Rate of Drug Coating Dissolution Determines In-Tissue Drug Retention and Durability of Biological Efficacy.

Journal of drug delivery Pub Date : 2019-01-08 eCollection Date: 2019-01-01 DOI:10.1155/2019/9560592
Juan F Granada, Renu Virmani, Daniel Schulz-Jander, Stefan Tunev, Robert J Melder
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引用次数: 10

Abstract

Two different drug-coated balloons (DCBs) possessing different coating formulations were compared for rate of coating dissolution in vitro, in addition to tissue drug concentration and histological responses of treated vascular tissue in vivo, to determine if the rate of drug bioavailability to vascular tissue can impact the degree and duration of the observed pharmacological response to locally delivered drug. In vitro dissolution comparison demonstrated that a urea/paclitaxel-based coating formulation (IN.PACT™ Admiral™) released drug from solid to soluble phase at a slower and constant rate, yielding approximately 7% solubilized drug in 24 h. In contrast, a coating formulated from polysorbate/sorbitol/paclitaxel (Lutonix™) released 51% of solid phase drug to soluble phase in 1 h of dissolution with the remainder solubilizing in 24 h. In vivo evaluation of tissue drug concentration of both products showed significantly different tissue pharmacokinetic profile, with a higher concentration of paclitaxel in tissue at 90 days with a urea-based formulation excipient. Histological comparison of smooth muscle cell loss in response to drug exposure revealed contrasting trends of smooth muscle cell loss from 28 to 90 days with significantly higher response to drug observed at 90 days with the urea-based formulation. Rapid dissolution of drug from the polysorbate/sorbitol coating formulation was associated with an early increase in local cellular response to drug which diminished over 90 days with clearance of local drug from tissue. Sustained long-term drug-in-tissue concentration associated with the urea-based formulation demonstrated sustained pharmacological activity at 90 days, suggesting that slow coating dissolution provides a sustainable long-term tissue response.

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药物包衣溶出率决定了药物在组织内的保留率和生物药效的持久性。
通过比较两种具有不同包衣配方的药物包衣气球(DCBs)在体外的包衣溶出率、组织药物浓度和体内处理血管组织的组织学反应,来确定药物对血管组织的生物利用度是否会影响局部给药药物的药理反应的程度和持续时间。体外溶出度比较表明,尿素/紫杉醇基包衣制剂(In。PACT™Admiral™)以较慢和恒定的速率将药物从固相释放到溶相,在24小时内产生约7%的可溶药物。相比之下,由聚山梨酸酯/山梨醇/紫杉醇制成的涂层(Lutonix™)在溶解1小时内将51%的固相药物释放到可溶相,其余的在24小时内可溶。两种产品的体内组织药物浓度评估显示出显著不同的组织药代动力学特征。与较高浓度的紫杉醇组织在90天与尿素为基础的配方辅料。对药物暴露后平滑肌细胞损失的组织学比较揭示了28至90天平滑肌细胞损失的不同趋势,在使用尿素基制剂的第90天观察到对药物的反应明显更高。从聚山梨酸酯/山梨醇包衣制剂中药物的快速溶解与局部细胞对药物的早期反应增加有关,这种反应在90天后随着局部药物从组织中清除而减弱。持续的长期组织内药物浓度与尿素基制剂相关,在90天内显示出持续的药理活性,这表明缓慢的涂层溶解提供了持续的长期组织反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of drug delivery
Journal of drug delivery PHARMACOLOGY & PHARMACY-
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