未使用和已使用的涂膜静脉导管的表面形貌。

Scanning electron microscopy Pub Date : 1986-01-01
A Bylock, E Hultman, B Gustavsson, L E Linder, I Curelaru
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引用次数: 0

摘要

通过扫描电子显微镜(SEM)研究未使用或静脉插入2-20天的水聚合物涂层聚氨酯(Erythroflex)导管。研究了未固定和固定(2%戊二醛在磷酸盐缓冲液中)以及空气或临界点干燥(CPD)的标本。导管段溅射涂覆约。并在20kv加速电压下进行了实验研究。检测了样品的表面沉积、水聚层的厚度和结构,以及黏附和包埋细菌的发生情况。在未使用的样品中,外水聚合物层显示划痕和裂缝,以及附着的异物。在使用的标本中,该层肿胀,有裂缝(像“干土”),偶尔可以看到无定形物质和球虫细菌粘附。在一些标本中也注意到层的损坏,甚至完全消失。在未使用的标本中,内层(管腔)水分子层干净且略呈波浪状。在使用过的导管中,它更厚,可能肿胀,有小的,孤立的或聚集的突起,就像“月球景观”。偶见粘附血小板和无定形物质。结果表明,水聚合物在干燥和潮湿形式下都是一种脆弱的材料。因此,水聚物涂层导管既不应储存在柔性包装中,也不应通过Seldinger技术插入。研究结果不支持水聚物涂层可以防止血栓形成或原位导管腔内阻塞的观点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Surface morphology of unused and used Hydromer-coated intravenous catheters.

Hydromer-coated polyurethane (Erythroflex) catheters, unused, or intravenously inserted for 2-20 days, were studied by scanning electron microscopy (SEM). Both unfixed and fixed (2% glutaraldehyde in phosphate buffer), and air-or critical-point dried (CPD) specimens were investigated. The catheter segments were sputter-coated with approx. 20 nm gold and studied at an accelerating voltage of 20 kV. The specimens were examined for surface depositions, thickness and structure of the Hydromer layers, and occurrence of adhering and embedded bacteria. The outer Hydromer layer showed, in the unused specimens, scratches and fissures, as well as adhering foreign bodies. In used specimens, the layer was swollen, with cracks (like "dried earth"), and, occasionally, amorphous substances and coccoid bacteria were seen adhering. Damage to the layer, or even its total disappearance was also noted in some specimens. The inner (luminal) Hydromer layer was, in unused specimens, clean and slightly wavy. In used catheters, it was thicker, possibly swollen, with small, isolated or agglomerated protrusions, like a "lunar landscape". Adhering platelets and amorphous substances were also occasionally seen. The results suggest that the Hydromer is a fragile material in both its dry and wet forms. Thus, the Hydromer-coated catheters should neither be stored in flexible packs, nor inserted by the Seldinger technique. The findings do not support the belief that the Hydromer-coating can prevent either thrombus formation, or intraluminal occlusion of the in-situ catheters.

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