Pioglitazone Nanoparticles Development, Characterization, Optimization, and a Zebrafish Model Evaluation of its Teratogenic Safety

Q3 Materials Science

Current Nanomaterials Pub Date : 2024-04-18 DOI:10.2174/0124054615263163231024045123

Plaban Saha, Subhajit Sarkar, Rakesh Ghosh, Mainak Chakraborty, Swarupananda Mukherjee, D. Karati

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引用次数: 0

Abstract

New nanoparticles (NPs) and biomaterials are utilized more frequently in biological research for vaccinations, diagnostic procedures, and drug administration. Nanomaterials are materials with d50 value from 1 to 100nm. They are also found in various consumer goods, the environment, and work. Thus, it has become crucial for the appropriate development of nanotechnology to assess the safety and potential therapeutic applications of these nanomaterials. The BCS Cass II medication pioglitazone hydrochloride, used to treat hypoglycaemia, has poor bioavailability after oral treatment because it dissolves poorly in gastrointestinal fluids. New nanoparticles and biomaterials are utilized more frequently in biological research for vaccinations, diagnostic procedures, and drug administration. They are also found in various consumer goods, the environment, and work. Thus, it has become crucial for the appropriate development of nanotechnology to assess the safety and potential therapeutic applications of these nanomaterials. The BCS Cass II medication pioglitazone hydrochloride, used to treat hypoglycaemia, has poor bioavailability after oral treatment because it dissolves poorly in gastrointestinal fluids. This study aimed to create adjusted pioglitazone nanoparticles to decrease dose-related side effects and prolong its release when used against type 2 diabetes. This study aimed to create adjusted pioglitazone nanoparticles to decrease dose-related side effects and prolong its release when used against type 2 diabetes The emulsion solvent evaporation approach was used to create nanoparticles utilising HPMC K15M and Eudragit S100 as polymers, and Tween 80 as a surfactant. On framed nanoparticles, in-vitro evaluation approaches for drug-polymer compatibility, percentage yield, particle size, zeta potential, polydispersity index, surface morphology, encapsulation effectiveness, and in-vitro drug release study were used, followed by in-vivo acute toxicity experiment. From the obtained data, it can be said that a suitable optimized formulation of pioglitazone nanoparticles was prepared, which offered extended drug release of 95% in 10 hours.

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吡格列酮纳米颗粒的开发、表征、优化及其致畸安全性的斑马鱼模型评估

新型纳米粒子（NPs）和生物材料越来越多地被用于疫苗接种、诊断程序和给药等生物学研究中。纳米材料是指 d50 值在 1 到 100nm 之间的材料。它们也存在于各种消费品、环境和工作中。因此，评估这些纳米材料的安全性和潜在的治疗应用已成为适当发展纳米技术的关键。用于治疗低血糖的 BCSCass II 药物盐酸吡格列酮在口服治疗后的生物利用度很低，因为它在胃肠液中的溶解度很低。新型纳米颗粒和生物材料越来越多地用于疫苗接种、诊断程序和药物管理等生物研究中，也出现在各种消费品、环境和工作中。因此，评估这些纳米材料的安全性和潜在治疗用途对于纳米技术的适当发展至关重要。用于治疗低血糖症的 BCS Cass II 药物盐酸吡格列酮在口服治疗后的生物利用度较低，因为它在胃肠液中的溶解度较低。本研究旨在创建经过调整的吡格列酮纳米颗粒，以减少剂量相关副作用，并延长其在用于治疗 2 型糖尿病时的释放时间。乳液溶剂蒸发法是利用 HPMC K15M 和 Eudragit S100 作为聚合物，Tween 80 作为表面活性剂来制造纳米颗粒。根据获得的数据，可以说制备出了合适的吡格列酮纳米颗粒优化配方，该配方能在 10 小时内延长药物释放时间达 95%。

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来源期刊

Current Nanomaterials Materials Science-Materials Science (miscellaneous)

CiteScore

1.60

自引率

0.00%

发文量