OBJECTIVE(S): To evaluate the measurement of cardiac output (CO) using continuous electrical bioimpedance cardiography (Physioflow; Neumedx, Philadelphia, PA) (CO(PF)) with a simultaneous direct Fick measurement (CO(FICK)) in children with congenital heart disease. DESIGN: A prospective cohort study comparing 2 methods of measurement of CO. SETTING: A quaternary university-affiliated pediatric hospital. PARTICIPANTS: Children undergoing cardiac catheterization for clinical care. INTERVENTIONS: The Physioflow measured continuous real time CO in 15-second epochs and simultaneous measurement of cardiac output by direct Fick (with mass spectrometry to assess VO(2)) were acquired. MEASUREMENTS AND MAIN RESULTS: Sixty-five patients were recruited, and data from 56 (25 males) were adequate for analysis. The median age at study was 3.5 years (range, 0.4-16.6 years), and the median body surface area was 0.62 m(2) (range, 0.31-1.71). There were 25 of 56 (45%) with univentricular physiology. A total of 19,228 Physioflow data points were available for the analysis of which 14,569 (76%) were valid; 96% of the invalid measurements were identified as artifacts by the device. The average cardiac index of valid measurements was 3.09 ± 0.72 L/min/m(2). Compared with the Fick CO, the mean bias was -0.09 L/min, but the 95% limits of agreement were -3.20 to +3.01 L/min/m(2). Consequently, only 20 of 56 (36%) of measurements were within 20%, and 31 of 56 (55%) of measurements were within 30% of each other. CONCLUSIONS: Compared with measurements made by direct Fick, CO measured using the Physioflow device was unreliable in anesthetized children with congenital heart disease.
OBJECTIVE(S): To evaluate the measurement of cardiac output (CO) using continuous electrical bioimpedance cardiography (Physioflow; Neumedx, Philadelphia, PA) (CO(PF)) with a simultaneous direct Fick measurement (CO(FICK)) in children with congenital heart disease. DESIGN: A prospective cohort study comparing 2 methods of measurement of CO. SETTING: A quaternary university-affiliated pediatric hospital. PARTICIPANTS: Children undergoing cardiac catheterization for clinical care. INTERVENTIONS: The Physioflow measured continuous real time CO in 15-second epochs and simultaneous measurement of cardiac output by direct Fick (with mass spectrometry to assess VO(2)) were acquired. MEASUREMENTS AND MAIN RESULTS: Sixty-five patients were recruited, and data from 56 (25 males) were adequate for analysis. The median age at study was 3.5 years (range, 0.4-16.6 years), and the median body surface area was 0.62 m(2) (range, 0.31-1.71). There were 25 of 56 (45%) with univentricular physiology. A total of 19,228 Physioflow data points were available for the analysis of which 14,569 (76%) were valid; 96% of the invalid measurements were identified as artifacts by the device. The average cardiac index of valid measurements was 3.09 ± 0.72 L/min/m(2). Compared with the Fick CO, the mean bias was -0.09 L/min, but the 95% limits of agreement were -3.20 to +3.01 L/min/m(2). Consequently, only 20 of 56 (36%) of measurements were within 20%, and 31 of 56 (55%) of measurements were within 30% of each other. CONCLUSIONS: Compared with measurements made by direct Fick, CO measured using the Physioflow device was unreliable in anesthetized children with congenital heart disease.
Authors: Martin Ernst Blohm; Jana Hartwich; Denise Obrecht; Jan Felix Kersten; Dominique Singer Journal: J Clin Monit Comput Date: 2016-04-12 Impact factor: 2.502
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Authors: Sardar Ansari; Jessica R Golbus; Mohamad H Tiba; Brendan McCracken; Lu Wang; Keith D Aaronson; Kevin R Ward; Kayvan Najarian; Kenn R Oldham Journal: IEEE Sens J Date: 2020-11-03 Impact factor: 4.325
Authors: Mohammed Ebrahim; Sanjeet Hegde; Beth Printz; Mark Abcede; James A Proudfoot; Christopher Davis Journal: Pediatr Cardiol Date: 2016-08-25 Impact factor: 1.655