中性粒细胞浸润减少可预防移植后的肺再灌注损伤。
Reduced neutrophil infiltration protects against lung reperfusion injury after transplantation.
作者信息
Ross S D, Tribble C G, Gaughen J R, Shockey K S, Parrino P E, Kron I L
机构信息
Department of Surgery, University of Virginia Health Sciences Center, Charlottesville 22908, USA.
出版信息
Ann Thorac Surg. 1999 May;67(5):1428-33; discussion 1434. doi: 10.1016/s0003-4975(99)00248-9.
BACKGROUND
There is evidence that lung ischemia reperfusion injury is a result of the activation of components of the inflammatory cascade. However, the role of neutrophils in lung reperfusion injury continues to be a source of controversy.
METHODS
Using an isolated, whole blood-perfused, ventilated rabbit lung model, we sought to characterize the pattern of reperfusion injury and investigate the contribution of neutrophils to this injury. Donor rabbits underwent lung harvest after pulmonary arterial prostaglandin E1 injection and Euro-Collins preservation solution flush. Group I lungs (n = 8) were immediately reperfused without ischemic storage. Group II lungs (n = 8) were stored for 18 h at 4 degrees C before reperfusion. Group III lungs (n = 10) underwent 18 h of ischemic storage and were reperfused with whole blood that was first passed through a leukocyte-depleting filter. All lungs were reperfused for 2 h.
RESULTS
Arterial oxygenation in group III progressively improved, and was significantly higher than that of group II after 2 h of reperfusion (272.58+/-58.97 vs 53.58+/-5.34 mm Hg, p = 0.01). Both pulmonary artery pressure and pulmonary vascular resistance were significantly reduced in group III when compared with group II (27.85+/-1.45 vs 44.15+/-4.77 mm Hg, p = 0.002; and 30,867+/-2,323 vs 52,775+/-6,386 dynes x sec x cm(-5), p = 0.003, respectively). Microvascular permeability in group III lungs was reduced to 73.98+/-6.15 compared with 117.16+/-12.78 ng Evans blue dye/g tissue in group II (p = 0.005). Group III myeloperoxidase activity was 56.92+/-6.31 deltaOD/g/min compared with 102.84+/-10.41 delta0d/g/min in group II (p = 0.002).
CONCLUSIONS
Leukocyte depletion of the blood reperfusate protects against microvascular permeability and significantly improves pulmonary graft function. The neutrophil plays a major role in amplifying lung injury later during reperfusion, and this lung ischemia reperfusion injury may be reversed through the interruption of the inflammatory cascade and the interference with neutrophil infiltration.
背景
有证据表明,肺缺血再灌注损伤是炎症级联反应成分激活的结果。然而,中性粒细胞在肺再灌注损伤中的作用仍然存在争议。
方法
我们使用一种离体的、全血灌注、通气的兔肺模型,试图描述再灌注损伤的模式,并研究中性粒细胞对这种损伤的作用。供体兔在肺动脉注射前列腺素E1并经Euro-Collins保存液冲洗后进行肺摘取。第一组肺(n = 8)立即进行再灌注,无缺血保存。第二组肺(n = 8)在4℃下保存18小时后再灌注。第三组肺(n = 10)进行18小时的缺血保存,然后用首先通过白细胞去除滤器的全血进行再灌注。所有肺均再灌注2小时。
结果
第三组的动脉氧合逐渐改善,再灌注2小时后明显高于第二组(272.58±58.97对53.58±5.34mmHg,p = 0.01)。与第二组相比,第三组的肺动脉压和肺血管阻力均显著降低(27.85±1.45对44.15±4.77mmHg,p = 0.002;以及30867±2323对52775±6386达因×秒×厘米⁻⁵,p = 0.003)。第三组肺的微血管通透性降至73.98±6.15,而第二组为117.16±12.78ng伊文思蓝染料/克组织(p = 0.005)。第三组的髓过氧化物酶活性为56.92±6.31ΔOD/克/分钟,而第二组为102.84±10.41Δ0d/克/分钟(p = 0.002)。
结论
再灌注血液中的白细胞去除可防止微血管通透性增加,并显著改善肺移植功能。中性粒细胞在再灌注后期放大肺损伤中起主要作用,这种肺缺血再灌注损伤可通过中断炎症级联反应和干扰中性粒细胞浸润而逆转。
Zotero 插件