Formulation, Design, Optimization, and Characterization of Novel Long-acting Injectable Dosage Form of Anti-Psychotic Drug

IF 0.3 Q4 PHARMACOLOGY & PHARMACY

Current Drug Therapy Pub Date : 2024-01-12 DOI:10.2174/0115748855270864240104094025

Niraj Patel, Rakesh Patel, A. Dharamsi

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引用次数: 0

Abstract

The current research aimed to create and analyze a new long-acting Brexpiprazole (BRX) injectable for successful anti-psychotic drug therapy in order to decrease dosage frequency and increase patient compliance. Systems for drug transport to particular body sites or regulating release rates with accuracy are known as drug delivery systems (DDS). By affixing the drug to a carrier particle like liposomes, nanoparticles, microspheres, etc., which modifies the drug's absorption and release properties, using carrier technology, drugs may be delivered in an intelligent manner. Utilizing Resomer RG 502 H and RESOMER® RG 752 H extended-release Polymer, Using a quasi-emulsion solvent diffusion, microspheres were made, and emulsification and solvent evaporation process. The produced microspheres were assessed for stability tests, in vitro drug release, flow characteristics, and drug entrapment efficiency. FTIR experiments were used to establish how well the drug excipients worked together. The acarbose microspheres that were created had an 89.9 to 96.1 percent drug entrapment efficiency. The impact of factors like polymer content on medication release was studied. The Stability study of the formulation was carried out under different conditions, and data were established. Comparative pharmacokinetic studies between marketed oral formulation and Brexpirazole microsphere test formulations in Wistar/SD Rats were carried out and concluded. Brexpiprazole (BRX) novel long-acting injectable formulation, could be used effectively for the treatment of mentally challenged anti-psychotic patients worldwide. The acarbose microspheres that were created had an 89.9 to 96.1 percent drug entrapment efficiency. The impact of factors like polymer content on medication release was studied. The Stability study of the formulation was carried out under different conditions and data were established. Comparative pharmacokinetic studies between marketed oral formulation and Brexpirazole microsphere test formulations in Wistar/SD Rats were carried out and concluded. Based on Literature data and drug excipients compatibility polymers were selected for manufacturing of extended release brexpiprazole microsphere Formulation. Preliminary formulation trial batches were taken with different polymers and studied for Drug Entrapment Efficiency and In Vitro release of drugs. Drug entrapment efficiency data of all the formulations are found satisfactory. In vitro, release results are compared with each formulation and based on the data, trial batch B1 with RESOMER® RG 502 H Poly(D,L-lactide-co-glycolide) 50:50 polymer and trial batch B2 with RESOMER® RG 752 H Poly(D,L-lactide-co-glycolide) 75:25 polymer have satisfactory results. So based on the study RESOMER® RG 502 H Poly(D,L-lactide-co-glycolide) 50:50 and RESOMER® RG 752 H Poly(D,L-lactide-co-glycolide) 75:25 were selected for Polymer Concentration and Formulation optimization study. The formulation is kept in the stability at different conditions and based on the data, the formulation is robust and all the derived values are found satisfactory. The comparative pharmacokinetic study was performed using oral marketed formulation and Brexpiprazole microsphere formulation. Based on the data we can conclude that long-acting depot formulations for administration of Brexpiprazol microsphere may offer no first-pass effect, increased bioavailability, fewer fluctuations in blood concentration and time, less dosing frequency, less no gastrointestinal intolerance, noninvasiveness.

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新型长效抗精神病药物注射剂型的配方、设计、优化与表征

目前的研究旨在开发和分析一种新型长效注射用布雷克哌唑（BRX），以成功进行抗精神病药物治疗，从而减少用药次数，提高患者的依从性。将药物输送到人体特定部位或精确调节释放率的系统被称为给药系统（DDS）。通过将药物粘附到脂质体、纳米颗粒、微球等载体颗粒上，从而改变药物的吸附性、利用 Resomer RG 502 H 和 RESOMER® RG 752 H 缓释聚合物，通过准乳液溶剂扩散、乳化和溶剂蒸发工艺制成微球。傅立叶变换红外光谱实验用于确定药物辅料的配合情况。所制成的阿卡波糖微球的药物夹持效率为 89.9% 至 96.1%。研究了聚合物含量等因素对药物释放的影响。在不同条件下对制剂进行了稳定性研究，并建立了相关数据。在 Wistar/SD 大鼠体内进行了市售口服制剂与布雷克吡唑微球试验制剂的药代动力学比较研究，并得出结论：布雷克吡唑（BRX）是一种新型长效注射制剂，可有效用于治疗全球精神障碍抗精神病患者。研究了聚合物含量等因素对药物释放的影响。在不同条件下对制剂进行了稳定性研究，并得出了相关数据。在 Wistar/SD 大鼠体内进行了市售口服制剂和布雷希拉唑微球试验制剂的药代动力学比较研究，并得出结论。使用不同的聚合物进行了初步配方试制，并研究了药物包埋效率和体外药物释放情况。所有配方的药物包埋效率数据都令人满意。根据数据，使用 RESOMER® RG 502 H Poly(D,L-lactide-co-glycolide) 50:50 聚合物的试制批 B1 和使用 RESOMER® RG 752 H Poly(D,L-lactide-co-glycolide) 75:25 聚合物的试制批 B2 的释放结果令人满意。因此，根据研究结果，选择 RESOMER® RG 502 H Poly(D,L-lactide-co-glycolide) 50:50 和 RESOMER® RG 752 H Poly(D,L-lactide-co-glycolide) 75:25 进行聚合物浓度和配方优化研究。制剂在不同条件下保持稳定，根据数据，制剂是稳健的，所有得出的值都令人满意。根据这些数据，我们可以得出结论：布雷克西拉唑微球长效去势制剂不会产生首过效应、生物利用度提高、血药浓度和时间波动较小、用药次数较少、无胃肠道不耐受、无创伤。

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来源期刊

Current Drug Therapy PHARMACOLOGY & PHARMACY-

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： Current Drug Therapy publishes frontier reviews of high quality on all the latest advances in drug therapy covering: new and existing drugs, therapies and medical devices. The journal is essential reading for all researchers and clinicians involved in drug therapy.