DEVELOPMENT, OPTIMIZATION AND IN VITRO CHARACTERIZATION OF HALOPERIDOL NANOCRYSTALS USING 32 FACTORIAL DESIGN

Q2 Pharmacology, Toxicology and Pharmaceutics
D. Saritha, P. S. CHANDRA BOSE, R. Osmani, Padmini Iriventi, S. Kanna, Gundawar Ravi
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Abstract

Objective: The main aim of the present study was to improve the dissolution rate of Haloperidol nanocrystals and thereby increase their bioavailability. Haloperidol is a typical antipsychotic drug and it is used to treat schizophrenia as well as acute mania and mixed states associated with bipolar disorder. Haloperidol falls into the Biopharmaceutics Classification System (BCS-II) class of drugs (poorly soluble aqueous and highly permeable) and has poor bioavailability. Methods: The present study involves the preparation and optimization of Haloperidol nanocrystals by the anti-solvent precipitation method using Polaxomer407 and polyvinyl pyrrolidone K30 (PVP K30). The prepared nanocrystals were evaluated for various parameters like particle size, zeta potential, % drug content, % yield, surface morphology, drug-excipient compatibility studies (Fourier-transform infrared spectroscopy (FT-IR) and Differential Scanning Calorimetry (DSC)), and in vitro dissolution studies. Results: Nine preparations were done and the best preparation amongst them was selected for further studies. F7 preparation containingpolaxomer407 and PVP K30 was selected as optimized preparation based on their evaluation parameters. 32 factorial design was used in the preparation. The particle size of the F7 nanocrystals was 300.2±2.7 nm and the zeta potential-36.3±3.2 mV. The % yield was in the range of 63.62±0.3%-98.21±0.8 %. The drug content of various preparations was found to be in the range of 58.46±0.8%-93.54±0.5 %. In vitro dissolution studies showed the highest % drug release for F7(91.54±0.03%) in 10 h. Conclusion: F7 preparation was found to be having acceptable characteristics and thus selected as optimized preparation.
利用 32 个因子设计对氟哌啶醇纳米晶体进行开发、优化和体外表征
研究目的本研究的主要目的是改善氟哌啶醇纳米晶体的溶解速率,从而提高其生物利用度。氟哌啶醇是一种典型的抗精神病药物,用于治疗精神分裂症以及与双相情感障碍相关的急性躁狂症和混合状态。氟哌啶醇属于生物制药分类系统(BCS-II)药物类别(水溶性差、渗透性强),生物利用度较低:本研究采用 Polaxomer407 和聚乙烯吡咯烷酮 K30(PVP K30),通过反溶剂沉淀法制备和优化氟哌啶醇纳米晶体。对所制备的纳米晶体进行了各种参数评估,如粒度、ZETA电位、药物含量百分比、产率百分比、表面形态、药物与赋形剂的相容性研究(傅立叶变换红外光谱法(FT-IR)和差示扫描量热法(DSC))以及体外溶解研究:结果:共制备了九种制剂,并从中选出了最佳制剂进行进一步研究。根据评价参数,选出含有 polaxomer407 和 PVP K30 的 F7 制剂作为优化制剂。制备过程中采用了 32 个因子设计。F7 纳米晶体的粒径为 300.2±2.7 nm,zeta 电位为-36.3±3.2 mV。收率为 63.62±0.3%-98.21±0.8 %。各种制剂的药物含量在 58.46±0.8%-93.54±0.5 % 之间。体外溶出度研究显示,F7 在 10 小时内的药物释放率最高(91.54±0.03%):F7 制剂具有可接受的特性,因此被选为优化制剂。
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来源期刊
International Journal of Applied Pharmaceutics
International Journal of Applied Pharmaceutics Pharmacology, Toxicology and Pharmaceutics-Pharmacology, Toxicology and Pharmaceutics (miscellaneous)
CiteScore
1.40
自引率
0.00%
发文量
219
期刊介绍: International Journal of Applied Pharmaceutics (Int J App Pharm) is a peer-reviewed, bimonthly (onward March 2017) open access journal devoted to the excellence and research in the pure pharmaceutics. This Journal publishes original research work that contributes significantly to further the scientific knowledge in conventional dosage forms, formulation development and characterization, controlled and novel drug delivery, biopharmaceutics, pharmacokinetics, molecular drug design, polymer-based drug delivery, nanotechnology, nanocarrier based drug delivery, novel routes and modes of delivery; responsive delivery systems, prodrug design, development and characterization of the targeted drug delivery systems, ligand carrier interactions etc. However, the other areas which are related to the pharmaceutics are also entertained includes physical pharmacy and API (active pharmaceutical ingredients) analysis. The Journal publishes original research work either as a Original Article or as a Short Communication. Review Articles on a current topic in the said fields are also considered for publication in the Journal.
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