Baumgartner H R, Turitto V, Weiss H J
J Lab Clin Med. 1980 Feb;95(2):208-21.
The adhesion of human platelets to subendothelium of rabbit aorta and the formation of microthrombi (aggregation) were investigated in an annular chamber after perfusion of native or citrated blood at wall shear rates ranging from 650 to 3300 sec-1. Previous studies demonstrated reduced adhesion and increased thrombi with native as compared to citrated blood and suggested that thrombi grow larger and higher in native blood. In the present study, thrombus dimensions were quantified by newly developed stereological techniques. The thrombus volume per surface area of subendothelium increased with increasing shear rate and was significantly greater in native blood. At 1300 sec-1 thrombi less than 5 and less than 10 micrometers in height were more frequent in citrated blood, and those greater than 20 micrometers were much more frequent in native blood. Maximum thrombus heights were 62 +/- 7 and 71 +/- 5 micrometers in native and 17 +/- 2 and 28 +/- 4 in citrated blood at shear rates of 650 and 1300 sec-1, respectively. Surface coverage with fibrin was 30%, 11%, and 0% at shear rates of 650, 1300, and 3300 sec-1, respectively. In addition, the effects of approximately 15 and approximately 45 mM citrate (final concentration in plasma) were studied at shear rates of 200, 650, and 2600 sec-1. At a citrate concentration of approximately 45 mM aggregation was abolished, and adhesion was strongly inhibited at the highest shear rate. We conclude that citrate (1) inhibits platelet attachment kinetics, thus acting to reduce adhesion, and (2) inhibits platelet aggregation and thrombus stability, thus reducing thrombus heights, which (3) may indirectly lead to increased adhesion.
在环形腔室中,以650至3300秒⁻¹的壁面剪切速率灌注天然血液或枸橼酸盐抗凝血液后,研究了人血小板与兔主动脉内皮下层的黏附以及微血栓(聚集)的形成。先前的研究表明,与枸橼酸盐抗凝血液相比,天然血液中的黏附减少而血栓增加,并且提示天然血液中血栓生长得更大更高。在本研究中,通过新开发的体视学技术对血栓尺寸进行了量化。每单位内皮下层表面积的血栓体积随剪切速率增加而增加,并且在天然血液中显著更大。在1300秒⁻¹时,高度小于5微米和小于10微米的血栓在枸橼酸盐抗凝血液中更常见,而高度大于20微米的血栓在天然血液中更常见得多。在650和1300秒⁻¹的剪切速率下,天然血液中血栓的最大高度分别为62±7微米和71±5微米,枸橼酸盐抗凝血液中分别为17±2微米和28±4微米。在650、1300和3300秒⁻¹的剪切速率下,纤维蛋白的表面覆盖率分别为30%、11%和0%。此外,在200、650和2600秒⁻¹的剪切速率下研究了约15 mM和约45 mM枸橼酸盐(血浆中的终浓度)的作用。在枸橼酸盐浓度约为45 mM时,聚集被消除,并且在最高剪切速率下黏附受到强烈抑制。我们得出结论,枸橼酸盐(1)抑制血小板附着动力学,从而起到减少黏附的作用,并且(2)抑制血小板聚集和血栓稳定性,从而降低血栓高度,这(3)可能间接导致黏附增加。
