Cardiac output (CO) monitoring is often required for clinical evaluation and management in critically ill patients and during anesthesia. There are many methods to measure CO. Fick-based CO estimation (Fick-CO) is one of the most commonly used methods, while thermodilution (TD-CO) is viewed as golden standard. But Fick-CO is still widely used, especially in catheterization laboratories and pediatric cardiologic department, whose patients often with congenital heart disease. Multiple studies from the 1960s find a strong correlation between TD-CO and Fick-CO. However, more recent studies reject the conclusion. Since Fick-CO is the ratio of oxygen consumption (V'O2) to the arteriovenous difference in oxygen content, many parameters are included in the Fick equation, such as V'O2, hemoglobin (Hb), arterial oxygen saturation (SaO2), mixed venous oxygen saturation (SvO2), partial pressure of arterial oxygen (PaO2), and mixed venous oxygen tension (PvO2). Any changes of each parameter may influence the accuracy of Fick-CO calculation. This may be the reason why it remains controversial whether Fick-CO and TD-CO are interchangeable or not. Although there are lots of studies comparing Fick-CO and TD-CO, discussing the impact of V'O2 on Fick-CO, how the other parameters influence the final CO estimation are rarely focused. Therefore, the purpose of this study was to assess the influence of FIO2 on PaO2, SvO2, PvO2, and the accuracy of Fick-CO in cardiac surgery patients.
Patients who are aged ≥20 years, are undergoing planned elective cardiac surgery, and provided signed informed consent are included in the present study. Any patients with cardiac arrhythmia or an intra-cardiac shunt are excluded. The patients are randomly assigned to 2 groups: FIO2 \<70% or FIO2 \>90%. And during the surgery, the oximeter values are kept ≥98%. Intra-operatively, FIO2, PaO2, SvO2, PvO2, Hb, and TD-CO are recorded.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
SINGLE
Enrollment
24
Different group receives different (70% vs. 90%) fraction of inspired oxygen (FIO2) during the surgery.
The Hemoglobin Values in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will collect hemoglobin data in each patient.
Time frame: 5 minutes before surgical incision
The Hemoglobin Values in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will collect hemoglobin data in each patient.
Time frame: 5 minutes after finishing protamine infusion
The Oxygen Consumption in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will calculate oxygen consumption in each patient.
Time frame: 5 minutes before surgical incision
The Oxygen Consumption in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will calculate oxygen consumption in each patient.
Time frame: 5 minutes after finishing protamine infusion
The SaO2 in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will record SaO2 data in each patient.
Time frame: 5 minutes before surgical incision
The SaO2 in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will record SaO2 data in each patient.
Time frame: 5 minutes after finishing protamine infusion
The SvO2 in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will record SvO2 data in each patient.
Time frame: 5 minutes before surgical incision
The SvO2 in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will record SvO2 data in each patient.
Time frame: 5 minutes after finishing protamine infusion
The PaO2 in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will record PaO2 data in each patient.
Time frame: 5 minutes before surgical incision
The PaO2 in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will record PaO2 data in each patient.
Time frame: 5 minutes after finishing protamine infusion
The PvO2 in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will record PvO2 data in each patient.
Time frame: 5 minutes before surgical incision
The PvO2 in Different FIO2 Groups during Cardiac Surgeries
The patients were divided into two FIO2 groups (FIO2 \>90% or \<70%) during the surgery. We will record PvO2 data in each patient.
Time frame: 5 minutes after finishing protamine infusion
The Precision of Fick-based Cardiac Output in Different FIO2 Groups during Cardiac Surgeries
After collecting the elements data included in the Fick eqaution (oxygen consumption, hemoglobin, SaO2, SvO2, PaO2, and PvO2), we can calculate the Fick-based cardiac output in each patient. And the pulmonary artery thermodilution is adopted as the standard cardiac output monitoring method. We will calculate the correlation and level of agreement between Fick-based cardiac output and pulmonary artery thermodilution in the two groups.
Time frame: 5 minutes before surgical incision
The Precision of Fick-based Cardiac Output in Different FIO2 Groups during Cardiac Surgeries
After collecting the elements data included in the Fick eqaution (oxygen consumption, hemoglobin, SaO2, SvO2, PaO2, and PvO2), we can calculate the Fick-based cardiac output in each patient. And the pulmonary artery thermodilution is adopted as the standard cardiac output monitoring method. We will calculate the correlation and level of agreement between Fick-based cardiac output and pulmonary artery thermodilution in the two groups.
Time frame: 5 minutes after finishing protamine infusion
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