Correlation of Stroke Volume Measurement between Sonosite Portable Echocardiogram and Edwards Flotrac Sensor-Vigileo Monitor in an Intensive Care Unit.

IF 1 Q4 RESPIRATORY SYSTEM
Mehrdad Behnia, Sherry Powell, Linda Fallen, Houman Tamaddon, Masud Behnia
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引用次数: 5

Abstract

Purpose: Stroke volume (SV) is a parameter that is being recognized as an endpoint in fluid resuscitation algorithms. Its role is now being realized as an important variable in hemodynamic assessment in various clinical scenarios such as septic and cardiogenic shocks. Direct measurement of stroke volume (SV) and its novel corollary, stroke volume variation (SVV) derived by proprietary software, are preferred over mean cardiac output (CO) measurements because they render a more accurate reflection of hemodynamic status independent of heart rate. Flotrac-Vigileo monitor (FTV) (Edwards Lifesciences, Irvine, CA, USA) is a system that uses a complex algorithm analyzing arterial waveform to calculate SV, SVV, and CO. We assessed the feasibility of obtaining SV measurements with a portable echocardiogram and validated its accuracy with the FTV system in mechanically ventilated patients in our intensive care unit (ICU). Furthermore, we emphasized the importance of hemodynamic measurements and familiarity with critical care echocardiography for the intensivists.

Methods: Ten patients who were on mechanical ventilation were studied. A femoral arterial line was connected to the FTV system monitoring SV and CO. A portable echocardiogram (M-Turbo; Sonosite, Bothell, WA) was used to measure SV. CO was calculated by multiplying SV by heart rate. No patient had arrhythmia. We used biplane Simpson's method of discs to calculate SV in which subtraction of end-systolic volume from end-diastolic volume yields the SV.

Results: The comparison of simultaneous SV and CO measurements by echocardiography with FTV showed a strong correlation between the 2. (For SV, y = 0.9545x + 3.3, R (2) = 0.98 and for CO, y = 0.9104x + 7.7074, R (2) = 0.97).

Conclusions: In our small cohort, the SV and CO measured by a portable echocardiogram (Sonosite M-Turbo) appears to be closely correlated with their respective values measured by FTV. Portable echocardiography is a reliable noninvasive tool for the hemodynamic assessment of the critically ill. Its results need further validation with gold standard measures in a larger cohort of patients. However, our results suggest portable echocardiography could be an attractive tool in assessment of different hemodynamic scenarios in the critically ill.

Abstract Image

Abstract Image

Abstract Image

超声便携式超声心动图与Edwards Flotrac传感器- vigileo监护仪在重症监护病房中脑卒中容量测量的相关性。
目的:脑卒中量(SV)是流体复苏算法中公认的一个终点参数。在脓毒症和心源性休克等各种临床情况下,其作为血流动力学评估的重要变量的作用现已被认识到。直接测量脑卒中容积(SV)及其由专有软件得出的新结果,即脑卒中容积变化(SVV),比平均心输出量(CO)测量更受欢迎,因为它们能更准确地反映独立于心率的血流动力学状态。flotrace - vigileo监护仪(FTV) (Edwards Lifesciences, Irvine, CA, USA)是一种使用复杂算法分析动脉波形来计算SV、SVV和CO的系统。我们评估了用便携式超声心动图获得SV测量的可行性,并验证了FTV系统在重症监护病房(ICU)机械通气患者中的准确性。此外,我们强调了血液动力学测量和熟悉重症监护超声心动图对重症医师的重要性。方法:对10例机械通气患者进行分析。股动脉线连接FTV系统监测SV和CO。便携式超声心动图(M-Turbo;使用Sonosite, Bothell, WA)测量SV。用SV乘以心率计算CO。无一例心律失常。我们使用双翼Simpson方法计算SV,收缩末期体积减去舒张末期体积得到SV。结果:超声心动图同时测量SV和CO与FTV的比较表明,两者之间有很强的相关性。对于SV, y = 0.9545x + 3.3, R(2) = 0.98;对于CO, y = 0.9104x + 7.7074, R(2) = 0.97。结论:在我们的小队列中,便携式超声心动图(Sonosite M-Turbo)测量的SV和CO似乎与FTV测量的各自值密切相关。便携式超声心动图是一种可靠的无创工具,血流动力学评估危重病人。其结果需要在更大的患者队列中进一步验证金标准措施。然而,我们的结果表明,便携式超声心动图可能是一个有吸引力的工具,在评估不同的血流动力学情况的危重病人。
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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来源期刊
CiteScore
4.20
自引率
0.00%
发文量
9
审稿时长
8 weeks
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