增强子
渗透
胰岛素释放
胰岛素
材料科学
纳米技术
化学
医学
生物化学
糖尿病
膜
内科学
内分泌学
基因
基因表达
1型糖尿病
作者
Konstantinos Raptis,Joanne Heade,Cristiana Filipa Barreiro da Cunha,Marco van de Weert,Lasse Saaby,Stine Rønholt,Hanne Mørck Nielsen
标识
DOI:10.1002/adhm.202500946
摘要
The increased focus on peptide therapeutics has created an unmet need for technologies and materials enabling therapeutic efficacy after oral administration. Currently, permeation enhancers are the gold standard for oral peptide delivery, with sodium decanoate being one of the most widely tested in preclinical and clinical studies. This study aims to develop and investigate a decanoate-based ionic liquid (IL) inspired by the reported absorption enhancing effect of choline geranate (CAGE) IL. The delivery system is prepared by loading choline decanoate with insulin and upon optimization of the ratio, the chC10 1:2 lead formulation shows gel-like rheological properties. Its high viscosity and hydrophobicity results in slow dissolution in vitro and sustained absorption in vivo. In vivo data show that it can mediate a 7- and a 13-fold higher oral bioavailability of insulin (6.5%) compared to CAGE (0.9%) and sodium decanoate (0.5%), respectively. Histological evaluation reveals that exposure to chC10 1:2 does not affect villi morphology, while 15 min exposure to CAGE significantly reduces villi height. The villi erosion observed is transient and not significantly different from that observed with sodium decanoate. These results showcase the high potential of the chC10 1:2 as an oral drug delivery vehicle.
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