 31035553, PMCID: PMC6539557 [dostęp 2021-04-07].
Bryce N.B.N.BalmainBryce N.B.N. i inni, Aging and Thermoregulatory Control: The Clinical Implications of Exercising under Heat Stress in Older Individuals, „BioMed Research International”, 2018, 2018, DOI: 10.1155/2018/8306154, ISSN2314-6133, PMID: 30155483, PMCID: PMC6098859 [dostęp 2021-04-05].
W.L.W.L.KenneyW.L.W.L., E.R.E.R.BuskirkE.R.E.R., Functional consequences of sarcopenia: effects on thermoregulation, „The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences”, 50 Spec No, 1995, s. 78–85, DOI: 10.1093/gerona/50a.special_issue.78, ISSN1079-5006, PMID: 7493224 [dostęp 2021-04-05].
Layne E.L.E.NortonLayne E.L.E., Donald K.D.K.LaymanDonald K.D.K., Leucine Regulates Translation Initiation of Protein Synthesis in Skeletal Muscle after Exercise, „The Journal of Nutrition”, 136 (2), 2006, 533S–537S, DOI: 10.1093/jn/136.2.533S, ISSN0022-3166 [dostęp 2021-04-05].
SylwiaS.SzwiegaSylwiaS. i inni, Dietary leucine requirement of older men and women is higher than current recommendations, „The American Journal of Clinical Nutrition”, 113 (2), 2021, s. 410–419, DOI: 10.1093/ajcn/nqaa323, ISSN1938-3207, PMID: 33330915, PMCID: PMC7851820 [dostęp 2021-04-05].
LingyuL.ZhangLingyuL. i inni, Leucine Supplementation: A Novel Strategy for Modulating Lipid Metabolism and Energy Homeostasis, „Nutrients”, 12 (5), 2020, DOI: 10.3390/nu12051299, ISSN2072-6643, PMID: 32370170, PMCID: PMC7282259 [dostęp 2021-04-05].
J.J.OktavianaJ.J. i inni, The Effect of β-hydroxy-β-methylbutyrate (HMB) on Sarcopenia and Functional Frailty in Older Persons: A Systematic Review, „The Journal of Nutrition, Health & Aging”, 23 (2), 2019, s. 145–150, DOI: 10.1007/s12603-018-1153-y, ISSN1760-4788, PMID: 30697623 [dostęp 2021-04-05].
MarkM.HamerMarkM., GaryG.O’DonovanGaryG., Sarcopenic obesity, weight loss, and mortality: the English Longitudinal Study of Ageing, „The American Journal of Clinical Nutrition”, 106 (1), 2017, s. 125–129, DOI: 10.3945/ajcn.117.152488, ISSN0002-9165 [dostęp 2021-04-05].
ValterV.SantilliValterV. i inni, Clinical definition of sarcopenia, „Clinical Cases in Mineral and Bone Metabolism”, 11 (3), 2014, s. 177–180, ISSN1724-8914, PMID: 25568649, PMCID: PMC4269139 [dostęp 2021-04-05].
Lex B.L.B.VerdijkLex B.L.B. i inni, Satellite cell content is specifically reduced in type II skeletal muscle fibers in the elderly, „American Journal of Physiology. Endocrinology and Metabolism”, 292 (1), 2007, E151–157, DOI: 10.1152/ajpendo.00278.2006, ISSN0193-1849, PMID: 16926381 [dostęp 2021-04-05].
Robert W.R.W.MortonRobert W.R.W. i inni, Defining anabolic resistance: implications for delivery of clinical care nutrition, „Current Opinion in Critical Care”, 24 (2), 2018, s. 124–130, DOI: 10.1097/MCC.0000000000000488, ISSN1531-7072, PMID: 29389741 [dostęp 2021-04-05].
Seung KuS.K.LeeSeung KuS.K. i inni, Association of Sasang Constitutional Type with Sarcopenia, „Evidence-based Complementary and Alternative Medicine : eCAM”, 2015, 2015, DOI: 10.1155/2015/651090, ISSN1741-427X, PMID: 26649062, PMCID: PMC4662974 [dostęp 2021-04-07].
MijiM.KimMijiM., Chang WonCh.W.WonChang WonCh.W., Sarcopenia Is Associated with Cognitive Impairment Mainly Due to Slow Gait Speed: Results from the Korean Frailty and Aging Cohort Study (KFACS), „International Journal of Environmental Research and Public Health”, 16 (9), 2019, DOI: 10.3390/ijerph16091491, ISSN1661-7827, PMID: 31035553, PMCID: PMC6539557 [dostęp 2021-04-07].
Bryce N.B.N.BalmainBryce N.B.N. i inni, Aging and Thermoregulatory Control: The Clinical Implications of Exercising under Heat Stress in Older Individuals, „BioMed Research International”, 2018, 2018, DOI: 10.1155/2018/8306154, ISSN2314-6133, PMID: 30155483, PMCID: PMC6098859 [dostęp 2021-04-05].
W.L.W.L.KenneyW.L.W.L., E.R.E.R.BuskirkE.R.E.R., Functional consequences of sarcopenia: effects on thermoregulation, „The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences”, 50 Spec No, 1995, s. 78–85, DOI: 10.1093/gerona/50a.special_issue.78, ISSN1079-5006, PMID: 7493224 [dostęp 2021-04-05].
SylwiaS.SzwiegaSylwiaS. i inni, Dietary leucine requirement of older men and women is higher than current recommendations, „The American Journal of Clinical Nutrition”, 113 (2), 2021, s. 410–419, DOI: 10.1093/ajcn/nqaa323, ISSN1938-3207, PMID: 33330915, PMCID: PMC7851820 [dostęp 2021-04-05].
LingyuL.ZhangLingyuL. i inni, Leucine Supplementation: A Novel Strategy for Modulating Lipid Metabolism and Energy Homeostasis, „Nutrients”, 12 (5), 2020, DOI: 10.3390/nu12051299, ISSN2072-6643, PMID: 32370170, PMCID: PMC7282259 [dostęp 2021-04-05].
J.J.OktavianaJ.J. i inni, The Effect of β-hydroxy-β-methylbutyrate (HMB) on Sarcopenia and Functional Frailty in Older Persons: A Systematic Review, „The Journal of Nutrition, Health & Aging”, 23 (2), 2019, s. 145–150, DOI: 10.1007/s12603-018-1153-y, ISSN1760-4788, PMID: 30697623 [dostęp 2021-04-05].
MarzannaM.MzirayMarzannaM. i inni, Sarkopenia - Marginalizowany problem wieku podeszłegi, „Pielęgniarstwo Polskie”, NR 3 (65), Praca pogladowa, www.pielegniarstwo.ump.edu.pl, 2017, s. 506-513 [dostęp 2021-04-05](pol.).
ValterV.SantilliValterV. i inni, Clinical definition of sarcopenia, „Clinical Cases in Mineral and Bone Metabolism”, 11 (3), 2014, s. 177–180, ISSN1724-8914, PMID: 25568649, PMCID: PMC4269139 [dostęp 2021-04-05].
Lex B.L.B.VerdijkLex B.L.B. i inni, Satellite cell content is specifically reduced in type II skeletal muscle fibers in the elderly, „American Journal of Physiology. Endocrinology and Metabolism”, 292 (1), 2007, E151–157, DOI: 10.1152/ajpendo.00278.2006, ISSN0193-1849, PMID: 16926381 [dostęp 2021-04-05].
Robert W.R.W.MortonRobert W.R.W. i inni, Defining anabolic resistance: implications for delivery of clinical care nutrition, „Current Opinion in Critical Care”, 24 (2), 2018, s. 124–130, DOI: 10.1097/MCC.0000000000000488, ISSN1531-7072, PMID: 29389741 [dostęp 2021-04-05].
Seung KuS.K.LeeSeung KuS.K. i inni, Association of Sasang Constitutional Type with Sarcopenia, „Evidence-based Complementary and Alternative Medicine : eCAM”, 2015, 2015, DOI: 10.1155/2015/651090, ISSN1741-427X, PMID: 26649062, PMCID: PMC4662974 [dostęp 2021-04-07].
MijiM.KimMijiM., Chang WonCh.W.WonChang WonCh.W., Sarcopenia Is Associated with Cognitive Impairment Mainly Due to Slow Gait Speed: Results from the Korean Frailty and Aging Cohort Study (KFACS), „International Journal of Environmental Research and Public Health”, 16 (9), 2019, DOI: 10.3390/ijerph16091491, ISSN1661-7827, PMID: 31035553, PMCID: PMC6539557 [dostęp 2021-04-07].
Bryce N.B.N.BalmainBryce N.B.N. i inni, Aging and Thermoregulatory Control: The Clinical Implications of Exercising under Heat Stress in Older Individuals, „BioMed Research International”, 2018, 2018, DOI: 10.1155/2018/8306154, ISSN2314-6133, PMID: 30155483, PMCID: PMC6098859 [dostęp 2021-04-05].
W.L.W.L.KenneyW.L.W.L., E.R.E.R.BuskirkE.R.E.R., Functional consequences of sarcopenia: effects on thermoregulation, „The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences”, 50 Spec No, 1995, s. 78–85, DOI: 10.1093/gerona/50a.special_issue.78, ISSN1079-5006, PMID: 7493224 [dostęp 2021-04-05].
Layne E.L.E.NortonLayne E.L.E., Donald K.D.K.LaymanDonald K.D.K., Leucine Regulates Translation Initiation of Protein Synthesis in Skeletal Muscle after Exercise, „The Journal of Nutrition”, 136 (2), 2006, 533S–537S, DOI: 10.1093/jn/136.2.533S, ISSN0022-3166 [dostęp 2021-04-05].
SylwiaS.SzwiegaSylwiaS. i inni, Dietary leucine requirement of older men and women is higher than current recommendations, „The American Journal of Clinical Nutrition”, 113 (2), 2021, s. 410–419, DOI: 10.1093/ajcn/nqaa323, ISSN1938-3207, PMID: 33330915, PMCID: PMC7851820 [dostęp 2021-04-05].
LingyuL.ZhangLingyuL. i inni, Leucine Supplementation: A Novel Strategy for Modulating Lipid Metabolism and Energy Homeostasis, „Nutrients”, 12 (5), 2020, DOI: 10.3390/nu12051299, ISSN2072-6643, PMID: 32370170, PMCID: PMC7282259 [dostęp 2021-04-05].
J.J.OktavianaJ.J. i inni, The Effect of β-hydroxy-β-methylbutyrate (HMB) on Sarcopenia and Functional Frailty in Older Persons: A Systematic Review, „The Journal of Nutrition, Health & Aging”, 23 (2), 2019, s. 145–150, DOI: 10.1007/s12603-018-1153-y, ISSN1760-4788, PMID: 30697623 [dostęp 2021-04-05].
MarkM.HamerMarkM., GaryG.O’DonovanGaryG., Sarcopenic obesity, weight loss, and mortality: the English Longitudinal Study of Ageing, „The American Journal of Clinical Nutrition”, 106 (1), 2017, s. 125–129, DOI: 10.3945/ajcn.117.152488, ISSN0002-9165 [dostęp 2021-04-05].