脓毒症会损害微血管自动调节功能，并延迟缺氧毛细血管内的毛细血管反应。

Sepsis impairs microvascular autoregulation and delays capillary response within hypoxic capillaries.

作者信息

Bateman Ryon M, Sharpe Michael D, Jagger Justin E, Ellis Christopher G

机构信息

Department of Medical Biophysics, University of Western Ontario, London, ON, Canada.

Department of Biochemistry, Keio University School of Medicine, Tokyo, Japan.

出版信息

Crit Care. 2015 Nov 5;19:389. doi: 10.1186/s13054-015-1102-7.

DOI:10.1186/s13054-015-1102-7

PMID:26537126

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4634189/

Abstract

INTRODUCTION

The microcirculation supplies oxygen (O2) and nutrients to all cells with the red blood cell (RBC) acting as both a deliverer and sensor of O2. In sepsis, a proinflammatory disease with microvascular complications, small blood vessel alterations are associated with multi-organ dysfunction and poor septic patient outcome. We hypothesized that microvascular autoregulation-existing at three levels: over the entire capillary network, within a capillary and within the erythrocyte-was impaired during onset of sepsis. This study had three objectives: 1) measure capillary response time within hypoxic capillaries, 2) test the null hypothesis that RBC O2-dependent adenosine triphosphate (ATP) efflux was not altered by sepsis and 3) develop a framework of a pathophysiological model.

METHODS

This was an animal study, comparing sepsis with control, set in a university laboratory. Acute hypotensive sepsis was studied using cecal ligation and perforation (CLP) with a 6-hour end-point. Rat hindlimb skeletal muscle microcirculation was imaged, and capillary RBC supply rate (SR = RBC/s), RBC hemoglobin O2 saturation (SO2) and O2 supply rate (qO2 = pLO2/s) were quantified. Arterial NOx (nitrite + nitrate) and RBC O2-dependent ATP efflux were measured using a nitric oxide (NO) analyzer and gas exchanger, respectively.

RESULTS

Sepsis increased capillary stopped-flow (p = 0.001) and increased plasma lactate (p < 0.001). Increased plasma NOx (p < 0.001) was related to increased capillary RBC supply rate (p = 0.027). Analysis of 30-second SR-SO2-qO2 profiles revealed a shift towards decreased (p < 0.05) O2 supply rates in some capillaries. Moreover, we detected a three- to fourfold increase (p < 0.05) in capillary response time within hypoxic capillaries (capillary flow states where RBC SO2 < 20 %). Additionally, sepsis decreased the erythrocyte's ability to respond to hypoxic environments, as normalized RBC O2-dependent ATP efflux decreased by 62.5 % (p < 0.001).

CONCLUSIONS

Sepsis impaired microvascular autoregulation at both the individual capillary and erythrocyte level, seemingly uncoupling the RBC acting as an "O2 sensor" from microvascular autoregulation. Impaired microvascular autoregulation was manifested by increased capillary stopped-flow, increased capillary response time within hypoxic capillaries, decreased capillary O2 supply rate and decreased RBC O2-dependent ATP efflux. This loss of local microvascular control was partially off-set by increased capillary RBC supply rate, which correlated with increased plasma NOx.

摘要

引言

微循环为所有细胞提供氧气（O₂）和营养物质，红细胞（RBC）既是O₂的输送者，也是O₂的传感器。脓毒症是一种伴有微血管并发症的促炎疾病，小血管改变与多器官功能障碍及脓毒症患者的不良预后相关。我们推测，在脓毒症发作期间，存在于三个水平的微血管自动调节功能——整个毛细血管网络、单个毛细血管以及红细胞内——受到了损害。本研究有三个目标：1）测量缺氧毛细血管内的毛细血管反应时间；2）检验脓毒症不会改变红细胞依赖O₂的三磷酸腺苷（ATP）外流这一无效假设；3）建立一个病理生理模型框架。

方法

这是一项在大学实验室进行的动物研究，将脓毒症组与对照组进行比较。采用盲肠结扎穿孔术（CLP）研究急性低血压性脓毒症，终点时间为6小时。对大鼠后肢骨骼肌微循环进行成像，并量化毛细血管红细胞供应率（SR = 红细胞数/秒）、红细胞血红蛋白O₂饱和度（SO₂）和O₂供应率（qO₂ = pLO₂/秒）。分别使用一氧化氮（NO）分析仪和气体交换器测量动脉血中的NOx（亚硝酸盐 + 硝酸盐）和红细胞依赖O₂的ATP外流。

结果

脓毒症增加了毛细血管停流（p = 0.001）并增加了血浆乳酸水平（p < 0.001）。血浆NOx增加（p < 0.001）与毛细血管红细胞供应率增加相关（p = 0.027）。对30秒的SR - SO₂ - qO₂曲线分析显示，一些毛细血管的O₂供应率向降低方向偏移（p < 0.05）。此外，我们检测到缺氧毛细血管（红细胞SO₂ < 20%的毛细血管血流状态）内的毛细血管反应时间增加了三到四倍（p < 0.05）。此外，脓毒症降低了红细胞对缺氧环境的反应能力，因为标准化的红细胞依赖O₂的ATP外流减少了62.5%（p < 0.001）。

结论

脓毒症在单个毛细血管和红细胞水平均损害了微血管自动调节功能，似乎使作为“O₂传感器”的红细胞与微血管自动调节功能解耦。微血管自动调节功能受损表现为毛细血管停流增加、缺氧毛细血管内的毛细血管反应时间增加、毛细血管O₂供应率降低以及红细胞依赖O₂的ATP外流减少。局部微血管控制的这种丧失部分被毛细血管红细胞供应率增加所抵消，后者与血浆NOx增加相关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d745/4634189/024e57623bd3/13054_2015_1102_Fig1_HTML.jpg

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脓毒症会损害微血管自动调节功能，并延迟缺氧毛细血管内的毛细血管反应。

Sepsis impairs microvascular autoregulation and delays capillary response within hypoxic capillaries.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

引言

方法

结果

结论

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