Pentoxifylline reduces leukocyte retention in the coronary microcirculation early in reperfusion following ischemia.

L S Ritter, D S Wilson, S K Williams, J G Copeland, P F McDonagh
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引用次数: 15

Abstract

Using direct visualization techniques, we recently confirmed earlier histologic studies that leukocytes accumulate primarily in the coronary capillaries of ischemic hearts during early reperfusion. The purpose of this study was to determine if pentoxifylline (PTX) would reduce leukocyte trapping in postischemic hearts. Isolated rat hearts were subjected to 30 min of 37 degrees C, no-flow ischemia. Hearts were initially reperfused with diluted whole blood containing fluorescent leukocytes. At 5, (R5), 20, and 35 min of reperfusion, the deposition of leukocytes in the coronary capillaries and venules was observed directly using intravital fluorescence microscopy. Three groups were studied: a non-ischemic control group (group I) and postischemic groups reperfused with diluted whole blood treated with vehicle group II or PTX (5 mM; group III). Postischemic reperfusion with unactivated blood caused a significant trapping of leukocytes in coronary capillaries throughout reperfusion (R5, group I = 2.0 +/- 0.3 vs. group II = 5.7 +/- 0.6 leukocytes/capillary field, p < 0.05). The addition of PTX reduced capillary leukocyte trapping below control values throughout reperfusion (R5, group III = 1.6 +/- 0.2 leukocytes/capillary field, p < 0.05). At R5, there was no statistically significant difference in leukocyte accumulation in venules for all groups (group I = 1.5 +/- 0.6, group II = 3.2 +/- 0.4, group III = 3.3 +/- 0.4 leukocytes/100 microns venule). During the reperfusion period, leukocyte persistence in the capillaries of postischemic hearts (36%) was greater than in the venules (13%). These data indicate that early in reperfusion after myocardial ischemia, leukocyte trapping occurs primarily in the coronary capillaries. PTX reduced early leukocyte trapping in the capillaries. The results also demonstrate that during reperfusion, the mechanisms affecting capillary retention are more persistent than those in the venule. These findings suggest that attempts to attenuate the damaging potential of early leukostasis in capillaries consider the biophysical properties of the leukocyte.

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己酮茶碱在缺血后再灌注早期降低冠状动脉微循环中的白细胞潴留。
利用直接可视化技术,我们最近证实了早期的组织学研究,白细胞主要积聚在缺血心脏早期再灌注时的冠状动脉毛细血管中。本研究的目的是确定己酮茶碱(PTX)是否会减少缺血后心脏中的白细胞捕获。离体大鼠心脏37℃无血流缺血30分钟。心脏最初用含有荧光白细胞的稀释全血再灌注。在再灌注5、(R5)、20和35 min时,用活体荧光显微镜直接观察冠状动脉毛细血管和小静脉中白细胞的沉积情况。研究分为三组:非缺血对照组(I组)和缺血后再灌注稀释全血、载药组II组或PTX组(5 mM;缺血后再灌注非活化血导致冠状动脉毛细血管中白细胞在再灌注过程中被明显捕获(R5, I组= 2.0 +/- 0.3 vs. II组= 5.7 +/- 0.6白细胞/毛细血管场,p < 0.05)。在整个再灌注过程中,PTX的加入使毛细血管白细胞捕获量低于对照组(R5, III组= 1.6 +/- 0.2个白细胞/毛细血管场,p < 0.05)。R5时,各组小静脉白细胞积累量(I组= 1.5 +/- 0.6,II组= 3.2 +/- 0.4,III组= 3.3 +/- 0.4)差异无统计学意义。在再灌注期间,缺血后心脏毛细血管中的白细胞持久性(36%)大于小静脉(13%)。这些数据表明,在心肌缺血后再灌注早期,白细胞捕获主要发生在冠状动脉毛细血管中。PTX减少了早期白细胞在毛细血管中的捕获。结果还表明,在再灌注过程中,影响毛细血管滞留的机制比影响小静脉滞留的机制更持久。这些发现表明,试图减弱早期毛细血管白细胞停滞的破坏性潜能时,应考虑白细胞的生物物理特性。
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