Clinical Evaluation of Cardiac Output Estimation Based on Pulse Wave Transit Time

University of California, San Francisco39 enrolled

Overview

The specific aim of this study is to assess whether a device approved by the FDA to measure pulse oximetry can accurately estimate cardiac output.

We will compare three methods for measuring cardiac output: esCCO, PAC, and ECOM. Cardiac output is an important physiological parameter that must be monitored closely during surgery and during an Intensive Care Unit (ICU) stay. The use of a pulmonary artery catheter (PAC) has been the gold standard for accurate cardiac output (CO) measurement. This method requires a catheter to be inserted into the pulmonary artery and cardiac output is indicated by the speed that a temperature gradient dissipates. While the use of the pulmonary artery catheter is widespread, inserting the pulmonary artery catheter is risky, time consuming and requires a high level of skill. For these reasons, new devices have been developed to measure cardiac output. A second method typically used is called ECOM (Endotracheal Cardiac Output Monitor). A device is inserted into the patient's throat that calculates cardiac output by measuring how electricity moves through the patient's chest. The third method, estimated Continuous Cardiac Output (esCCO), uses sensors placed on the patient's finger, arm and chest to calculate Pulse Wave Transit Time (PWTT); the time it takes for the heart beat pulse to travel through the patient's body. The esCCO system is FDA approved for safety and efficacy to measure noninvasive blood pressure and pulse oximetry. The purpose of this study is to assess whether the PSTT calculation provides a cardiac output measure that is comparable to the other methods. This study is sponsored by Nihon Kohden Corporation who owns and manufactures the esCCO system.

Study Type

INTERVENTIONAL

Allocation

Purpose

DIAGNOSTIC

Masking

SINGLE

Enrollment

Conditions

Myocardial Infarction Myocardial Ischemia

Interventions

Pulmonary Artery Catheter (PAC)DEVICE

A catheter is inserted into the pulmonary artery, through the internal jugular vein; cardiac output is indicated by the speed that a temperature gradient dissipates.

Endotracheal Cardiac Output Monitor (ECOM)DEVICE

An FDA-approved medical device is inserted into the patient's throat; cardiac output is calculated by measuring how electricity moves through the chest.

Estimated Continuous Cardiac Output (esCCO)DEVICE

Sensors are placed on the arm, finger and leg to calculate Pulse Wave Transit Time (PWTT); the time it takes for the pulse of the heartbeat to travel through the body.

Eligibility

Sex: ALLMin age: 19 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Patients undergoing surgery where cardiac output will be measured with PAC and ECOM. Exclusion Criteria: * Failure to obtain consent.

Locations (2)

San Francisco VA Medical Center

San Francisco, California, United States

Drexel University

Philadelphia, Pennsylvania, United States

Outcomes

Primary Outcomes

esCCO (Estimated Continuous Cardiac Output) Monitor

6 Measurements of cardiac output derived from pulse oximeter measurements using the esCCO system were taken at each time point. The measurements deemed valid under the criteria in the protocol were averaged to represent the reference value at that point. The mean and standard deviation reported consist of the reference values from all time points measured. Data for this test were taken at the following timepoints: 1\. Start of Sterenotomy; 2. Before Bypass; 3. 30 Min after bypass; 4. Closure; 5. ICU arrival; 6. 6 hours in ICU; 7. 12 Hours in ICU; 8. 18 Hours in ICU (if PAC still in); 9. 24 Hours in ICU (If PAC still in)

Time frame: During and after surgery, up to 24 hours

PAC (Pulmonary Artery Catheter).

Measurements of cardiac output derived from a PAC (pulmonary artery catheter) using the standard thermodilution technique. At each time point, at least 6 measurements were taken. If, in the opinion of the clinician taking the readings, some of these were in error, more readings were taken to ensure accuracy. In no case were more than 18 readings taken. The points deemed valid by the clinician were averaged to obtain the reference value for that time point. The mean and standard deviation reported consisted of the reference values from all time points measured. Data for this test were taken at the following timepoints: 1\. Start of Sterenotomy; 2. Before Bypass; 3. 30 Min after bypass; 4. Closure; 5. ICU arrival; 6. 6 hours in ICU; 7. 12 Hours in ICU; 8. 18 Hours in ICU (if PAC still in); 9. 24 Hours in ICU (If PAC still in)

Time frame: During and post-surgery, up to 24 hours

Cardiac Output as Measured by ECOM

Measurements of cardiac output derived from the Endotracheal Cardiac Output Monitor (ECOM): An FDA-approved medical device is inserted into the patient's throat; cardiac output is calculated by measuring how electricity moves through the chest.

Time frame: During and post-surgery, up to 8 hours

Data from ClinicalTrials.gov

This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.