Design and Optimization of Thermo-reversible Nasal in situ Gel of Atomoxetine Hydrochloride Using Taguchi Orthogonal Array Design

P. Lakshmi, K. Harini
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引用次数: 8

Abstract

The present investigation was aimed to develop a thermo-reversible nasal in situ gel of atomoxetine hydrochloride (AH) with reduced nasal muco-ciliary clearance in order to improve residence time and targeting the brain through nasal mucosa for the treatment of attention-deficit hyperactivity disorder (ADHD). In situ gel formulations were prepared using different concentrations of the thermo-gelling poloxamer 407 and mucoadhesive polymers. Temperature-triggered ionic gelation is the mechanism involved. Taguchi L9 OA experimental design was employed for the optimization of the effect of independent variables (Poloxamer 407 and Carbopol 934P) on the response (gelation temperature). In situ gel formulation F4 having 20% poloxamer 407 and 0.3% carbopol 934P and formulation F6 having 20% poloxamer 407 and 0.2% HPMC K100 were optimized based on evaluation parameters. The gelation temperature of F4 and F6 was found to be 37°C ± 0.4 and 37°C ± 0.2, drug content 98.34 and 98.33% and drug release was 83.18, 82.4% in 4 hrs with a flux of 436.9 and 428.1 μg.cm2/hr, respectively. The release pattern of drug followed first-order kinetics with Higuchi release mechanism. The value of ‘n’ from Korsemeyer equation indicated the anomalous diffusional drug release. This study concluded that in situ gel enhanced the nasal residence time and thus may improve the bioavailability of the drug through nasal route by avoiding first pass metabolism Dhaka Univ. J. Pharm. Sci. 18(2): 183-193, 2019 (December)
用田口正交设计优化盐酸托莫西汀鼻腔原位热可逆凝胶
本研究旨在开发一种热可逆的盐酸托莫西汀(AH)鼻腔原位凝胶,减少鼻黏膜-纤毛间隙,以改善停留时间,并通过鼻黏膜靶向脑,用于治疗注意缺陷多动障碍(ADHD)。用不同浓度的热胶化poloxam407和粘接聚合物制备原位凝胶配方。温度触发的离子凝胶是其中的机制。采用田口L9 OA实验设计优化自变量(Poloxamer 407和Carbopol 934P)对反应(胶凝温度)的影响。根据评价参数对含有20% poloxam407和0.3% carbopol 934P的原位凝胶配方F4和含有20% poloxam407和0.2% HPMC K100的原位凝胶配方F6进行了优化。F4和F6的凝胶温度分别为37°C±0.4和37°C±0.2,4 h内药物含量分别为98.34和98.33%,释药量分别为83.18和82.4%,通量分别为436.9和428.1 μg。分别cm2 /人力资源。药物释放模式符合一级动力学,具有通口释放机制。Korsemeyer方程的n值表示药物的异常扩散释放。本研究认为,原位凝胶增加了药物的鼻腔停留时间,从而避免了首次通过代谢,从而提高了药物经鼻途径的生物利用度。科学通报,18(2):183- 193,2019 (12)
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