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用于有效治疗青光眼的奈必洛尔卵磷脂-壳聚糖杂化纳米粒载药双响应原位凝胶的设计、药代动力学及药效学评价

Design, pharmacokinetic, and pharmacodynamic evaluation of a lecithin-chitosan hybrid nanoparticle-loaded dual-responsive in situ gel of nebivolol for effective treatment of glaucoma.

作者信息

Rawat Pradeep Singh, Ravi Punna Rao, Mahajan Radhika Rajiv

机构信息

Department of Pharmacy, Birla Institute of Technology and Science Pilani, Hyderabad Campus, Jawahar Nagar, Kapra Mandal, Medchal District, Telangana, 500 078, India.

出版信息

Discov Nano. 2024 Sep 27;19(1):156. doi: 10.1186/s11671-024-04109-2.

DOI:10.1186/s11671-024-04109-2
PMID:39331225
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11436582/
Abstract

In this research work, optimized nebivolol-loaded lecithin-chitosan hybrid nanoparticles (NEB-LCNPs) were prepared using sequential screening and optimization designs. The design of experiments software (DoE) was used to obtain a robust formulation that can improve ocular delivery of the NEB in the treatment of glaucoma. The optimized NEB-LCNPs had a mean particle size of 170.5 ± 5.3 nm and drug loading of 10.5 ± 1.2%. These were further loaded in a dual-responsive in situ gel, designed and reported previously by our group. The NEB-LCNPs loaded in situ gel (NEB-LCNPs-ISG) was characterized for physicochemical properties, rheological behavior, stability, in vitro dissolution, and ocular in vivo studies. The ocular pharmacokinetics showed that NEB-LCNPs-ISG had two-fold higher aqueous humor exposure with AUC of 375.4 ng × h/mL and sustained drug concentrations for longer durations (1.7-folds higher duration with a mean residence time of 10.6 h) in comparison to a conventional aqueous suspension of NEB (NEB-Susp). Similarly, the pharmacodynamic study showed that NEB-LCNPs-ISG resulted in a higher percentage reduction in intraocular pressure (% ΔIOP) of 28.1 ± 1.8% × h, which was 2.2-times higher reduction compared to NEB-Susp (74.2 ± 3.2% × h). In addition, the pharmacodynamic effect was more sustained with a mean response time of 11.3 ± 0.2 h, a 2.8-times higher response time compared to NEB-Susp (4.06 ± 0.3 h). These results suggest that NEB-LCNPs-ISG was more effective than the conventional aqueous suspension of NEB in the treatment of glaucoma.

摘要

在本研究工作中,采用序贯筛选和优化设计制备了优化的载奈必洛尔卵磷脂-壳聚糖混合纳米粒(NEB-LCNPs)。利用实验设计软件(DoE)获得一种稳健的制剂,以改善奈必洛尔在青光眼治疗中的眼部给药效果。优化后的NEB-LCNPs平均粒径为170.5±5.3nm,载药量为10.5±1.2%。将这些纳米粒进一步载入我们小组之前设计并报道的双响应原位凝胶中。对载于原位凝胶中的NEB-LCNPs(NEB-LCNPs-ISG)进行了理化性质、流变行为、稳定性、体外溶出和眼部体内研究。眼部药代动力学表明,与传统的奈必洛尔水混悬液(NEB-Susp)相比,NEB-LCNPs-ISG的房水暴露量高出两倍,AUC为375.4ng×h/mL,药物浓度持续时间更长(平均驻留时间为10.6h,持续时间高出1.7倍)。同样,药效学研究表明,NEB-LCNPs-ISG导致眼内压降低百分比(%ΔIOP)更高,为28.1±1.8%×h,比NEB-Susp(74.2±3.2%×h)高出2.2倍。此外,药效学作用更持久,平均反应时间为11.3±0.2h,比NEB-Susp(4.06±0.3h)高出2.8倍。这些结果表明,NEB-LCNPs-ISG在青光眼治疗中比传统的奈必洛尔水混悬液更有效。

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