Dynamic variations of bio-impedance measured cardiac output using non pharmacologic intervention (sitting position, passive leg rising and valsalva maneuver) could be used to detect acute heart failure in patients admitted to the ED for dyspnea.
Acute heart failure (AHF) is a frequent condition in emergency basis and is responsible of a big number of admissions, complications, and deaths. despite advances in diagnostic techniques, AHF diagnosis still difficult and cost not effective. Measurement of cardiac output (CO) is used as a way to evaluate global cardiac function and changes in CO may be used to identify a change in the hemodynamic status of a patient. the gold standard of measuring CO is thermodilution catheterization, however this is an invasive technique that poses a risk to the patient. Impedance cardiography (ICG) is a noninvasive method for measuring CO. it is performed by applying small electrical current to the chest, and through electrodes placed on the neck and sides. the pulsatile flow of blood causes fluctuations in the current, and the device calculates CO from the impedance waveform. In practice, the investigators connect the device "BIOPAC" by using four electrodes which the investigators place on the base of the neck (posterior face) and on the base of the thorax (posterior face). The ECG recording is taken simultaneously with two other electrodes placed at the right upper limb and left lower limb. In addition to detecting the electric current and the ECG, heart sounds are recorded using a sensor that is placed at the mitral site. The various curves are displayed simultaneously and stored for analysis. Subjects were first placed in the semi sitting position 30°, and after 5 minutes had cardiac output measurements performed. (CO1) A second cardiac output measurement was performed after 5 min of seated position. (C02) Patients were then placed in the initial position, and after an additional 5 minutes had cardiac output measurements performed. (CO1') A third set of measurement was obtained during 45° passive leg raising at 1 to 2 minutes.(CO3) Patients were then placed in the initial position, and after an additional 5 minutes had cardiac output measurements performed. (CO1'') During a Valsalva maneuver the investigators took the fourth cardiac output measurement. (CO4) Patients were then placed in the initial position, and after an additional 5 minutes had cardiac output measurements performed. (CO1''') Dynamic variations on bio-impedance measured CO using non pharmacologic intervention (sitting position, passive leg rising and Valsalva maneuver) could be used to detect AHF in patients admitted to the ED for dyspnea.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
DOUBLE
Enrollment
290
patient is put in a 30 degree supine position during 5 minutes
patient is put to a 90 degree sitting position during 1 to 2 minutes then the CO is measured
patients are asked to perform the Valsalva maneuver by executing a forced blow into a manometer for 30 seconds and the CO is calculated during this test.
Emergency Department
Monastir, Tunisia
Cardiac output rate measured by ICG before and during maneuvers in acute dyspneic patients between the AHF and non AHF groups
The diagnostic performance of each maneuver is evaluated by calculating the CO in ml/min by bio-impedance technique and compare the values between patients with and without AHF and between baseline. The diagnosis of AHF is based on clinical, biological (BNP levels), radiological (chest X-ray) and cardiac ultrasound data.
Time frame: 12 hours
In hospital death
survivor or ,ot
Time frame: up to 10 days
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we make a passive leg rising and we measure the cardiac output by BIOPAC system (45 degree passive leg rising was done for 1 to 2 minutes and CO was measured during the maneuver.)