Investigation of percentage changes in pulse wave transit time induced by mini-fluid challenges to predict fluid responsiveness in ventilated dogs.

Journal of veterinary emergency and critical care (San Antonio, Tex. : 2001) Pub Date : 2019-07-01 Epub Date: 2019-06-20 DOI:10.1111/vec.12860

Hiroki Sano, Masako Fujiyama, Paul Wightman, Nick J Cave, Mike A Gieseg, Craig B Johnson, Paul Chambers

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引用次数: 4

Abstract

Objective: To investigate whether percentage changes in pulse wave transit time (PWTT%Δ) induced by mini-fluid challenges predict fluid responsiveness in mechanically ventilated anesthetized dogs.

Design: Prospective experimental trial.

Setting: University teaching hospital.

Animals: Twelve Harrier hounds.

Intervention: Each dog was anesthetized with propofol and isoflurane after premedication with acepromazine, mechanically ventilated, and had a fluid challenge. This was repeated 4 weeks later. The fluid challenge, 10 mL/kg of colloid administration over 13 minutes, consisted of 3 intermittent mini-fluid challenges (1 mL/kg of each over a minute) with a minute interval, and the remaining colloid administration (7 mL/kg) over 7 minutes.

Measurements and main results: Percentage change in velocity time integral of pulmonary arterial flow by echocardiography was calculated as an indication of change in stroke volume. Fluid responsiveness was defined as percentage change in velocity time integral ≥ 15% after 10 mL/kg colloid. Dogs responded on 14 fluid challenges and did not on 10. After 1, 2, 3, and 10 mL/kg of fluid challenge, PWTT%Δ_{1, 2, 3, 10} were measured. Receiver operator characteristic (ROC) curves were generated and areas under ROC curve were calculated for PWTT%Δ_{1, 2, 3} . A gray zone approach was used to identify the clinically inconclusive range. The area under the ROC curve for PWTT%Δ₃ was 0.91 (P = 0.001). Cutoff value for PWTT%Δ₃ was -2.5% (sensitivity: 86%, specificity: 90%). The gray zone for PWTT%Δ₃ was identified as between -2.9% to -1.9% for which fluid responsiveness could not be predicted reliably in 6 out of 24 fluid challenges.

Conclusions: In mechanically ventilated anesthetized dogs given a mini-fluid challenge of 3 mL/kg of colloid, PWTT%Δ could predict fluid responsiveness although the gray zone should be considered.

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研究微流体刺激引起的脉冲波传递时间百分比变化，以预测通气犬的流体反应性。

目的:探讨微流体刺激引起的脉搏波传递时间百分比变化(PWTT%Δ)能否预测机械通气麻醉犬的液体反应。设计:前瞻性实验试验。单位:大学教学医院。动物:12只鹞式猎犬。干预:每只狗在预用药乙酰丙嗪后用异丙酚和异氟醚麻醉，机械通气，并进行液体刺激。4周后重复了这一实验。13分钟内注射10 mL/kg胶体，包括3次间歇注射(1分钟内每次注射1 mL/kg)，间隔1分钟，剩余的胶体注射(7 mL/kg)持续7分钟。测量结果和主要结果:通过超声心动图计算肺动脉血流速度时间积分的百分比变化，作为脑卒中容量变化的指示。流体响应性定义为10 mL/kg胶体后速度时间积分变化百分比≥15%。狗对14次液体挑战有反应，10次没有反应。在1、2、3和10 mL/kg的液体冲击后，测量PWTT%Δ1、2、3、10。生成Receiver operator characteristic (ROC)曲线，并计算PWTT%Δ1, 2,3的ROC曲线下面积。灰色地带的方法被用来确定临床不确定的范围。PWTT%Δ3的ROC曲线下面积为0.91 (P = 0.001)。PWTT%Δ3的临界值为-2.5%(敏感性为86%，特异性为90%)。PWTT%Δ3的灰色区域在-2.9%至-1.9%之间，在24次流体挑战中有6次无法可靠预测流体响应性。结论:对机械通气麻醉犬给予3 mL/kg胶体的微量液体刺激，PWTT%Δ可以预测液体反应，但需要考虑灰色地带。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of veterinary emergency and critical care (San Antonio, Tex. : 2001)

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