冻干血浆:用于损伤控制复苏的止血及生物物理分析
Freeze-dried plasma: Hemostasis and biophysical analyses for damage control resuscitation.
作者信息
Shoara Aron A, Singh Kanwal, Peng Henry T, Moes Katy, Yoo Jeong-Ah, Sohrabipour Sahar, Singh Sanewal, Huang Rex, Andrisani Peter, Wu Chengliang, Pavenski Katerina, Kim Paul Y, Trigatti Bernardo, Kretz Colin A, Rotstein Ori D, Rhind Shawn G, Beckett Andrew N
机构信息
Department of Surgery, Temerty Faculty of Medicine, University of Toronto, Toronto, Ontario, Canada.
Keenan Research Centre for Biomedical Science, Li Ka Shing Knowledge Institute, Trauma and Acute Care Surgery, St. Michael's Hospital, Toronto, Ontario, Canada.
出版信息
Transfusion. 2025 May;65 Suppl 1(Suppl 1):S250-S264. doi: 10.1111/trf.18124. Epub 2025 Jan 13.
BACKGROUND
Effective hemorrhage protocols prioritize immediate hemostatic resuscitation to manage hemorrhagic shock. Prehospital resuscitation using blood products, such as whole blood or alternatively dried plasma in its absence, has the potential to improve outcomes in hemorrhagic shock patients. However, integrating blood products into prehospital care poses substantial logistical challenges due to issues with storage, transport, and administration in field environments.
STUDY DESIGN AND METHODS
We utilized hemostatic assays and advanced biophysical techniques, such as calorimetry, infrared spectoscopy, dynamic light scattering, and biolayer interferometry, to compare the functional and structural properties of freeze-dried plasma (FDP; OctaplasLG Powder, Octapharma AB) with those of fresh plasma controls.
RESULTS
Hemostatic characterization of FDP revealed that clot formation properties and coagulation parameters were largely comparable to fresh plasma controls, with some variations observed in Von Willebrand factor-ADAMTS13 axis and fibrinolysis. No change to moisture content of FDP (~1% water content) was observed after 6-month storage at ambient conditions. Biophysical analyses of FDP during transfusion demonstrated spontaneous exothermic mixing of FDP in plasma, a dilution effect from saline, as well as comparable stability to plasma controls. Quantification of ligand-binding affinities of platelet receptors activated GPIIbIIIa and GPIbα showed comparable binding properties to plasma controls.
CONCLUSION
Our results show that FDP exhibits hemostatic functionality and protein stability on par with fresh plasma, as assessed by novel, highly sensitive techniques. FDP therefore represents a viable alternative to conventional plasma in damage control resuscitation, offering significant logistical and storage advantages for prehospital and remote applications, especially in scenarios where whole blood is unavailable.
背景
有效的出血治疗方案将立即进行止血复苏作为管理失血性休克的首要任务。院前使用血液制品进行复苏,如全血,若无全血则使用冻干血浆,有可能改善失血性休克患者的治疗效果。然而,由于现场环境中的储存、运输和给药问题,将血液制品纳入院前护理带来了巨大的后勤挑战。
研究设计与方法
我们利用止血测定法和先进的生物物理技术,如量热法、红外光谱法、动态光散射法和生物层干涉法,比较冻干血浆(FDP;OctaplasLG Powder,奥法玛公司)与新鲜血浆对照的功能和结构特性。
结果
FDP的止血特性表明,凝血形成特性和凝血参数在很大程度上与新鲜血浆对照相当,在血管性血友病因子 - ADAMTS13轴和纤维蛋白溶解方面观察到一些差异。在环境条件下储存6个月后,FDP的水分含量(约1%含水量)没有变化。输血过程中对FDP的生物物理分析表明,FDP在血浆中自发发生放热混合、盐水的稀释作用以及与血浆对照相当的稳定性。对激活的血小板受体GPIIbIIIa和GPIbα的配体结合亲和力进行定量分析,结果显示其结合特性与血浆对照相当。
结论
我们的结果表明,通过新颖、高度灵敏的技术评估,FDP具有与新鲜血浆相当的止血功能和蛋白质稳定性。因此,FDP是损伤控制复苏中传统血浆的可行替代品,为院前和远程应用提供了显著的后勤和储存优势,特别是在无法获得全血的情况下。
Zotero 插件