Evaluation of Hemodynamic Changes of the Left Ventricle Following the Use of Extracorporeal Circulation

The interpretation of perioperative measures of cardiac function during cardiac surgery is complicated. In particular, the evaluation of the diastolic compliance of the left ventricle. In addition, they are subject to variations induced by post-charge changes caused by the anesthesia, extracorporeal circulation (ECC) and the surgical procedure itself.

Left ventricular failure is frequently measured by alteration of LV contractile properties, and very rarely by alteration of LV compliance. However, both contractility (systolic) and relaxation (diastolic) parameters are important for the left ventricle to perform its function adequately. Left ventricular failure after cardiac surgery with extracorporeal circulation and cardiac arrest under cardioplegia protection is an important and frequently reported complication. The investigator's objectives are to characterize the diastolic hemodynamic mechanisms of this left ventricular failure and to identify predictors of this failure in the postoperative period.

The quantification of the systolic and diastolic functions of the left ventricle by ventricular pressure-volume curves is the technique of reference today, because it allows to determine parameters that are independent of the pre- and post-load conditions. Previous studies using the conductance catheter for the purpose of estimating left ventricular function perioperatively are rare and report conflicting results. In addition, they were mainly intended to measure the systolic function of the left ventricle. Only one reported the diastolic relaxation parameters evaluated by a conductance catheter. This study showed immediately after withdrawal of the extracorporeal circulation a significant alteration of the diastolic relaxation of the left ventricle, but was not interested in its early (kinetic) evolution peroperatively.

The investigator's experience shows that, in the quarter-hour following the weaning of the extracorporeal circulation, a decrease in filling pressures of the left ventricle concomitant with an increase in cardiac output is objectified. These observations are consistent with a significant improvement in left ventricle compliance, but have never been reported.

The objectives of this study are:

• To characterize the left ventricular diastolic failure after withdrawal of the extracorporeal circulation in coronary surgery.
• To identify the kinetics of this early diastolic failure after withdrawal of the extracorporeal circulation.

Study Overview

• Status: Completed
• Conditions: Coronary Surgery
• Intervention / Treatment: Device: Pressure/Volume Combination Catheter; Device: Transthoracic echocardiography; Device: Transesophageal echocardiogram

• Study Type: Interventional
• Enrollment (Actual): 9
• Phase: Not Applicable

Contacts and Locations

Study Locations

• Belgium
  • Brussels, Belgium, 1020
    • CHU Brugmann

Participation Criteria

Eligibility Criteria

• Ages Eligible for Study: 18 years to 80 years (Adult, Older Adult)
• Accepts Healthy Volunteers: No
• Genders Eligible for Study: All

Description

Inclusion Criteria:

• Patient of the CHU Brugmann Hospital receiving elective coronary surgery.
• Patient in sinusal rhythm before the operation and during the collection of hemodynamic data.
• Patients with conserved left ventricular function (based on left ventricular ejection fraction assessed by preoperative echocardiography and superior to 50%)

Exclusion Criteria:

• Hypertrophic cardiomyopathy (diastolic septal thickness> 15 mm)
• Heart failure with left ventricular ejection fraction <50%
• Presence of cardiac valvulopathy, concerning both right and left atrio-ventricular and ventriculo-arterial valves
• Presence of valvular prosthesis
• Congenital heart disease
• Pregnancy
• Participation to another clinical study

Study Plan

How is the study designed?

Design Details

• Primary Purpose: Prevention
• Allocation: N/A
• Interventional Model: Single Group Assignment
• Masking: None (Open Label)

Number of Arms

1

Arms and Interventions

Participant Group / Arm

Intervention / Treatment

Experimental: Elective coronary surgery; The study will be conducted at the CHU Brugmann Hospital, with collaboration between cardiac surgery and anesthesiology wards. Subjects referred for elective coronary surgery will be prospectively included during the length of the study.

Device: Pressure/Volume Combination Catheter; Hemodynamic data routinely collected and data collected by means of the placement of a Pressure/Volume Combination Catheter (Pressure/Volume Combination Catheter,Leycom,The Netherlands) will be collected simultaneously. The catheter will be placed and held in place as long as the patient is in a position to be assisted by extracorporeal circulation. This means that the placement of the catheter will follow the heparinization of the patient and the placement of the cannulas necessary for the realization of extracorporal circulation. It will be removed from the left ventricular cavity before removal of extra-corporal cannulas.; Device: Transthoracic echocardiography; A complete transthoracic echocardiography will be performed the day before the surgical procedure, as per standard of care. It will establish the presence of the inclusion and exclusion criteria and evaluate the contractile function of the left ventricle. This will be done using a Philips IE33 echocardiograph (Koninklijke Philips Electronics N.V., Netherlands).; Device: Transesophageal echocardiogram; A transesophageal echocardiogram will be performed during the cardiac surgery, as per standard of care, using an Acuson Sequoia system (Siemens AG, Germany). It will facilitate the placement of the pressure/volume combination catheter and collect echographic data.

What is the study measuring?

Primary Outcome Measures

Outcome Measure	Measure Description	Time Frame
Tele-systolic pressure of the left ventricle	Pressure within the left ventricle after the atrial contraction, at the beginning of the ventricular contraction.	Baseline (before extracorporeal circulation is switched on)
Tele-systolic pressure of the left ventricle	Pressure within the left ventricle after the atrial contraction, at the beginning of the ventricular contraction.	1 minute after extracorporeal circulation is switched on
Tele-systolic pressure of the left ventricle	Pressure within the left ventricle after the atrial contraction, at the beginning of the ventricular contraction.	1 minute after extracorporeal circulation is stopped
Tele-systolic pressure of the left ventricle	Pressure within the left ventricle after the atrial contraction, at the beginning of the ventricular contraction.	10 minutes after extracorporeal circulation is stopped
Tele-systolic pressure of the left ventricle	Pressure within the left ventricle after the atrial contraction, at the beginning of the ventricular contraction.	20 minutes after extracorporeal circulation is stopped
Diastolic pressure of the left ventricle	The pressure within the left ventricle following the completion of diastolic filling, just prior to systole.	Baseline (before extracorporeal circulation is switched on)
Diastolic pressure of the left ventricle	The pressure within the left ventricle following the completion of diastolic filling, just prior to systole.	1 minute after extracorporeal circulation is switched on
Diastolic pressure of the left ventricle	The pressure within the left ventricle following the completion of diastolic filling, just prior to systole.	1 minute after extracorporeal circulation is stopped
Diastolic pressure of the left ventricle	The pressure within the left ventricle following the completion of diastolic filling, just prior to systole.	10 minutes after extracorporeal circulation is stopped
Diastolic pressure of the left ventricle	The pressure within the left ventricle following the completion of diastolic filling, just prior to systole.	20 minutes after extracorporeal circulation is stopped
Tele-systolic volume of the left ventricle	At the end of systole, the ventricle contains a quantity of blood called 'telesystolic volume'.	Baseline
Tele-systolic volume of the left ventricle	At the end of systole, the ventricle contains a quantity of blood called 'telesystolic volume'.	1 minute after extracorporeal circulation is switched on
Tele-systolic volume of the left ventricle	At the end of systole, the ventricle contains a quantity of blood called 'telesystolic volume'.	1 minute after extracorporeal circulation is stopped
Tele-systolic volume of the left ventricle	At the end of systole, the ventricle contains a quantity of blood called 'telesystolic volume'.	10 minutes after extracorporeal circulation is stopped
Tele-systolic volume of the left ventricle	At the end of systole, the ventricle contains a quantity of blood called 'telesystolic volume'.	20 minutes after extracorporeal circulation is stopped
Diastolic volume of the left ventricle	At the end of diastole, the ventricle contains a quantity of blood called end-diastolic volume.	Baseline
Diastolic volume of the left ventricle	At the end of diastole, the ventricle contains a quantity of blood called end-diastolic volume.	1 minute after extracorporeal circulation is switched on
Diastolic volume of the left ventricle	At the end of diastole, the ventricle contains a quantity of blood called end-diastolic volume.	1 minute after extracorporeal circulation is stopped
Diastolic volume of the left ventricle	At the end of diastole, the ventricle contains a quantity of blood called end-diastolic volume.	10 minutes after extracorporeal circulation is stopped
Diastolic volume of the left ventricle	At the end of diastole, the ventricle contains a quantity of blood called end-diastolic volume.	20 minutes after extracorporeal circulation is stopped
Ejection volume of the left ventricle	The ejection volume is the difference between systolic and diastolic volume. It represents the amount of blood ejected at each contraction by the ventricle.	Baseline
Ejection volume of the left ventricle	The ejection volume is the difference between systolic and diastolic volume. It represents the amount of blood ejected at each contraction by the ventricle.	1 minute after extracorporeal circulation is switched on
Ejection volume of the left ventricle	The ejection volume is the difference between systolic and diastolic volume. It represents the amount of blood ejected at each contraction by the ventricle.	1 minute after extracorporeal circulation is stopped
Ejection volume of the left ventricle	The ejection volume is the difference between systolic and diastolic volume. It represents the amount of blood ejected at each contraction by the ventricle.	10 minutes after extracorporeal circulation is stopped
Ejection volume of the left ventricle	The ejection volume is the difference between systolic and diastolic volume. It represents the amount of blood ejected at each contraction by the ventricle.	20 minutes after extracorporeal circulation is stopped
Contractility index of the left ventricle	Computed by the following formula: (dP/dt max)/P	Baseline
Contractility index of the left ventricle	Computed by the following formula: (dP/dt max)/P	1 minute after extracorporeal circulation is switched on
Contractility index of the left ventricle	Computed by the following formula: (dP/dt max)/P	1 minute after extracorporeal circulation is stopped
Contractility index of the left ventricle	Computed by the following formula: (dP/dt max)/P	10 minutes after extracorporeal circulation is stopped
Contractility index of the left ventricle	Computed by the following formula: (dP/dt max)/P	20 minutes after extracorporeal circulation is stopped

Collaborators and Investigators

• Sponsor: Pierre Wauthy
• Investigators: Principal Investigator: Charlotte Leclercq, MD, CHU Brugmann

Study record dates

Study Major Dates

• Study Start (Actual): November 13, 2018
• Primary Completion (Actual): January 16, 2020
• Study Completion (Actual): January 16, 2020

Study Registration Dates

• First Submitted: April 17, 2019
• First Submitted That Met QC Criteria: April 18, 2019
• First Posted (Actual): April 19, 2019

Study Record Updates

• Last Update Posted (Actual): January 18, 2020
• Last Update Submitted That Met QC Criteria: January 16, 2020
• Last Verified: January 1, 2020

More Information

Terms related to this study

• Other Study ID Numbers: CHUB-Leclercq

Plan for Individual participant data (IPD)

• Plan to Share Individual Participant Data (IPD)?: NO

Drug and device information, study documents

• Studies a U.S. FDA-regulated drug product: No
• Studies a U.S. FDA-regulated device product: No