Nośnik leku (Polish Wikipedia)

Analysis of information sources in references of the Wikipedia article "Nośnik leku" in Polish language version.

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13doi.org

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6nih.gov

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1drugbank.com

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1japtronline.com

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1worldcat.org

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doi.org

dx.doi.org

SvensonS. Sönke SvensonS., Carrier-Based Drug Delivery, t. 879, Washington, DC: American Chemical Society, Division of Colloid and Surface Chemistry, 5 maja 2004, s. 3–9, DOI: 10.1021/bk-2004-0879.ch001, ISBN 978-0-8412-3839-8 (ang.).
SiluS. Zhang SiluS. i inni, Controllable Drug Release and Simultaneously Carrier Decomposition of SiO 2 -Drug Composite Nanoparticles, „Journal of the American Chemical Society”, 135 (15), 2013, s. 5709–5716, DOI: 10.1021/ja3123015 [dostęp 2024-06-23] (ang.).
AgataA. Krzak AgataA. i inni, Adjusting the Structure of β-Cyclodextrin to Improve Complexation of Anthraquinone-Derived Drugs, „Molecules”, 26 (23), 2021, s. 7205, DOI: 10.3390/molecules26237205, PMID: 34885787, PMCID: PMC8659250 [dostęp 2024-06-23] .
RaquelR. Taléns-Visconti RaquelR. i inni, Nanoliposomes in Cancer Therapy: Marketed Products and Current Clinical Trials, „International Journal of Molecular Sciences”, 23 (8), 2022, s. 4249, DOI: 10.3390/ijms23084249, PMID: 35457065, PMCID: PMC9030431 [dostęp 2024-06-23] (ang.).
JaimeJ. Conceicao JaimeJ. i inni, Cyclodextrins as Drug Carriers in Pharmaceutical Technology: The State of the Art, „Current Pharmaceutical Design”, 24 (13), 2018, s. 1405–1433, DOI: 10.2174/1381612824666171218125431 [dostęp 2024-06-23] (ang.).
GauravG. Tiwari GauravG., RuchiR. Tiwari RuchiR., AwaniKA. Rai AwaniKA., Cyclodextrins in delivery systems: Applications, „Journal of Pharmacy And Bioallied Sciences”, 2 (2), 2010, s. 72, DOI: 10.4103/0975-7406.67003, PMID: 21814436, PMCID: PMC3147107 [dostęp 2024-06-23] (ang.).
MarcinM. Mackiewicz MarcinM. i inni, Redox-degradable microgel based on poly(acrylic acid) as drug-carrier with very high drug-loading capacity and decreased toxicity against healthy cells, „Polymer Degradation and Stability”, 190, 2021, s. 109652, DOI: 10.1016/j.polymdegradstab.2021.109652 [dostęp 2024-06-23] (ang.).
SamiaS. Farhaj SamiaS., Barbara R.B.R. Conway Barbara R.B.R., Muhammad UsmanM.U. Ghori Muhammad UsmanM.U., Nanofibres in Drug Delivery Applications, „Fibers”, 11 (2), 2023, s. 21, DOI: 10.3390/fib11020021 [dostęp 2024-06-23] (ang.).
LixinL. Fang LixinL. i inni, The application of mesoporous silica nanoparticles as a drug delivery vehicle in oral disease treatment, „Frontiers in Cellular and Infection Microbiology”, 13, 2023, DOI: 10.3389/fcimb.2023.1124411, PMID: 36864881, PMCID: PMC9971568 [dostęp 2024-06-23] .
Chung-LunCh.L. Lin Chung-LunCh.L. i inni, Protein Attachment on Nanodiamonds, „The Journal of Physical Chemistry A”, 119 (28), 2015, s. 7704–7711, DOI: 10.1021/acs.jpca.5b01031 [dostęp 2024-06-23] (ang.).
Vadym N.V.N. Mochalin Vadym N.V.N. i inni, Adsorption of Drugs on Nanodiamond: Toward Development of a Drug Delivery Platform, „Molecular Pharmaceutics”, 10 (10), 2013, s. 3728–3735, DOI: 10.1021/mp400213z [dostęp 2024-06-23] (ang.).
HosseinH. Zare HosseinH. i inni, Carbon Nanotubes: Smart Drug/Gene Delivery Carriers, „International Journal of Nanomedicine”, Volume 16, 2021, s. 1681–1706, DOI: 10.2147/IJN.S299448, PMID: 33688185, PMCID: PMC7936533 [dostęp 2024-06-23] (ang.).
V.V. Chandrakala V.V., ValmikiV. Aruna ValmikiV., GangadharaG. Angajala GangadharaG., Review on metal nanoparticles as nanocarriers: current challenges and perspectives in drug delivery systems, „Emergent Materials”, 5 (6), 2022, s. 1593–1615, DOI: 10.1007/s42247-021-00335-x, PMID: 35005431, PMCID: PMC8724657 [dostęp 2024-06-23] (ang.).

drugbank.com

go.drugbank.com

Pharmaceutical Vehicles [online], go.drugbank.com [dostęp 2024-07-01] .

japtronline.com

H.S.H.S. Chaudhari H.S.H.S. i inni, Dendrimers: novel carriers for drug delivery, „Journal of Applied Pharmaceutical Research”, 4 (1), 5 marca 2016, s. 01–19, ISSN 2348-0335 [dostęp 2024-07-01] (ang.).

nih.gov

ncbi.nlm.nih.gov

AgataA. Krzak AgataA. i inni, Adjusting the Structure of β-Cyclodextrin to Improve Complexation of Anthraquinone-Derived Drugs, „Molecules”, 26 (23), 2021, s. 7205, DOI: 10.3390/molecules26237205, PMID: 34885787, PMCID: PMC8659250 [dostęp 2024-06-23] .
RaquelR. Taléns-Visconti RaquelR. i inni, Nanoliposomes in Cancer Therapy: Marketed Products and Current Clinical Trials, „International Journal of Molecular Sciences”, 23 (8), 2022, s. 4249, DOI: 10.3390/ijms23084249, PMID: 35457065, PMCID: PMC9030431 [dostęp 2024-06-23] (ang.).
GauravG. Tiwari GauravG., RuchiR. Tiwari RuchiR., AwaniKA. Rai AwaniKA., Cyclodextrins in delivery systems: Applications, „Journal of Pharmacy And Bioallied Sciences”, 2 (2), 2010, s. 72, DOI: 10.4103/0975-7406.67003, PMID: 21814436, PMCID: PMC3147107 [dostęp 2024-06-23] (ang.).
LixinL. Fang LixinL. i inni, The application of mesoporous silica nanoparticles as a drug delivery vehicle in oral disease treatment, „Frontiers in Cellular and Infection Microbiology”, 13, 2023, DOI: 10.3389/fcimb.2023.1124411, PMID: 36864881, PMCID: PMC9971568 [dostęp 2024-06-23] .
HosseinH. Zare HosseinH. i inni, Carbon Nanotubes: Smart Drug/Gene Delivery Carriers, „International Journal of Nanomedicine”, Volume 16, 2021, s. 1681–1706, DOI: 10.2147/IJN.S299448, PMID: 33688185, PMCID: PMC7936533 [dostęp 2024-06-23] (ang.).
V.V. Chandrakala V.V., ValmikiV. Aruna ValmikiV., GangadharaG. Angajala GangadharaG., Review on metal nanoparticles as nanocarriers: current challenges and perspectives in drug delivery systems, „Emergent Materials”, 5 (6), 2022, s. 1593–1615, DOI: 10.1007/s42247-021-00335-x, PMID: 35005431, PMCID: PMC8724657 [dostęp 2024-06-23] (ang.).

worldcat.org

H.S.H.S. Chaudhari H.S.H.S. i inni, Dendrimers: novel carriers for drug delivery, „Journal of Applied Pharmaceutical Research”, 4 (1), 5 marca 2016, s. 01–19, ISSN 2348-0335 [dostęp 2024-07-01] (ang.).