经食管血流动力学超声心动图对创伤和烧伤患者左室大小单、二维指标的影响。

IF 3.6 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Critical Ultrasound Journal Pub Date : 2017-10-11 DOI:10.1186/s13089-017-0074-z
Duraid Younan, T Mark Beasley, David C Pigott, C Blayke Gibson, John P Gullett, Jeffrey Richey, Jean-Francois Pittet, Ahmed Zaky
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引用次数: 0

摘要

背景:传统超声心动图技术评估容量状态和心脏收缩力分别利用左室舒张末期面积(LVEDA)和分数变化面积(FAC)。我们的目标是寻找一种技术上可靠但更快速的技术,通过测量机械通气创伤和烧伤患者的左室舒张末期直径(LVEDD)和分数缩短(FS)来评估容量状态和收缩性,使用经食管超声心动图(hTEE)监测。方法:对创伤/烧伤重症监护病房(TBICU)的病历进行回顾性分析。回顾2013年7月至2015年7月期间88例机械通气外科重症监护患者的数据。收集LVEDA、左室收缩末面积(LVESA)和FAC的初始测量值。测量处理后左心室收缩末期(LVESD)和舒张末期直径(LVEDD)并计算分数缩短(FS)。在横向(Tr)和后前方(PA)方向上获得左室直径的两个正交测量值。结果:收缩期和舒张期左心室横径和后前径测量值有显著相关性。结论:在评估心脏充盈和收缩功能时,左室直径测量是一种可靠且技术上可行的替代左室面积测量方法。
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The relationship between single and two-dimensional indices of left ventricular size using hemodynamic transesophageal echocardiography in trauma and burn patients.

Background: Conventional echocardiographic technique for assessment of volume status and cardiac contractility utilizes left ventricular end-diastolic area (LVEDA) and fractional area of change (FAC), respectively. Our goal was to find a technically reliable yet faster technique to evaluate volume status and contractility by measuring left ventricular end-diastolic diameter (LVEDD) and fractional shortening (FS) in a cohort of mechanically ventilated trauma and burn patients using hemodynamic transesophageal echocardiographic (hTEE) monitoring.

Methods: Retrospective chart review performed at trauma/burn intensive care unit (TBICU). Data on 88 mechanically ventilated surgical intensive care patients cared for between July 2013 and July 2015 were reviewed. Initial measurements of LVEDA, left ventricular end-systolic area (LVESA) and FAC were collected. Post-processing left ventricular end-systolic (LVESD) and end-diastolic diameters (LVEDD) were measured and fractional shortening (FS) was calculated. Two orthogonal measurements of LV diameter were obtained in transverse (Tr) and posteroanterior (PA) orientation.

Results: There was a significant correlation between transverse and posteroanterior left ventricular diameter measurements in both systole and diastole. In systole, r = 0.92, p < 0.01 for LVESD-Tr (mean 23.47 mm, SD ± 6.77) and LVESD-PA (mean 24.84 mm, SD = 8.23). In diastole, r = 0.80, p < 0.01 for LVEDD-Tr (mean 37.60 mm, SD ± 6.45), and LVEDD-PA diameters (mean 42.24 mm, SD ± 7.97). Left ventricular area (LVEDA) also significantly correlated with left ventricular diameter LVEDD-Tr (r = 0.84, p < 0.01) and LVEDD-PA (r = 0.90, p < 0.01). Both transverse and PA measurements of fractional shortening were significantly (p < 0.0001) and similarly correlated with systolic function as measured by FAC. Bland-Altman analyses also indicated that the assessment of fractional shortening using left ventricular posteroanterior diameter measurement shows agreement with FAC.

Conclusions: Left ventricular diameter measurements are a reliable and technically feasible alternative to left ventricular area measurements in the assessment of cardiac filling and systolic function.

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Critical Ultrasound Journal
Critical Ultrasound Journal RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
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