创新使用医用红外热成像技术评估两种丁丙诺啡透皮贴剂配方的单剂量粘附性能研究

Duna Sn, A. Ghita, S. Grasser, S. RizeaSavu
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引用次数: 0

摘要

研究人员开发了一种评估透皮贴片与皮肤粘附性的创新方法,并将其应用于一项开放标签、两期、两序列、双向交叉、对照、随机、单剂量研究中收集的支持性成像数据,以评估两种丁丙诺啡制剂(仿制药与原药)的粘附性能,局部应用于健康男性和女性志愿者。用于数据采集的技术被称为医学红外热成像(MIT),这是一种非侵入性、非辐射的表面温度测绘成像技术。在粘附性能研究中使用该技术的基本原理是,透皮贴片的表面达到与应用该贴片的身体区域的温度平衡,并且每当皮肤和贴片之间存在不连续时,热能量传递到透皮贴片表面的变化。在空气介入的情况下,传播是最小的,所以任何情况下贴片从皮肤上脱落在热成像上都是可见的。热像图是在标准化条件下获得的,但最初仅用于辅助成像技术,而主要的粘附性能数据是通过视觉检查和手动标记的标准方法获得的。在本文中,我们进一步证明了获得的热像图作为主要粘附评估工具的价值,与内部验证的图像处理软件结合使用,用于实际量化脱离的百分比。这种自动化和无偏分析粘附性能的新方法被证明是高度可靠和可重复的,这些属性推荐它作为未来的主要粘附性评估工具,等待完成完整的方法验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Innovative Use of Medical Infrared Thermography to Evaluate Adhesive Properties of Two Buprenorphine Transdermal Patch Formulations in a Single Dose Adhesion Performance Study
An innovative approach for the assessment of transdermal patches adherence to the skin was developed and applied post-hoc to supportive imaging data collected in an open label, two-period, two-sequence, two-way crossover, controlled, randomized, single dose study to assess adhesion performance of two buprenorphine formulations (generic versus originator), applied topically to healthy male and female volunteers. The technology used for data acquisition is called Medical Infrared Thermography (MIT), a non-invasive, non-radiating imaging technique for surface temperature mapping. The use of this technology in an adhesion performance study was based on the rationale that the surface of a transdermal patch reaches a temperature in equilibrium with that of the body area where it is applied and whenever a discontinuity between skin and patch exists, the transmission of thermic energy to the surface of the transdermal patch changes. In case air is interposed, the transmission is minimal so any cases of patch lift-off from skin become visible on thermograms. The thermograms were acquired in standardized conditions but were initially intended only as supportive imaging technique, while the primary adhesion performance data was acquired through the standard approach of visual examination coupled with manual markings. In this article we further demonstrate the value of the acquired thermograms as main adhesion assessment tools, used in conjuncture with an in-house validated image processing software for the actual quantification of percentages of detachment. This novel approach for automated and unbiased analysis of adhesion performance was shown to be highly reliable and reproducible, attributes that recommend it for future use as primary adhesion assessment tool pending completion of full method validation.
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