Open Access
Bilosomes as a promising nanoplatform for oral delivery of an alkaloid nutraceutical: improved pharmacokinetic profile and snowballed hypoglycemic effect in diabetic rats
Тип публикации: Journal Article
Дата публикации: 2022-08-16
SCImago Q1
Tоп 10% SCImago
WOS Q1
БС1
SJR: 1.339
CiteScore: 20.2
Impact factor: 8
ISSN: 10717544, 15210464
PubMed ID:
35975320
General Medicine
Pharmaceutical Science
Краткое описание
Diabetes mellitus is a life-threatening metabolic disease. At the moment, there is no effective treatment available to combat it. In this study, we aimed to develop berberine-loaded bilosomes (BER-BLS) to boost the oral bioavailability and therapeutic efficacy of berberine, a natural antidiabetic medication. The BER-BLS was fabricated using a thin-film hydration strategy and optimized using a central composite design (face-centered). The average vesicle size, entrapment efficiency, and surface charge of the optimized BER-BLS preparation were 196.5 nm, 89.7%, (-) 36.4 mV, respectively. In addition, it exhibited higher stability and better-sustained release of berberine than the berberine solution (BER-SOL). BER-BLS and BER-SOL were administered to streptozocin-induced diabetic rats. The optimized BER-BLS formulation had a significant hypoglycemic impact, with a maximum blood glucose decrease of 41%, whereas BER-SOL only reduced blood glucose by 19%. Furthermore, the pharmacological effect of oral BER-BLS and BER-SOL corresponded to 99.3% and 31.7%, respectively, when compared to subcutaneous insulin (1 IU). A pharmacokinetic analysis found a 6.4-fold rise in the relative bioavailability of berberine in BER-BLS when compared to BER-SOL at a dosage of 100 mg/kg body weight. Histopathological investigation revealed that BER-BLS is suitable for oral administration. Our data demonstrate that BLS is a potential nanocarrier for berberine administration, enhancing its oral bioavailability and antidiabetic activity.
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Elkomy M. H. et al. Bilosomes as a promising nanoplatform for oral delivery of an alkaloid nutraceutical: improved pharmacokinetic profile and snowballed hypoglycemic effect in diabetic rats // Drug Delivery. 2022. Vol. 29. No. 1. pp. 2694-2704.
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Elkomy M. H., Eid H. M., Elmowafy M., Shalaby K., Zafar A., Abdelgawad M. A., Rateb M. E., Ali M. R. A., Alsalahat I., Abou-Taleb H. A. Bilosomes as a promising nanoplatform for oral delivery of an alkaloid nutraceutical: improved pharmacokinetic profile and snowballed hypoglycemic effect in diabetic rats // Drug Delivery. 2022. Vol. 29. No. 1. pp. 2694-2704.
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TY - JOUR
DO - 10.1080/10717544.2022.2110997
UR - https://doi.org/10.1080/10717544.2022.2110997
TI - Bilosomes as a promising nanoplatform for oral delivery of an alkaloid nutraceutical: improved pharmacokinetic profile and snowballed hypoglycemic effect in diabetic rats
T2 - Drug Delivery
AU - Elkomy, Mohammed H
AU - Eid, Hussein M
AU - Elmowafy, Mohammed
AU - Shalaby, Khaled
AU - Zafar, Ameeduzzafar
AU - Abdelgawad, Mohamed A
AU - Rateb, Mostafa E.
AU - Ali, Mohammed R A
AU - Alsalahat, Izzeddin
AU - Abou-Taleb, Heba A.
PY - 2022
DA - 2022/08/16
PB - Taylor & Francis
SP - 2694-2704
IS - 1
VL - 29
PMID - 35975320
SN - 1071-7544
SN - 1521-0464
ER -
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@article{2022_Elkomy,
author = {Mohammed H Elkomy and Hussein M Eid and Mohammed Elmowafy and Khaled Shalaby and Ameeduzzafar Zafar and Mohamed A Abdelgawad and Mostafa E. Rateb and Mohammed R A Ali and Izzeddin Alsalahat and Heba A. Abou-Taleb},
title = {Bilosomes as a promising nanoplatform for oral delivery of an alkaloid nutraceutical: improved pharmacokinetic profile and snowballed hypoglycemic effect in diabetic rats},
journal = {Drug Delivery},
year = {2022},
volume = {29},
publisher = {Taylor & Francis},
month = {aug},
url = {https://doi.org/10.1080/10717544.2022.2110997},
number = {1},
pages = {2694--2704},
doi = {10.1080/10717544.2022.2110997}
}
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MLA
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Elkomy, Mohammed H., et al. “Bilosomes as a promising nanoplatform for oral delivery of an alkaloid nutraceutical: improved pharmacokinetic profile and snowballed hypoglycemic effect in diabetic rats.” Drug Delivery, vol. 29, no. 1, Aug. 2022, pp. 2694-2704. https://doi.org/10.1080/10717544.2022.2110997.
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