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通过脉冲喷射实现严重出血伤口止血的仿生策略。

Bioinspired Hemostatic Strategy via Pulse Ejections for Severe Bleeding Wounds.

作者信息

Lu Bitao, Hu Enling, Ding Weiwei, Wang Wenyi, Xie Ruiqi, Yu Kun, Lu Fei, Lan Guangqian, Dai Fangyin

机构信息

State Key Laboratory of Silkworm Genome Biology, College of Sericulture, Textile and Biomass Sciences, Southwest University, Chongqing 400715, China.

Chongqing Engineering Research Center of Biomaterial Fiber and Modern Textile, Chongqing 400715, China.

出版信息

Research (Wash D C). 2023 May 22;6:0150. doi: 10.34133/research.0150. eCollection 2023.

DOI:10.34133/research.0150
PMID:37223487
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10202099/
Abstract

Efficient hemostasis during emergency trauma with massive bleeding remains a critical challenge in prehospital settings. Thus, multiple hemostatic strategies are critical for treating large bleeding wounds. In this study, inspired by bombardier beetles to eject toxic spray for defense, a shape-memory aerogel with an aligned microchannel structure was proposed, employing thrombin-carrying microparticles loaded as a built-in engine to generate pulse ejections for enhanced drug permeation. Bioinspired aerogels, after contact with blood, can rapidly expand inside the wound, offering robust physical barrier blocking, sealing the bleeding wound, and generating a spontaneous local chemical reaction causing an explosive-like generation of CO microbubbles, which provide propulsion thrust to accelerate burst ejection from arrays of microchannels for deeper and faster drug diffusion. The ejection behavior, drug release kinetics, and permeation capacity were evaluated using a theoretical model and experimentally demonstrated. This novel aerogel showed remarkable hemostatic performance in severely bleeding wounds in a swine model and demonstrated good degradability and biocompatibility, displaying great potential for clinical application in humans.

摘要

在院前环境中,有效控制紧急创伤时的大量出血仍然是一项严峻挑战。因此,多种止血策略对于治疗大出血伤口至关重要。在本研究中,受庞巴迪甲虫喷射有毒喷雾进行防御的启发,提出了一种具有排列微通道结构的形状记忆气凝胶,采用负载凝血酶的微粒作为内置引擎来产生脉冲喷射,以增强药物渗透。仿生气凝胶与血液接触后,可在伤口内迅速膨胀,提供强大的物理屏障阻挡作用,封闭出血伤口,并引发自发的局部化学反应,产生类似爆炸的一氧化碳微气泡,这些微气泡提供推进力,加速从微通道阵列中爆发式喷射,实现更深更快的药物扩散。利用理论模型对喷射行为、药物释放动力学和渗透能力进行了评估,并通过实验进行了验证。这种新型气凝胶在猪模型的严重出血伤口中表现出显著的止血性能,并具有良好的降解性和生物相容性,在人类临床应用中显示出巨大潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5a0a/10202099/dbbcf7a524ef/research.0150.fig.009.jpg
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