血小板流变行为在损伤修复过程中的作用

doi:10.3877/cma.j.issn.1673-9450.2017.01.001

血小板流变行为受多种因素影响，损伤是其中的常见因素。损伤不仅引起血小板数量和形态结构改变，还引起血小板黏附、聚集、收缩及释放反应。导致微血管功能及微循环血液流变学异常，使组织和器官血液灌注减少。血小板流变行为异常可使损伤进一步加重，甚至诱发播散性血管内凝血、全身炎症反应综合征、休克、多器官功能障碍综合征、肺栓塞，危及生命。因此，探讨损伤对血小板流变行为的影响，采取改善血小板流变行为的治疗措施，对进一步认识损伤机制及提高危重症救治水平有重要意义。

关键词: 血小板, 流变学, 微循环, 损伤

Platelet rheological behavior is influenced by many factors, damage is one of the common factors. Damage not only causes the change of the number and structure of platelets, causing platelet adhesion and aggregation, contraction and release reaction. It causes abnormal in terms of microvascular function and microcirculation blood rheology and it causes the tissue and organ blood perfusion decreased. Abnormal platelet rheological behavior can further aggravate the injury, and even induce disseminated intravascular coagulation, systemic inflammatory response syndrome, shock, multiple organ dysfunction syndrome, pulmonary embolism, life-threatening. Therefore, it is of great significance for us to further understand the mechanism of injury and to improve the level of treatment of critical illness, to explore the effect of injury on platelet rheological behavior, and to improve the treatment of platelet rheological behavior.

Key words: Blood platelets, Rheology, Microcirculation, Injury

1	张庆富. 烧伤后血小板流变行为及其调控研究进展[J]. 中华烧伤杂志，2014, 30(1): 56-60.
2	Midura EF, Kuethe JW, Rice TC, et al. Impact of Platelets and Platelet-Derived Microparticles on Hypercoagulability Following Burn Injury[J]. Shock, 2016, 45(1): 82-87.
3	刘泽世，周谨，刘月彩，等. 高压电烧伤对大鼠凝血功能的早期影响[J]. 中华烧伤杂志，2015, 31(3): 218-220.
4	虞俊杰，吕国忠，顾在秋，等. 重度烧伤病人血小板参数变化及影响因素分析[J]. 重庆医科大学学报，2012, 37(12): 1076-1079.
5	Krzyzanski W, Perez-Ruixo JJ, Harrold J. Pharmacodynamic model for chemoradiotherapy-induced thrombocytopenia in mice[J]. J Pharmacokinet Pharmacodyn, 2015, 42(6): 709-720.
6	Midura EF, Jernigan PL, Kuethe JW, et al. Microparticles impact coagulation after traumatic brain injury[J]. J Surg Res, 2015, 197(1): 25-31.
7	Peiniger S, Paffrath T, Mutschler M, et al. The trauma patient in hemorrhagic shock: how is the C-priority addressed between emergency and ICU admission[J]. Scand J Trauma Resusc Emerg Med, 2012, 20: 78.
8	White NJ, Martin EJ, Brophy DF, et al. Examining platelet-fibrin interactions during traumatic shock in a swine model using platelet contractile force and clot elastic modulus[J]. Blood Coagul Fibrinolysis, 2011, 22(5): 379-387.
9	Wu Q, Ren J, Hu D, et al. An elevated percentage of reticulated platelet is associated with increased mortality in septic shock patients[J]. Medicine(Baltimore), 2015, 94(19): e814.
10	Stefanini L, Bergmeier W. RAP1-GTPase signaling and platelet function[J]. J Mol Med (Berl), 2016, 94(1): 13-19.
11	Totani L, Dell′Elba G, Martelli N, et al. Prasugrel inhibits platelet-leukocyte interaction and reduces inflammatory markers in a model of endotoxic shock in the mouse[J]. Thromb Haemost, 2012, 107(6): 1130-1140.
12	Yan H, Mao Q, Ma Y, et al. Seawater Immersion Aggravates Burn Injury Causing Severe Blood Coagulation Dysfunction[J]. Biomed Res Int, 2016, 2016: 9471478.
13	Sillesen M, Johansson PI, Rasmussen LS, et al. Platelet activation and dysfunction in a large-animal model of traumatic brain injury and hemorrhage[J]. J Trauma Acute Care Surg, 2013, 74(5): 1252-1259.
14	刘泽世，呼瑞，刘二军，等. 高压电烧伤对SD大鼠血栓调节蛋白、蛋白C、蛋白S及D二聚体的早期影响[J]．实用医学杂志，2016, 32(1): 37-40.
15	Woth G, Varga A, Ghosh S, et al. Platelet aggregation in severe sepsis[J]. J Thromb Thrombolysis, 2011, 31(1): 6-12.
16	Davies GR, Mills GM, Lawrence M, et al. The role of whole blood impedance aggregometry and its utilisation in the diagnosis and prognosis of patients with systemic inflammatory response syndrome and sepsis in acute critical illness[J]. PLoS One, 2014, 9(9): e108589.
17	李欣，张庆富. 烧伤后血栓形成机制和治疗药物[J]. 微循环学杂志，2013, 23(3): 70-73.
18	Zhou HM, Xu SJ, Wang L, et al. Influences of high-voltage electrical burns on the pulmonary microcirculation in rabbits[J]. Clin Hemorheol Microcirc, 2016, 62(3): 193-203.
19	Li D, Ruan S, Hu A. The mechanism of hemorrhage following phosphorus burns and the effect of calcium gluconate[J]. Zhonghua Zheng Xing Shao Shang Wai Ke Za Zhi, 1998, 14(1): 45-48.
20	Stark RJ, Aghakasiri N, Rumbaut RE. Platelet-derived Toll-like receptor 4 (Tlr-4) is sufficient to promote microvascular thrombosis in endotoxemia[J]. PloS one, 2012, 7(7): e41254.
21	Katz JN, Kolappa KP, Becker RC. Beyond thrombosis: the versatile platelet in critical illness[J]. Chest, 2011, 139(3): 658-668.
22	Windeløv NA, Ostrowski SR, Johansson PI, et al. Circulating levels of platelet α-granule cytokines in trauma patients[J]. Inflamm Res, 2015, 64(3/4): 235-241.
23	Chen JJ, Gao Y, Tian Q, et al. Platelet factor 4 protects bone marrow mesenchymal stem cells from acute radiation injury[J]. Br J Radiol, 2014, 87(1040): 20140184.
24	Matsushita T, Lankford KL, Arroyo EJ, et al. Diffuse and persistent blood-spinal cord barrier disruption after contusive spinal cord injury rapidly recovers following intravenous infusion of bone marrow mesenchymal stem cells[J]. Exp Neurol, 2015, 267: 152-164.
25	Koerdt S, Rohleder NH, Rommel N, et al. An expression analysis of markers of radiation-induced skin fibrosis and angiogenesis in wound healing disorders of the head and neck[J]. Radiat Oncol, 2015, 10: 202.
26	Schaden E, Hoerburger D, Hacker S, et al. Fibrinogen function after severe burn injury[J]. Burns, 2012, 38(1): 77-82.
27	唐喜军，陈松，郑水华，等. 严重烧伤患者血清sP、sE-选择素的变化及其意义[J]. 实用医学杂志，2011, 27(17): 3162-3163.
28	Weis A, Bohnert M. Expression patterns of adhesion molecules P-selectin, von Willebrand factor and PECAM-1 in lungs: a comparative study in cases of burn shock and hemorrhagic shock[J]. Forensic Sci Int, 2008, 175(2/3): 102-106.
29	张庆富，魏伟，尚涛，等. 高压电烧伤对大鼠血小板/白细胞流变性的影响及己酮可可碱干预作用[J]. 中华烧伤杂志，2012, 28(6): 428-434.
30	Quick JA, Meyer JM, Coughenour JP, et al. Less Is More: Low-dose Prothrombin Complex Concentrate Effective in Acute Care Surgery Patients[J]. Am Surg, 2015, 81(6): 646-650.

[1]	李亚龙, 王星童, 申传安. 异体富血小板血浆在创面修复中的临床应用进展[J/OL]. 中华损伤与修复杂志(电子版), 2024, 19(06): 541-545.
[2]	王振宇, 张洪美, 荆琳, 何名江, 闫奇. 膝骨关节炎相关炎症因子与血浆代谢物间的因果关系及中介效应[J/OL]. 中华损伤与修复杂志(电子版), 2024, 19(06): 467-473.
[3]	李友, 唐林峰, 杜伟伟, 刘海亮, 余新水, 沈佳宇, 巨积辉. 皮瓣联合掌长肌腱折叠单排三点式固定治疗指背侧创面伴锤状指畸形的临床效果观察[J/OL]. 中华损伤与修复杂志(电子版), 2024, 19(06): 485-490.
[4]	雷子威, 凌萍, 沈纵, 魏晨如, 朱邦晖, 伍国胜, 孙瑜. 类器官肺损伤疾病模型构建及应用的研究进展[J/OL]. 中华损伤与修复杂志(电子版), 2024, 19(06): 531-535.
[5]	韩萌萌, 冯雪园, 马宁. 乳腺癌改良根治术后桡神经损伤1例[J/OL]. 中华普外科手术学杂志(电子版), 2025, 19(01): 117-118.
[6]	张洁, 罗小霞, 余鸿. 系统性免疫炎症指数对急性胰腺炎患者并发器官功能损伤的预测价值[J/OL]. 中华普外科手术学杂志(电子版), 2025, 19(01): 68-71.
[7]	孟令凯, 李大勇, 王宁, 王桂明, 张炳南, 李若彤, 潘立峰. 袖状胃切除术对肥胖伴2型糖尿病大鼠的作用及机制研究[J/OL]. 中华普外科手术学杂志(电子版), 2024, 18(06): 638-642.
[8]	王学虎, 赵渝. 复杂腹壁疝手术中血管损伤并发症的预防和处理[J/OL]. 中华疝和腹壁外科杂志(电子版), 2024, 18(06): 616-619.
[9]	周正阳, 陈凯, 仇多良, 邵乐宁, 吴浩荣, 钟丰云. 腹腔镜腹股沟疝修补术后出血原因分析及处理[J/OL]. 中华疝和腹壁外科杂志(电子版), 2024, 18(06): 660-664.
[10]	孙璐, 蒋亚玲, 陈凌君. 布托啡诺对脑缺血再灌注损伤大鼠神经炎症和JAK2/STAT3信号通路的影响[J/OL]. 中华细胞与干细胞杂志(电子版), 2024, 14(06): 344-350.
[11]	刘敏思, 李荣, 李媚. 基于GGT与Plt比值的模型在HBV相关肝细胞癌诊断中的作用[J/OL]. 中华肝脏外科手术学电子杂志, 2024, 13(06): 831-835.
[12]	张龙, 孙善柯, 徐伟, 李文柱, 李俊达, 池涌泉, 何广胜, 成峰, 王学浩, 饶建华. 腹腔镜脾切除治疗血液系统疾病的临床疗效分析[J/OL]. 中华肝脏外科手术学电子杂志, 2024, 13(06): 870-875.
[13]	于同, 矫健航, 姜炜博, 王中汉, 王洋, 伍旭辉, 吴敏飞. 体位复位与椎板切除减压内固定术治疗胸腰段爆裂性骨折的对比性研究[J/OL]. 中华老年骨科与康复电子杂志, 2024, 10(06): 331-339.
[14]	沈炎, 张俊峰, 唐春芳. 预后营养指数结合血清降钙素原、胱抑素C及视黄醇结合蛋白对急性胰腺炎并发急性肾损伤的预测价值[J/OL]. 中华消化病与影像杂志(电子版), 2024, 14(06): 536-540.
[15]	颜世锐, 熊辉. 感染性心内膜炎合并急性肾损伤患者的危险因素探索及死亡风险预测[J/OL]. 中华临床医师杂志(电子版), 2024, 18(07): 618-624.

阅读次数

全文

摘要

选择文件类型/文献管理软件名称

选择包含的内容

Role of platelet rheological behavior in injury repair

模态框（Modal）标题

选择文件类型/文献管理软件名称

选择包含的内容

Role of platelet rheological behavior in injury repair