Elevated Left Atrial Pressure Clinical Trial
— POGETOOfficial title:
Perioperative and Non-invasive Estimation of Mean Left Atrial Pressure From Transesophageal Echocardiography Measures of Pulmonary Vein Diameter and Collapsibility in Cardiac Surgery: a Prospective Study
| Verified date | October 2021 |
| Source | University Hospital, Montpellier |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Observational |
Left atrial pressure (LAP) is a crucial hemodynamic parameter during cardiac surgery. Elevated LAP leads to pulmonary edema and other cardiopulmonary complications. The pulmonary capillary wedge pressure (PCWP) measured by a pulmonary arterial catheter (PAC) is the gold-standard method to estimate LAP. However, the placement of a PAC is an invasive procedure associated with adverse events. Transesophagial echocardiophy (TEE) is a non-invasive method to estimate LAP during cardiac surgery. Pulsed Doppler mitral flow, pulmonary vein flow, tricuspid regurgitation peak flow and left atrial volume are validated parameters to estimate LAP. Nevertheless, these parameters are not always valid in cardiac surgery, mainly because of mitral valve pathology or prothesis. As the diameter and collapsibility of inferior vena cava is the recommended method for non-invasive right atrial pressure assessment in patients under mechanical ventilation, the investigators made the hypothesis that diameter and collapsibility of the pulmonary veins could be an additional method to estimate LAP during cardiac surgery. This has never been investigated in cardiology or cardiac surgery. In this prospective study, pulmonary vein diameter and collapsibility will be correlated to invasive PCWP to assess LAP perioperatively in 30 patients undergoing cardiac surgery
| Status | Completed |
| Enrollment | 30 |
| Est. completion date | September 20, 2021 |
| Est. primary completion date | September 1, 2021 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 18 Years and older |
| Eligibility | Inclusion Criteria: - Patients aged of 18 years or more, - Scheduled for an elective cardiac surgery at the Montpellier University Hospital, - Requiring a pulmonary arterial catheter monitoring due to the complexity of cardiac surgery or severe cardiopulmonary comorbidities. Exclusion Criteria: - Failure of the pulmonary artery catheterization, - Failure of PCWP measurement, - Failure of TEE measure of the left upper pulmonary vein diameter and collapsibility, - Refusal to participate expressed secondarily. Non-inclusion criteria : - Cardiac transplantation, - Left ventricule assist device, - Pulmonary vein stenosis, - Contraindications to TEE or PAC, - Refusal to participate, - Patient under juridical protection |
| Country | Name | City | State |
|---|---|---|---|
| France | Uh Montpellier | Montpellier |
| Lead Sponsor | Collaborator |
|---|---|
| University Hospital, Montpellier |
France,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | left upper pulmonary vein diameter (in millimeters) measured by transesophageal echocardiography, compared to the contemporary measure of left atrial pressure by pulmonary arterial catheter. | The left upper pulmonary vein (LUPV), which enters the left atrium (LA) just lateral to the LA appendix (LAA) from an anterior to posterior trajectory, can be examined in the mid-esophageal (ME) view at 40 - 60° by slightly withdrawing and turning the probe to the left to expose the superior and lateral aspect of the LA (where the LAA is seen). The LUPV is superior (in the display) to the LAA and separated by the Coumadin ridge.
Maximal and minimal LUPV diameters will be measured (using a 10 cycle video-loop) and the collapsibility index will be calculated as the ratio : (maximum diameter ¬¬- minimum diameter) / (maximum diameter). These echocardiographic views are part of the standard TEE exam and performed with Philips® Epiq™ 7 ultrasound machines. |
Pre-cardiopulmonary bypass (15 min before bypass) | |
| Primary | left upper pulmonary vein diameter (in millimeters) measured by transesophageal echocardiography, compared to the contemporary measure of left atrial pressure by pulmonary arterial catheter. | The left upper pulmonary vein (LUPV), which enters the left atrium (LA) just lateral to the LA appendix (LAA) from an anterior to posterior trajectory, can be examined in the mid-esophageal (ME) view at 40 - 60° by slightly withdrawing and turning the probe to the left to expose the superior and lateral aspect of the LA (where the LAA is seen). The LUPV is superior (in the display) to the LAA and separated by the Coumadin ridge.
Maximal and minimal LUPV diameters will be measured (using a 10 cycle video-loop) and the collapsibility index will be calculated as the ratio : (maximum diameter ¬¬- minimum diameter) / (maximum diameter). These echocardiographic views are part of the standard TEE exam and performed with Philips® Epiq™ 7 ultrasound machines. |
Post-cardiopulmonary bypass (15 min after bypass) | |
| Primary | left upper pulmonary vein diameter (in millimeters) measured by transesophageal echocardiography, compared to the contemporary measure of left atrial pressure by pulmonary arterial catheter. | The left upper pulmonary vein (LUPV), which enters the left atrium (LA) just lateral to the LA appendix (LAA) from an anterior to posterior trajectory, can be examined in the mid-esophageal (ME) view at 40 - 60° by slightly withdrawing and turning the probe to the left to expose the superior and lateral aspect of the LA (where the LAA is seen). The LUPV is superior (in the display) to the LAA and separated by the Coumadin ridge.
Maximal and minimal LUPV diameters will be measured (using a 10 cycle video-loop) and the collapsibility index will be calculated as the ratio : (maximum diameter ¬¬- minimum diameter) / (maximum diameter). These echocardiographic views are part of the standard TEE exam and performed with Philips® Epiq™ 7 ultrasound machines. |
One hour postoperatively in ICU | |
| Secondary | Measurement of the other pulmonary vein diameters | Measurement of the other pulmonary vein diameters (in millimeter) : left lower, right upper, right lower pulmonary veins. | Pre-cardiopulmonary bypass (15 min before bypass) | |
| Secondary | Measurement of the other pulmonary vein diameters | Measurement of the other pulmonary vein diameters (in millimeter) : left lower, right upper, right lower pulmonary veins. | Post-cardiopulmonary bypass (15 min after bypass) | |
| Secondary | Measurement of the other pulmonary vein diameters | Measurement of the other pulmonary vein diameters (in millimeter) : left lower, right upper, right lower pulmonary veins. | One hour postoperatively in ICU | |
| Secondary | Calculation of collapsibility indexes of left upper and right upper pulmonary veins | Calculation of collapsibility indexes of left upper and right upper pulmonary veins. NB: collapsibility index = (maximal diameter - minimal diameter) / (maximal diameter)
- Mitral annulus velocities by Tissue Doppler Imaging. Calculation of collapsibility indexes of left upper and right upper pulmonary veins. NB: collapsibility index = (maximal diameter - minimal diameter) / (maximal diameter) |
Pre-cardiopulmonary bypass (15 min before bypass) | |
| Secondary | Calculation of collapsibility indexes of left upper and right upper pulmonary veins | Calculation of collapsibility indexes of left upper and right upper pulmonary veins. NB: collapsibility index = (maximal diameter - minimal diameter) / (maximal diameter)
- Mitral annulus velocities by Tissue Doppler Imaging. Calculation of collapsibility indexes of left upper and right upper pulmonary veins. NB: collapsibility index = (maximal diameter - minimal diameter) / (maximal diameter) |
Post-cardiopulmonary bypass (15 min after bypass) | |
| Secondary | Calculation of collapsibility indexes of left upper and right upper pulmonary veins | Calculation of collapsibility indexes of left upper and right upper pulmonary veins. NB: collapsibility index = (maximal diameter - minimal diameter) / (maximal diameter)
- Mitral annulus velocities by Tissue Doppler Imaging. Calculation of collapsibility indexes of left upper and right upper pulmonary veins. NB: collapsibility index = (maximal diameter - minimal diameter) / (maximal diameter) |
One hour postoperatively in ICU | |
| Secondary | Measurement of the other echocardiographic parameters estimating the LAP or the left ventricle diastolic function | Measurement of the other echocardiographic parameters estimating the LAP or the left ventricle diastolic function : LUPV Doppler flow (S wave, D wave, Ar wave, expressed in m/s), Pulsed Doppler mitral flow (E wave, Am wave, expressed in m/s, E/A ratio, difference Ar -Am), Mitral annulus velocities by Tissue Doppler Imaging (e' velocity, a' velocity, exressed in cm/s), Left atrial area (cm2) and left atrial volume (ml), Left atrial 2D-strain (expressed in negative percentage), Tricuspid regurgitation maximal velocity (in m/s), isovolumic relaxation time (in ms) | Pre-cardiopulmonary bypass (15 min before bypass) | |
| Secondary | Measurement of the other echocardiographic parameters estimating the LAP or the left ventricle diastolic function | Measurement of the other echocardiographic parameters estimating the LAP or the left ventricle diastolic function : LUPV Doppler flow (S wave, D wave, Ar wave, expressed in m/s), Pulsed Doppler mitral flow (E wave, Am wave, expressed in m/s, E/A ratio, difference Ar -Am), Mitral annulus velocities by Tissue Doppler Imaging (e' velocity, a' velocity, exressed in cm/s), Left atrial area (cm2) and left atrial volume (ml), Left atrial 2D-strain (expressed in negative percentage), Tricuspid regurgitation maximal velocity (in m/s), isovolumic relaxation time (in ms) | Post-cardiopulmonary bypass (15 min after bypass) | |
| Secondary | Measurement of the other echocardiographic parameters estimating the LAP or the left ventricle diastolic function | Measurement of the other echocardiographic parameters estimating the LAP or the left ventricle diastolic function : LUPV Doppler flow (S wave, D wave, Ar wave, expressed in m/s), Pulsed Doppler mitral flow (E wave, Am wave, expressed in m/s, E/A ratio, difference Ar -Am), Mitral annulus velocities by Tissue Doppler Imaging (e' velocity, a' velocity, exressed in cm/s), Left atrial area (cm2) and left atrial volume (ml), Left atrial 2D-strain (expressed in negative percentage), Tricuspid regurgitation maximal velocity (in m/s), isovolumic relaxation time (in ms) | One hour postoperatively in ICU |