兔子体内去甲肾上腺素的全身压力-流量反应性：内毒素和液体负荷的影响。

Systemic pressure-flow reactivity to norepinephrine in rabbits: impact of endotoxin and fluid loading.

作者信息

Ricard-Hibon A, Losser M R, Kong R, Beloucif S, Teisseire B, Payen D

机构信息

Département d'Anesthésie-Réanimation, Centre Hospitalier Universitaire Lariboisière, Assistance Publique-Hôpitaux de Paris, France.

出版信息

Intensive Care Med. 1998 Sep;24(9):959-66. doi: 10.1007/s001340050696.

DOI:10.1007/s001340050696

PMID:9803333

Abstract

OBJECTIVE

This study aimed to evaluate the impact of fluid loading on hemodynamics and vascular hypocontractility to norepinephrine (NE) in an endotoxic shock model.

DESIGN

Mean arterial pressure (MAP), aortic blood flow velocity (AoV, 20 MHz Doppler) and aortic conductance (AoC = AoV/MAP) were studied during 180 min (T0-T180) in 41 anesthetized and ventilated rabbits.

INTERVENTIONS

Shock was induced by a 600 micrograms/kg bolus injection of endotoxin. Fluid loading (20 ml/kg colloids) was infused from T90 to T120. Dose-response curves to NE were performed at T0, T60 and T120 in endotoxic and non-endotoxic animals with or without fluid loading.

MEASUREMENTS AND RESULTS

Endotoxin decreased pressure (-23%, p < 0.05) and flow (-42%, p < 0.05) corresponding to a decrease in conductance (-19%, p < 0.05). Fluid loading did not improve hypotension but markedly increased systemic flow (+51%, p < 0.01), corresponding to a hyperkinetic syndrome. Vascular reactivity to NE was impaired after endotoxin at T60 since the pressure response to NE was depressed (p < 0.01) and flow did not decrease. In non-fluid-loaded groups, the pressure response to NE recovered at T120, with no reduction in flow. In fluid-loaded endotoxic animals, however, the pressure response to NE was still impaired at T120 (p < 0.05), but with a decrease in flow.

CONCLUSIONS

Fluid loading transformed the hypodynamic profile of endotoxic shock into a hyperdynamic state without improving blood pressure. Depressed vascular reactivity to NE was observed in both hyperdynamic and hypodynamic states, suggesting that a reduced vascular reactivity does not necessarily imply systemic vasodilation.

摘要

目的

本研究旨在评估在内毒素休克模型中液体负荷对血流动力学及血管对去甲肾上腺素（NE）反应性降低的影响。

设计

对41只麻醉并通气的兔子在180分钟（T0 - T180）内研究平均动脉压（MAP）、主动脉血流速度（AoV，20 MHz多普勒）和主动脉传导率（AoC = AoV/MAP）。

干预措施

通过静脉推注600微克/千克内毒素诱导休克。在T90至T120期间输注液体负荷（20毫升/千克胶体）。在T0、T60和T120对有或无液体负荷的内毒素血症和非内毒素血症动物进行NE剂量反应曲线实验。

测量与结果

内毒素使压力降低（-23%，p < 0.05）和血流降低（-42%，p < 0.05），相应地传导率降低（-19%，p < 0.05）。液体负荷未改善低血压，但显著增加全身血流（+51%，p < 0.01），对应高动力综合征。在T60时内毒素血症后血管对NE的反应性受损，因为对NE的压力反应降低（p < 0.01）且血流未减少。在未进行液体负荷的组中，对NE的压力反应在T120时恢复，血流无减少。然而，在进行液体负荷的内毒素血症动物中，在T120时对NE的压力反应仍受损（p < 0.05），但血流减少。

结论

液体负荷将内毒素休克的低动力状态转变为高动力状态，但未改善血压。在高动力和低动力状态下均观察到血管对NE的反应性降低，表明血管反应性降低不一定意味着全身血管舒张。

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Crit Care Med. 1994 Mar;22(3):465-9. doi: 10.1097/00003246-199403000-00017.

Hemodynamic effects of dopamine, norepinephrine, and fluids in a dog model of sepsis.多巴胺、去甲肾上腺素和液体在脓毒症犬模型中的血流动力学效应。

Am J Physiol. 1995 Feb;268(2 Pt 2):H692-702. doi: 10.1152/ajpheart.1995.268.2.H692.

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兔子体内去甲肾上腺素的全身压力-流量反应性：内毒素和液体负荷的影响。

Systemic pressure-flow reactivity to norepinephrine in rabbits: impact of endotoxin and fluid loading.

作者信息

机构信息

出版信息

OBJECTIVE

DESIGN

INTERVENTIONS

MEASUREMENTS AND RESULTS

CONCLUSIONS

目的

设计

干预措施

测量与结果

结论

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