用于脑治疗性低温的导管上的双尺寸中空颗粒复合丝素隔热涂层。

Dual-sized hollow particle incorporated fibroin thermal insulating coatings on catheter for cerebral therapeutic hypothermia.

作者信息

Li Ming, Gao Yuan, Jiang Miaowen, Zhang Hongkang, Zhang Yang, Wu Yan, Zhou Wenhao, Wu Di, Wu Chuanjie, Wu Longfei, Bao Luzi, Ge Xiaoxiao, Qi Zhengfei, Wei Ming, Li Ang, Ding Yuchuan, Zhang Jicheng, Pan Guangzhen, Wu Yu, Cheng Yan, Zheng Yufeng, Ji Xunming

机构信息

China-America Institute of Neuroscience and Beijing Institute of Geriatrics, Xuanwu Hospital, Capital Medical University, Beijing, 100053, China.

School of Instrumentation and Optoelectronic Engineering, Beihang University, Beijing, 100191, China.

出版信息

Bioact Mater. 2023 Feb 24;26:116-127. doi: 10.1016/j.bioactmat.2023.02.022. eCollection 2023 Aug.

DOI:10.1016/j.bioactmat.2023.02.022

PMID:36879558

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9984786/

Abstract

Selective endovascular hypothermia has been used to provide cooling-induced cerebral neuroprotection, but current catheters do not support thermally-insulated transfer of cold infusate, which results in an increased exit temperature, causes hemodilution, and limits its cooling efficiency. Herein, air-sprayed fibroin/silica-based coatings combined with chemical vapor deposited parylene-C capping film was prepared on catheter. This coating features in dual-sized-hollow-microparticle incorporated structures with low thermal conductivity. The infusate exit temperature is tunable by adjusting the coating thickness and infusion rate. No peeling or cracking was observed on the coatings under bending and rotational scenarios in the vascular models. Its efficiency was verified in a swine model, and the outlet temperature of coated catheter (75 μm thickness) was 1.8-2.0 °C lower than that of the uncoated one. This pioneering work on catheter thermal insulation coatings may facilitate the clinical translation of selective endovascular hypothermia for neuroprotection in patients with acute ischemic stroke.

摘要

选择性血管内低温已被用于提供降温诱导的脑神经保护，但目前的导管不支持冷灌注液的热绝缘传输，这导致出口温度升高、引起血液稀释并限制其冷却效率。在此，在导管上制备了空气喷涂的丝素蛋白/二氧化硅基涂层，并结合化学气相沉积聚对二甲苯-C封盖膜。该涂层具有双尺寸空心微颗粒掺入结构，具有低导热率。灌注液出口温度可通过调整涂层厚度和输注速率来调节。在血管模型的弯曲和旋转情况下，涂层未观察到剥落或开裂。其效率在猪模型中得到验证，涂层导管（75μm厚度）的出口温度比未涂层导管低1.8-2.0°C。这项关于导管隔热涂层的开创性工作可能会促进选择性血管内低温在急性缺血性中风患者神经保护中的临床转化。

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用于脑治疗性低温的导管上的双尺寸中空颗粒复合丝素隔热涂层。

Dual-sized hollow particle incorporated fibroin thermal insulating coatings on catheter for cerebral therapeutic hypothermia.

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