Evaluation of Cardiac Hemodynamic Modifications During Temporary Left Atrial Appendage Occlusion

Not Applicable

Completed

• Conditions: Cardiac Surgery
• Interventions: Device: Transesophageal echocardiogram; Device: Thermistor-tipped catheter; Device: Pressure/volume catheter; Device: Transthoracic echocardiography

• Registration Number: NCT02814851
• Lead Sponsor: Brugmann University Hospital

Brief Summary

The left atrium appendage (LAA) is a remnant of the original embryonic left atrium formed during the third week of gestation. LAA is believed to function as a decompression chamber during left ventricular systole and other periods when left atrial pressure is elevated. The LAA is also a major endocrine organ and is the main producer of ANP (atrial natriuretic peptide) in the human heart. The ANP concentration is 40 times higher in the LAA walls than in the rest of the atrial wall. A study of patients having undergone the maze procedure and associated LAA removal found a significantly lower ANP secretion and an increase in salt and water retention. Whether this could eventually lead to hypertension or heart failure symptoms is not known.

Removal of the LAA is routinely performed during antiarrhythmic surgical techniques ("MAZE surgery") to reduce the risk of subsequent LAA thrombus. Furthermore, new percutaneous ablation techniques target LAA to reduce further risks of atrial fibrilation recurrences. However, in addition to effects on diastolic atrial function and atrial natriuretic peptide (ANP) secretion, this could potentially reduce stroke volume and cardiac output and may thus promote heart failure. Its removal could be particularly detrimental in patients with existing heart failure and high intraatrial pressure, as it would further promote pulmonary congestion and also reduce their cardiac output.

The study will be conducted at the CHU Brugmann Hospital, with collaboration between cardiac surgery and cardiology wards. Subjects referred for non valvular cardiac surgery will be prospectively included during the first 6 months following the onset of the protocol. Echocardiographic and invasive data will be collected simultaneously.

The goals of the study are:

* To evaluate the immediate impact of temporary closure of the LAA using a vascular clamp in the beating heart of human subjects during cardiac surgery. Impact of LAA occlusion will be measured using transesophageal echocardiography and hemodynamic measurement of the cardiac output.

* To correlate echocardiographic parameters with in situ hemodynamic data.

A significant role of the LAA in the cardiac hemodynamic including the left ventricle outflow might have different clinical implications and will raise questions about:

* Appropriateness of LAA resection in antiarrhythmic surgery

* Importance of restoring sinus rhythm in atrial fibrilation patients

* Importance to spare LAA from ablation during atrial fibrilation ablation to avoid significant consequences on cardiac function.

* Appropriateness of the LAA occluding device in atrial fibrillation patients.

Detailed Description

Not available

Study Timeline

• Study First Submitted: 2016-04-20
• Study First Submitted QC: 2016-06-23
• Study First Posted: 2016-06-28
• Study Start: 2016-08-01
• Primary Completion: 2018-05-28
• Study Completion: 2018-05-28
• Status Verified: 2019-04
• Last Update Submitted: 2019-04-16
• Last Update Posted: 2019-04-17

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 20

Inclusion Criteria

• Aortic valve stenosis suitable to surgery
• Left Atrium<50 mm in the parasternal long axis view
• Sinus rhythm at the time of patient's inclusion and during the procedure

Exclusion Criteria

• Hypertrophic cardiomyopathy (diastolic septal thickness > 15mm).
• Heart failure with Left Ventricule Ejection Fraction < 45%.
• Significant mitral regurgitation/stenosis
• Significant aortic regurgitation
• History of atrial fibrillation
• Presence of prosthetic valves
• Complex congenital heart disease

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Non valvular cardiac surgery	Thermistor-tipped catheter	The study will be conducted at the CHU Brugmann Hospital, with collaboration between cardiac surgery and cardiology wards. Subjects referred for non valvular cardiac surgery will be prospectively included during the first 6 months following the onset of the protocol.
Non valvular cardiac surgery	Pressure/volume catheter	The study will be conducted at the CHU Brugmann Hospital, with collaboration between cardiac surgery and cardiology wards. Subjects referred for non valvular cardiac surgery will be prospectively included during the first 6 months following the onset of the protocol.
Non valvular cardiac surgery	Transthoracic echocardiography	The study will be conducted at the CHU Brugmann Hospital, with collaboration between cardiac surgery and cardiology wards. Subjects referred for non valvular cardiac surgery will be prospectively included during the first 6 months following the onset of the protocol.
Non valvular cardiac surgery	Transesophageal echocardiogram	The study will be conducted at the CHU Brugmann Hospital, with collaboration between cardiac surgery and cardiology wards. Subjects referred for non valvular cardiac surgery will be prospectively included during the first 6 months following the onset of the protocol.

Primary Outcome Measures

Name	Time	Method
Left atrium dP/dt max	5 minutes after LAA clamping	Fluid-filled catheter-derived pressures will be zero-referenced at mid-chest level and processed using disposable transducers (Baxter-Bentley, Uden, the Netherlands) and a Sirecust 404 monitoring system (Siemens, Erlangen, Germany). Micromanometer-derived pressures and conductance catheter data will be processed using a Leicom INCA intracardiac monitor (CD Leycom, Zoetermeer, Netherlands). All pressures and volume signals will be digitalized at 200 Hz and stored in a PC for off-line analysis.
Left atrium output	5 minutes after LAA clamping	Fluid-filled catheter-derived pressures will be zero-referenced at mid-chest level and processed using disposable transducers (Baxter-Bentley, Uden, the Netherlands) and a Sirecust 404 monitoring system (Siemens, Erlangen, Germany). Micromanometer-derived pressures and conductance catheter data will be processed using a Leicom INCA intracardiac monitor (CD Leycom, Zoetermeer, Netherlands). All pressures and volume signals will be digitalized at 200 Hz and stored in a PC for off-line analysis. The cardiac output will be measured by thermodilution (REF-1 computer, Edwards, Irvine, CA).
Left ventricle (LV) dP/dt max	Baseline (before LAA clamping)	Fluid-filled catheter-derived pressures will be zero-referenced at mid-chest level and processed using disposable transducers (Baxter-Bentley, Uden, the Netherlands) and a Sirecust 404 monitoring system (Siemens, Erlangen, Germany). Micromanometer-derived pressures and conductance catheter data will be processed using a Leicom INCA intracardiac monitor (CD Leycom, Zoetermeer, Netherlands). All pressures and volume signals will be digitalized at 200 Hz and stored in a PC for off-line analysis.
Left atrium (LA) dP/dt max	Baseline (before LAA clamping)	Fluid-filled catheter-derived pressures will be zero-referenced at mid-chest level and processed using disposable transducers (Baxter-Bentley, Uden, the Netherlands) and a Sirecust 404 monitoring system (Siemens, Erlangen, Germany). Micromanometer-derived pressures and conductance catheter data will be processed using a Leicom INCA intracardiac monitor (CD Leycom, Zoetermeer, Netherlands). All pressures and volume signals will be digitalized at 200 Hz and stored in a PC for off-line analysis.
Left atrium contractility index (dP/dt max)/P	5 minutes after LAA clamping	Fluid-filled catheter-derived pressures will be zero-referenced at mid-chest level and processed using disposable transducers (Baxter-Bentley, Uden, the Netherlands) and a Sirecust 404 monitoring system (Siemens, Erlangen, Germany). Micromanometer-derived pressures and conductance catheter data will be processed using a Leicom INCA intracardiac monitor (CD Leycom, Zoetermeer, Netherlands). All pressures and volume signals will be digitalized at 200 Hz and stored in a PC for off-line analysis.
Left ventricle dP/dt max	5 minutes after LAA clamping	Fluid-filled catheter-derived pressures will be zero-referenced at mid-chest level and processed using disposable transducers (Baxter-Bentley, Uden, the Netherlands) and a Sirecust 404 monitoring system (Siemens, Erlangen, Germany). Micromanometer-derived pressures and conductance catheter data will be processed using a Leicom INCA intracardiac monitor (CD Leycom, Zoetermeer, Netherlands). All pressures and volume signals will be digitalized at 200 Hz and stored in a PC for off-line analysis.
Left ventricle output	5 minutes after LAA clamping	Fluid-filled catheter-derived pressures will be zero-referenced at mid-chest level and processed using disposable transducers (Baxter-Bentley, Uden, the Netherlands) and a Sirecust 404 monitoring system (Siemens, Erlangen, Germany). Micromanometer-derived pressures and conductance catheter data will be processed using a Leicom INCA intracardiac monitor (CD Leycom, Zoetermeer, Netherlands). All pressures and volume signals will be digitalized at 200 Hz and stored in a PC for off-line analysis. The cardiac output will be measured by thermodilution (REF-1 computer, Edwards, Irvine, CA).
LV contractility index (dP/dt max)/P	5 minutes after LAA clamping	Fluid-filled catheter-derived pressures will be zero-referenced at mid-chest level and processed using disposable transducers (Baxter-Bentley, Uden, the Netherlands) and a Sirecust 404 monitoring system (Siemens, Erlangen, Germany). Micromanometer-derived pressures and conductance catheter data will be processed using a Leicom INCA intracardiac monitor (CD Leycom, Zoetermeer, Netherlands). All pressures and volume signals will be digitalized at 200 Hz and stored in a PC for off-line analysis. LV contractility will be estimated from the slope of the end-systolic pressure-volume relation.
Occluded pulmonary arterial pressure (Ppao)	5 minutes after LAA clamping	Fluid-filled catheter-derived pressures will be zero-referenced at mid-chest level and processed using disposable transducers (Baxter-Bentley, Uden, the Netherlands) and a Sirecust 404 monitoring system (Siemens, Erlangen, Germany). Micromanometer-derived pressures and conductance catheter data will be processed using a Leicom INCA intracardiac monitor (CD Leycom, Zoetermeer, Netherlands). All pressures and volume signals will be digitalized at 200 Hz and stored in a PC for off-line analysis.

Secondary Outcome Measures

Name	Time	Method
TVI (Aortic Time-Velocity Integral) of the emptying pulse wave of the LAA (left atrium appendage)	5 minutes after LAA clamping	Transgastric or deep transgastric aortic Pulse Wave Doppler. 2C ME 90° measure
Area fractional shortening (AFS) of the left atrium appendage (LAA)	5 minutes after LAA clamping	Transesophageal echocardiography data (Acuson Sequoia system - Siemens AG, Germany). Computed with the following formula: AFS 2CME90°= (Amax-Amin)/Amax.
Amplitude of the mitral A wave	5 minutes after LAA clamping	Amplitude A wave: measured with DTI (Tissue Doppler ) 4C ME 0° lateral ring
Stroke volume	5 minutes after LAA clamping	Transesophageal echocardiography data (Acuson Sequoia system - Siemens AG, Germany). Computed with the following formula: Stroke volume= 3,14D²\*Aortic PW TVI /4, where D is the LVOT (left ventricular outflow tract) diameter in A3C.
TVI (Aortic Time-Velocity Integral) of the left upper pulmonary vein (LUPV)	5 minutes after LAA clamping	Measured by aortic Pulse Wave (PW) Doppler flow
Ejection volume of the LAA (left atrium appendage)	5 minutes after LAA clamping	Transesophageal echocardiography data (Acuson Sequoia system - Siemens AG, Germany). Computed with the following formula: LAA ejection volume= 3,14\*D1\*D2\*TVI PW LAA/4, where D1 and D2 are the diameters of the opening of the LAA at 0° and 90°
Amplitude of the emptying pulse wave of the LAA (left atrium appendage)	5 minutes after LAA clamping	Transesophageal echocardiography data (Acuson Sequoia system - Siemens AG, Germany). 2C ME 90° measure

Trial Locations

Locations (1)

CHU Brugmann; 🇧🇪 Brussels, Belgium