A shear gradient–dependent platelet aggregation mechanism drives thrombus formation

被引:0
|
作者
Warwick S Nesbitt
Erik Westein
Francisco Javier Tovar-Lopez
Elham Tolouei
Arnan Mitchell
Jia Fu
Josie Carberry
Andreas Fouras
Shaun P Jackson
机构
[1] The Australian Centre for Blood Diseases,Department of Mechanical Engineering
[2] Monash University,Division of Biological Engineering
[3] Alfred Medical Research and Educational Precinct,undefined
[4] Microelectronics and Materials Technology Centre,undefined
[5] School of Electrical and Computer Engineering,undefined
[6] RMIT University,undefined
[7] Monash University,undefined
[8] Monash University,undefined
来源
Nature Medicine | 2009年 / 15卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Warwick Nesbitt, Erik Westein and coworkers describe a new mechanistic model for thrombus growth within a blood vessel, providing evidence that blood flow shear gradients—which can arise from vessel injury, stenosis or obstruction—are important in driving thrombus formation. Rapid changes in blood shear rates lead to dynamic restructuring of membranous structures, called 'tethers', on the platelet surface, facilitating stable platelet deposition onto a growing thrombus (pages 607–608).
引用
收藏
页码:665 / 673
页数:8
相关论文
共 50 条
  • [31] PLATELET THROMBUS FORMATION FOLLOWING FIBRINOLYTIC THERAPY IS DEPENDENT UPON SHEAR-STRESS AND VONWILLEBRAND-FACTOR
    STRONY, J
    BRANDS, D
    HANNERS, E
    ADELMAN, B
    CLINICAL RESEARCH, 1990, 38 (02): : A470 - A470
  • [32] Shear-Dependent Platelet Aggregation: Mechanisms and Therapeutic Opportunities
    Rana, Akshita
    Westein, Erik
    Niego, Be'eri
    Hagemeyer, Christoph E.
    FRONTIERS IN CARDIOVASCULAR MEDICINE, 2019, 6
  • [33] EFFECT OF TICLOPIDINE ON PLATELET-AGGREGATION, ADHERENCE TO DAMAGED VESSELS, THROMBUS FORMATION AND PLATELET SURVIVAL
    CATTANEO, M
    WINOCOUR, PD
    SOMERS, DA
    GROVES, HM
    KINLOUGHRATHBONE, RL
    PACKHAM, MA
    MUSTARD, JF
    THROMBOSIS RESEARCH, 1985, 37 (01) : 29 - 43
  • [34] AN INDEPENDENT HEMOSTATIC MECHANISM - SHEAR INDUCED PLATELET-AGGREGATION
    OBRIEN, JR
    SALMON, GP
    THROMBOSIS AND HAEMOSTASIS, 1989, 62 (01) : 258 - 258
  • [35] Erratum: CalDAG-GEFI integrates signaling for platelet aggregation and thrombus formation
    Jill R Crittenden
    Wolfgang Bergmeier
    Yanyu Zhang
    Crystal L Piffath
    Yuqiong Liang
    Denisa D Wagner
    David E Housman
    Ann M Graybiel
    Nature Medicine, 2004, 10 : 1139 - 1139
  • [36] The effects of PPAR-γ ligand pioglitazone on platelet aggregation and arterial thrombus formation
    Li, DY
    Chen, K
    Sinha, N
    Zhang, XJ
    Wang, Y
    Sinha, AK
    Romeo, F
    Mehta, JL
    CARDIOVASCULAR RESEARCH, 2005, 65 (04) : 907 - 912
  • [37] Pannexin-1 Activation by Phosphorylation Is Crucial for Platelet Aggregation and Thrombus Formation
    Metz, Lisa Maria
    Elvers, Margitta
    INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2022, 23 (09)
  • [38] NIFEDIPINE INHIBITS SPONTANEOUS INVIVO THROMBUS FORMATION DUE TO PLATELET-AGGREGATION
    BENEDICT, CR
    SORDAHL, LA
    CIRCULATION, 1985, 72 (04) : 195 - 195
  • [39] A metal organic framework reduces thrombus formation and platelet aggregation ex vivo
    Roberts, Teryn R.
    Neufeld, Megan J.
    Meledeo, Michael A.
    Cap, Andrew P.
    Cancio, Leopoldo C.
    Reynolds, Melissa M.
    Batchinsky, Andriy I.
    JOURNAL OF TRAUMA AND ACUTE CARE SURGERY, 2018, 85 (03): : 572 - 579
  • [40] Serglycin proteoglycan deletion induces defects in platelet aggregation and thrombus formation in mice
    Woulfe, Donna S.
    Lilliendahl, Joanne Klimas
    August, Shelley
    Rauova, Lubica
    Kowalska, M. Anna
    Abrink, Magnus
    Pejler, Gunnar
    White, James G.
    Schick, Barbara P.
    BLOOD, 2008, 111 (07) : 3458 - 3467
12345