Heart Failure Clinical Trial
— COMMENCEOfficial title:
ProspeCtive, nOn-randoMized, MulticENter Clinical Evaluation of Edwards Pericardial Aortic and Mitral Bioprostheses (Models 11000A and 11000M) With a New Tissue Treatment Platform (COMMENCE)
Verified date | January 2024 |
Source | Edwards Lifesciences |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
The objective of this trial is to confirm that the modifications to tissue processing, valve sterilization and packaging do not raise any new questions of safety and effectiveness in subjects who require replacement of their native or prosthetic aortic or mitral valve.
Status | Active, not recruiting |
Enrollment | 777 |
Est. completion date | August 2026 |
Est. primary completion date | August 2017 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years and older |
Eligibility | Eligibility Criteria: Inclusion Criteria: 1. Is 18 years or older 2. Provides written informed consent prior to trial procedures 3. Agrees to attend all follow-up assessments for up to 5 years and is willing to comply with specified follow-up evaluations at clinical investigational sites that are participating in the COMMENCE trial and/or obtain the protocol-specified diagnostic tests at centers that are under the same IRB or the same healthcare system 4. Diagnosed with aortic or mitral valve disease requiring valve replacement based on pre- operative evaluation 5. Scheduled to undergo planned aortic or mitral valve replacement with or without concomitant bypass surgery 6. Scheduled to undergo planned aortic valve replacement with or without resection and replacement of the ascending aorta from the sinotubular junction and without the need for circulatory arrest for hemi arch or arch replacement Exclusion criteria: A subject meeting any of the following criteria shall be excluded: 1. Requires emergency surgery 2. Requires planned multiple valve replacement/ repair (with the exception of mitral valve replacement with tricuspid valve repair) 3. Has prior valve surgery, which included implant of a bioprosthetic valve, mechanical valve, or annuloplasty ring that will remain in situ 4. Requires a surgical procedure outside of the cardiac area (e.g. vascular bypass) 5. Requires surgical replacement of the aortic root 6. Has active endocarditis/myocarditis or endocarditis/myocarditis within 3 months to the scheduled aortic or mitral valve replacement surgery 7. Has renal insufficiency as determined by creatinine (S-Cr) level = 2.5 mg/dL or end -stage renal disease requiring chronic dialysis at screening visit 8. Has MRI or CT scan confirmed stroke, cerebrovascular accident (CVA) or transient ischemic attack (TIA) within 6 months (180 days) prior to planned valve surgery 9. Has acute myocardial infarction (MI) within 30 days prior to planned valve surgery 10. Has presence of non-cardiac disease limiting life expectancy to less than 12 months 11. Diagnosed with hypertrophic obstructive cardiomyopathy (HOCM) 12. Diagnosed with abnormal calcium metabolism and hyperparathyroidism 13. Exhibits left ventricular ejection fraction = 20% as validated by diagnostic procedure prior to planned valve surgery 14. Echocardiographic evidence of an intra-cardiac mass, thrombus, or vegetation 15. Hemodynamic or respiratory instability requiring inotropic support, mechanical circulatory support, or mechanical ventilation within 30 days prior to planned valve surgery 16. Documented leukopenia (WBC < 3.5x 10³/µL), acute anemia (Hgb < 10.0 gm/dL or 6 mmol/L) or thrombocytopenia (platelet count < 50x 10³/µL) accompanied by history of bleeding diathesis and coagulopathy 17. Has prior organ transplant or is currently an organ transplant candidate 18. Current or recent participation (within 6 weeks prior to surgery) in another drug or device trial 19. Was previously implanted with trial device (Model 11000A or Model 11000M) 20. Pregnant (female subject of childbearing potential only), lactating or planning to become pregnant during the duration of participation in trial 21. Currently incarcerated or unable to give voluntary informed consent 22. Documented history of substance (drug or alcohol) abuse within the last 5 years prior to implant 23. Requires concomitant left ventricular assist device (LVAD) placement |
Country | Name | City | State |
---|---|---|---|
Canada | Institut Universitaire de Cardiologie et de Pneumologie de Québec | Quebec | |
Poland | Krakowski Szpital Specjalistyczny im. Jana Pawla II | Krakow | |
Poland | The Cardinal Stefan Wyszynski Institute of Cardiology | Warsaw | |
United States | Emory University Hospital Midtown | Atlanta | Georgia |
United States | University of Maryland, Baltimore | Baltimore | Maryland |
United States | Cardiology, P.C. | Birmingham | Alabama |
United States | Cleveland Clinic Foundation | Cleveland | Ohio |
United States | OhioHealth Research Institute | Columbus | Ohio |
United States | The Ohio State University Wexner Medical Center | Columbus | Ohio |
United States | Shands at the University of Florida | Gainesville | Florida |
United States | Spectrum Health Hospital | Grand Rapids | Michigan |
United States | Baylor College of Medicine | Houston | Texas |
United States | Michael E. DeBakey VA Medical Center | Houston | Texas |
United States | St. Vincent Heart Center of Indiana | Indianapolis | Indiana |
United States | University of Kansas Medical Center | Kansas City | Kansas |
United States | University of Southern California | Los Angeles | California |
United States | Pinnacle Health Cardiovascular Institute | Mechanicsburg | Pennsylvania |
United States | St. Thomas Health | Nashville | Tennessee |
United States | Yale-New Haven | New Haven | Connecticut |
United States | Icahn School of Medicine at Mount Sinai | New York | New York |
United States | Mount Sinai Morningside | New York | New York |
United States | New York Presbyterian Hospital - Columbia University Medical Center | New York | New York |
United States | New York Weill Cornell Medical Center | New York | New York |
United States | Florida Hospital | Orlando | Florida |
United States | Hospital of the University of Pennsylvania | Philadelphia | Pennsylvania |
United States | The Heart Hospital of Baylor Plano | Plano | Texas |
United States | Sutter Institute for Medical Research | Sacramento | California |
United States | Missouri Baptist Medical Center | Saint Louis | Missouri |
United States | Washington University/ Barnes Jewish Hospital | Saint Louis | Missouri |
United States | University of Utah | Salt Lake City | Utah |
United States | Board of Trustees of the Leland Stanford Junior University | Stanford | California |
United States | North Mississippi Medical Center | Tupelo | Mississippi |
Lead Sponsor | Collaborator |
---|---|
Edwards Lifesciences |
United States, Canada, Poland,
Bavaria JE, Griffith B, Heimansohn DA, Rozanski J, Johnston DR, Bartus K, Girardi LN, Beaver T, Takayama H, Mumtaz MA, Rosengart TK, Starnes V, Timek TA, Boateng P, Ryan W, Cornwell LD, Blackstone EH, Borger MA, Pibarot P, Thourani VH, Svensson LG, Puskas — View Citation
Beaver T, Bavaria JE, Griffith B, Svensson LG, Pibarot P, Borger MA, Sharaf OM, Heimansohn DA, Thourani VH, Blackstone EH, Puskas JD; COMMENCE Trial Investigators. Seven-year outcomes following aortic valve replacement with a novel tissue bioprosthesis. J — View Citation
Heimansohn DA, Baker C, Rodriguez E, Takayama H, Dagenais F, Talton DS, Mumtaz MA, Pibarot P, Puskas JD; COMMENCE Trial Investigators. Mid-term outcomes of the COMMENCE trial investigating mitral valve replacement using a bioprosthesis with a novel tissue — View Citation
Johnston DR, Griffith BP, Puskas JD, Bavaria JE, Svensson LG; COMMENCE Trial Investigators. Intermediate-term outcomes of aortic valve replacement using a bioprosthesis with a novel tissue. J Thorac Cardiovasc Surg. 2021 Nov;162(5):1478-1485. doi: 10.1016 — View Citation
Puskas JD, Bavaria JE, Svensson LG, Blackstone EH, Griffith B, Gammie JS, Heimansohn DA, Sadowski J, Bartus K, Johnston DR, Rozanski J, Rosengart T, Girardi LN, Klodell CT, Mumtaz MA, Takayama H, Halkos M, Starnes V, Boateng P, Timek TA, Ryan W, Omer S, S — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Other | Subject's Average Mean Gradient Measurements - 11000A | Mean gradient is the average flow of blood through the aortic valve measured in millimeters of mercury. Gradients are evaluated by echocardiography over time. Mean gradient values depend on the size and type of valve. | 3 Months, 1 Year, and 2 Year Post Implant | |
Other | Subject's Average Mean Gradient Measurements - 11000M | Mean gradient is the average flow of blood through the mitral valve measured in millimeters of mercury. Gradients are evaluated by echocardiography over time. Mean gradient values depend on the size and type of valve. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Peak Gradients Measurements Over Time - 11000A | Peak gradient is the maximum value measured of flow of blood through the aortic valve as measured in millimeters of mercury. Gradients are evaluated by echocardiography over time. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Peak Gradients Measurements Over Time - 11000M | Peak gradient is the maximum value measured of flow of blood through the mitral valve as measured in millimeters of mercury. Gradients are evaluated by echocardiography over time. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Effective Orifice Area Measurements - 11000A | Effective orifice area represents the cross-sectional area of the blood flow downstream of the aortic valve. Effective orifice area is evaluated by echocardiography over time. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Effective Orifice Area Measurements - 11000M | Effective orifice area represents the cross-sectional area of the blood flow downstream of the mitral valve. Effective orifice area is evaluated by echocardiography over time. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Effective Orifice Area Index (EOAI) Measurements - 11000A | Effective orifice area index represents the minimal cross-sectional area of the blood flow downstream of the aortic valve divided by the person's body surface area. Effective orifice area index is evaluated by echocardiography over time. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Effective Orifice Area Index (EOAI) Measurements - 11000M | Effective orifice area index represents the minimal cross-sectional area of the blood flow downstream of the mitral valve divided by the person's body surface area. Effective orifice area index is evaluated by echocardiography over time. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Performance Index Measurements - 11000A | Performance index is defined as the subject's effective orifice area (the cross sectional area of the blood flow downstream of the aortic valve) divided by the subject's native orifice area. Effective orifice area is evaluated by echocardiography over time. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Performance Index Measurements - 11000M | Performance index is defined as the subject's effective orifice area (the crosssectional area of the blood flow downstream of the mitral valve) divided by the subject's native orifice area. Effective orifice area is evaluated by echocardiography over time. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Cardiac Output Over Time - 11000A | The amount of blood the heart pumps through the circulatory system in a minute. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Cardiac Output Over Time - 11000M | The amount of blood the heart pumps through the circulatory system in a minute. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Cardiac Index Over Time- 11000A | Cardiac index is an assessment that divides the cardiac output from left ventricle in one minute by the person's body surface area (BSA), thus relating heart performance to the size of the individual. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Cardiac Index Over Time - 11000M | Cardiac index is an assessment that divides the cardiac output from left ventricle in one minute by the person's body surface area(BSA), thus relating heart performance to the size of the individual. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Amount of Total Valvular Regurgitation Over Time - 11000A | Valvular regurgitation occurs when the valve in the heart does not close tightly allowing some of the blood that was pumped out of the heart to leak back into it. Valvular regurgitation is evaluated by echocardiography over time. It is assessed on a scale from 0 to 4, where 0 represents no regurgitation and 4 represents severe regurgitation. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Amount of Total Valvular Regurgitation Over Time - 11000M | Mitral valvular regurgitation occurs when the mitral valve in the heart does not close tightly allowing some of the blood that was pumped out of the heart to leak back into it. Mitral valvular regurgitation is evaluated by echocardiography over time. It is assessed on a scale from 0 to 4, where 0 represents no regurgitation and 4 represents severe regurgitation. | 3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Amount of Paravalvular Leak Over Time - 11000A | Paravalvular leak refers to blood flowing through a channel between the implanted artificial valve and the cardiac tissue as a result of inappropriate sealing.
Paravalvular leak is evaluated by echocardiography over time. It is assessed on a scale from minimum of 0 to maximum of 4, where 0 = no leak, 1 = a trace leak, 2 = a mild leak, 3 = a moderate leak, and 4 = a severe leak. Higher numbers on the scale show a worsening outcome. |
3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Amount of Paravalvular Leak Over Time - 11000M | Paravalvular leak refers to blood flowing through a channel between the implanted artificial valve and the cardiac tissue as a result of inappropriate sealing.
Paravalvular leak is evaluated by echocardiography over time. It is assessed on a scale from minimum of 0 to maximum of 4, where 0 = no leak, 1 = a trace leak, 2 = a mild leak, 3 = a moderate leak, and 4 = a severe leak. Higher numbers on the scale show a worsening outcome. |
3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's New York Heart Association (NYHA) Functional Class Compared to Baseline | The New York Heart Association (NYHA) functional classification system relates symptoms to everyday activities and the patient's quality of life.
Class I. No limitation of physical activity. Ordinary physical activity does not cause undue fatigue, palpitation, dyspnea (shortness of breath). Class II. Slight limitation of physical activity. Comfortable at rest. Ordinary physical activity results in fatigue, palpitation, dyspnea (shortness of breath). Class III. Marked limitation of physical activity. Comfortable at rest. Less than ordinary activity causes fatigue, palpitation, or dyspnea. Class IV. Unable to carry on any physical activity without discomfort. Symptoms of heart failure at rest. If any physical activity is undertaken, discomfort increases. |
3 Months, 1 Year, and 2 Years Post Implant | |
Other | Subject's Average Score at Baseline and 1 Year on the Quality of Life Survey | The Medical Outcomes Study Short-Form 12 (SF-12) contains two components - the Physical Component Summary (PCS) and the Mental Component Summary (MCS).
The SF-12 Physical Component Summary questionnaire scale ranges from a maximum of 100, which reflects the best health status to a minimum of 0, which reflects the worst health status. The SF-12 Mental Component Summary scale ranges from a maximum of 100, which reflects the best health status to a minimum of 0, which reflects the worst health status. |
Baseline and one year post-implant | |
Other | Subject's Average White Blood Cell Count | Laboratory analysis of White Blood Cell (WBC) count on blood drawn from subject; WBC fight infection. | Baseline, Discharge, 3 Months, 1 Year and 2 Year | |
Other | Subject's Average Red Blood Cells Count | Laboratory Analysis of Red Blood Cell (RBC) Count on blood drawn from subjects; RBC carry oxygen. | Baseline, Discharge, 3 Months, 1 Year and 2 Year | |
Other | Subject's Average Hematocrit Percentage | Laboratory Analysis of Hematocrit Percentage on blood drawn from subjects. Hematocrit is the proportion of red blood cells to the plasma (liquid portion of the blood). | Baseline, Discharge, 3 Months, 1 Year and 2 Year | |
Other | Subject's Average Hemoglobin Count | Laboratory Analysis of Hemoglobin Count on blood drawn from subjects. Hemoglobin is an oxygen-carrying protein in red blood cells. | Baseline, Discharge, 3 Months, 1 Year and 2 Year | |
Other | Subject's Average Platelet Count | Laboratory Analysis of Platelet Count on blood drawn from subjects; platelets help with blood clotting. | Baseline, Discharge, 3 Months, 1 Year, and 2 Years | |
Other | Subject's Average Plasma Free Hemoglobin | Laboratory Analysis of Plasma Free Hemoglobin on blood drawn from subjects. This blood test measures the level of free hemoglobin in the plasma (liquid portion of the blood). | Baseline, Discharge, 3 Months, 1 Year and 2 Year | |
Other | Subject's Average International Normalized Ratio | Laboratory Analysis of International Normalized Ratio (INR) on blood drawn from subjects. The INR is a calculation based on results of a prothrombin time (PT). The PT is a blood test that measures the time it takes for the plasma (liquid portion of the blood) to clot. INR results will vary according to a person's age, the medicines they take, and any health problems they may have. In general, the higher the INR number, the longer it takes for the blood to clot. In healthy people an INR of 1.1 or below is considered normal. An INR range of 2.0 to 3.0 is generally an effective therapeutic range for people taking blood thinner medication. | Baseline, Discharge, 3 Months, 1 Year and 2 Year | |
Other | Subject's Average Partial Thromboplastin Time | Laboratory Analysis of partial thromboplastin time (PTT) on blood drawn from subjects. PTT is a blood test that looks at how long it takes for the blood to clot. | Baseline, Discharge, 3 Months, 1 Year and 2 Year | |
Other | Subject's Average Prothrombin Time | Laboratory Analysis of Prothrombin Time (PT) on blood drawn from subjects. The PT is a blood test that measures the time it takes for the plasma (liquid portion of the blood) to clot. | Baseline, Discharge, 3 Months, 1 Year, and 2 Years | |
Other | Subjects Average Serum Glycerol Levels | Laboratory analysis of serum glycerol in blood drawn from subjects. This blood test measures the amount of glycerol (a naturally occurring carbohydrate, that can be used as a fuel source by the body) in the serum (liquid portion of the blood). | Pre-Implant (post-heparinization) and Post-Implant (between 60 and 120 minutes after heart was restarted) | |
Primary | Subjects With Structural Valve Deterioration | The rate of implanted subjects that experience structural valve deterioration (SVD) of the trial valve by the time of the post operative day (POD) 390 follow-up visit. Structural valve deterioration includes dysfunction or deterioration intrinsic to the valve. Examples of SVD includes complications such as wear, fracture, calcification, leaflet tear. | 1 Year Post Implant | |
Secondary | Percentage of Subjects With Early Adverse Events | Number of subjects with early adverse events occurring within 30 days of procedure divided by the number of enrolled subjects times 100 | Events occuring within 30 days of procedure | |
Secondary | Percentage of Late Adverse Events Divided by Late Patient Years | Number of late events divided by the total number of late patient years times 100. Late patient years are calculated from 31 days post-implant to the date of the last contact (follow up or adverse event). | Events occurring >= 31 days and up through 3 years post-implant |
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