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In one previous study, esCCO was compared with continuous thermodilution CO (TDCO), measurements in 36 postoperative cardiac surgery patients, showing a bias (mean difference) of -0.06 and a precision (1 SD) of 0.82 L/min. In addition, esCCO was compared with intermittent bolus TDCO, showing a correlation coefficient of 0.82 (P < 0.001, n = 24), a bias of -0.63, and a precision of 1.01 L/min (n = 119). The results of clinical use of esCCO suggest that its measurement accuracy is comparable to the thermodilution method in general population. However, no any intraoperative comparison for cardiac surgery patients was reported before. This study is designed for the accuracy in the patients undergoing cardiac surgery.
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Determination of cardiac output (CO) is often desirable for assessing a patient's hemodynamic condition during the surgery requiring cardiopulmonary bypass. However, the current methods of continuous CO measurement are still based on invasive technique, such as thermodilution via pulmonary artery catheter (Swan-Ganz), transpulmonary thermodilution via PiCCO kit, or pulse contour analysis via arterial line (FloTrac or PiCCO). Noninvasive CO measurement to all patients is currently impractical, because most measurement methods available are based on invasive techniques. However, two developing trends for this kind of monitor had occurred. There are one shifting toward noninvasive technologies and the other trend toward continuous measurement rather than intermittent measurement. Therefore, continuous CO (CCO) monitoring with less invasive would be desirable.
The pulse contour method is one of the technologies used for min-invasive monitoring of CO. It is based on the relationship between arterial blood pressure and stroke volume and has been greatly improved since early 1950s. Arterial waveform-based CO is frequently used in current medical practice, but it still requires arterial puncture. Pulse wave transit time has been proven to have good correlation with stroke volume. Pulse wave transit time consists of a pre-ejection period, pulse wave transit time through the artery, and pulse wave transit time through the peripheral arteries, which compensates for the effect of changes in systemic vascular resistance (SVR). Based on the relationship between pulse wave transit time and stroke volume, the noninvasive device, estimated CCO (esCCO), via measuring electrocardiogram (ECG), pulse oximeter wave, and arterial blood pressure had been developed by Sugo et al.. It has the great advantage to simplify CO measurement by combining the results of these familiar noninvasive monitoring techniques. Thus, it may be a useful technique for optimizing medical treatment.
In one previous study, esCCO was compared with continuous thermodilution CO (TDCO), measurements in 36 postoperative cardiac surgery patients, showing a bias (mean difference) of -0.06 and a precision (1 SD) of 0.82 L/min. In addition, esCCO was compared with intermittent bolus TDCO, showing a correlation coefficient of 0.82 (P < 0.001, n = 24), a bias of -0.63, and a precision of 1.01 L/min (n = 119). The results of clinical use of esCCO suggest that its measurement accuracy is comparable to the thermodilution method in general population. However, no any intraoperative comparison for cardiac surgery patients was reported before. This study is designed for the accuracy in the patients undergoing cardiac surgery.
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