Thrombin Immobilized Hemocompatible Radiopaque Polyurethane Microspheres for Topical Blood Coagulation.

Sonali S Naik, Arun Torris, Gorakh Hiraman Ghuge, V K Karthika, Roy Joseph, Kiran Sukumaran Nair
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Abstract

Over the past decade, there has been growing interest in developing microspheres for embolization procedures. However, the lack of noninvasive monitoring of the embolic agents and the occurrence of reflux phenomenon leading to unintentional occlusions has raised concerns regarding their compatibility/suitability for embolization therapy. Here we report the development of specialty microspheres having intrinsic radiopacity and surface functionality to tackle the existing complications that pave the way for more advanced solutions. To achieve the above goal, an iodinated monomer, termed "IBHV," capable of imparting radiopacity and functionality, was synthesized and used as a chain extender to make radiopaque polyurethane. Microspheres with a smooth surface and an average diameter of 474 ± 73 μm were fabricated from this polyurethane. The microspheres obtained were noncytotoxic, had a permissible hemolysis rate, and showed better traceability on x-ray imaging. Subsequent immobilization of thrombin onto microspheres improved their hemostatic effect. This study demonstrated that immobilization of thrombin would lead to microspheres with unique traits of radiopacity and hemostatic properties, which will undoubtedly enhance embolization efficiency.

用于局部血液凝固的凝血酶固定化血液兼容不透射线聚氨酯微球。
过去十年来,人们对开发用于栓塞手术的微球越来越感兴趣。然而,由于缺乏对栓塞剂的无创监测,以及发生导致意外闭塞的回流现象,人们对微球与栓塞疗法的兼容性/适用性产生了担忧。在此,我们报告了具有内在放射能力和表面功能的特种微球的开发情况,以解决现有的并发症,为更先进的解决方案铺平道路。为了实现上述目标,我们合成了一种被称为 "IBHV "的碘化单体,它能赋予微球放射能力和功能,并用作扩链剂来制造不透射线的聚氨酯。用这种聚氨酯制成了表面光滑、平均直径为 474 ± 73 μm 的微球。制得的微球无细胞毒性,具有允许的溶血率,并在 X 射线成像中显示出更好的可追溯性。随后将凝血酶固定在微球上可提高其止血效果。这项研究表明,固定凝血酶可使微球具有独特的放射能力和止血特性,这无疑将提高栓塞效率。
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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