“This breakthrough technology could save the lives of thousands of patients with heart valve disease who have no other therapeutic options,” says Dr. Ziyad Hijazi, director of the Rush Center for Congenital and Structural Heart Disease and interventional cardiologist of the Rush Valve Clinic. The treatment is offered through a multi-center, phase IIb cohort study called the PARTNER II (Placement of AoRTic traNscathetER valves) trial.
Aortic valve stenosis (AS) is a type of valvular heart disease characterized by an abnormal narrowing of the aortic valve opening. It is a condition that affects nearly 1.5 million Americans. It causes hardening or thickening of the aortic valve leaflets, which limits leaflet motion and obstructs oxygen-rich blood flow from the heart to the rest of the body. Patients with severe AS may have symptoms of chest pain, fatigue, shortness of breath, lightheadedness or fainting. Although AS typically progresses slowly without symptoms, once symptoms occur, treatment is required. Fifty percent of patients may not survive beyond one to three years.
Traditionally, patients with symptomatic AS undergo aortic valve replacement during an open-heart surgery to alleviate symptoms, improve survival and improve quality of life. However, many patients who are at very high risk for surgery, such as elderly, frail individuals with multiple health concerns, are considered inoperable.
The PARTNER II trial will compare a pioneering technology called the Edwards SAPIEN XT valve, which is made of bovine pericardial tissue leaflets hand-sewn onto a metal frame, and a new catheter delivery system called the Edwards NovaFlex delivery system, which navigates the heart from a small incision to the femoral artery in a patient’s leg or through a small incision between the ribs and snaked up into the left ventricle. The Edwards NovaFlex delivery system positions the catheter inside the patient’s original, collapsed valve, using a balloon to deploy the frame, which holds the artificial valve in place in order to restore normal blood flow. Both procedures are performed on a beating heart, without the need for open, cardiopulmonary bypass and its associated risks.
Annually, some 200,000 people in the U.S. need a new heart valve, but nearly half of them do not receive a new valve for a variety of reasons.
“Past study results show conclusively that transcatheter valve replacement is a safe and effective alternative to open surgery, which remains the ‘gold standard’ for most patients,” says Hijazi.
Results from the first phase of the PARTNER trial showed that the rate of death from any cause at one year was 50.7 percent in the patients who received standard therapy, as compared to 30.7 percent of patients treated with transcatheter aortic valve replacement (TAVR).
The transcatheter valve procedures take about 90 minutes, compared with four to six hours for open-heart surgery. In open-heart surgery, the surgeon cuts through the breastbone, stops the heart, removes the valve and replaces it. Open-heart surgery can require a two- to three-month recovery period, compared to only a few days for the transcatheter approach.
The next generation Edwards SAPIEN XT valve in The PARTNER II trial was engineered to provide a better valve patterned after surgical heart valves and potentially decrease treatment complications.
The PARTNER trial is the world’s first randomized, controlled trial of a transcatheter aortic heart valve. In this clinical phase IIb cohort, patients are randomized to receive either the new Edwards Sapien XT valve using the NovaFlex delivery system or the Edwards SAPIEN Transcatheter Heart Valve.
“The primary objective of the trial is to reduce death, major stroke and repeat hospitalization in these patients,” says Hijazi. “Additionally, we hope to improve quality-of-life indicators.”
The PARTNER II trial is one of the three latest, nationwide clinical trials for minimally invasive heart valve replacement being offered through the Rush Valve Clinic, where a team of cardiac surgical and interventional experts address diseases of the aortic, mitral and pulmonary valves.
The three clinical trials include:
- PARTNER II trial for patients with aortic stenosis
- COMPASSION trial for patients with a dysfunctional conduit – A phase II clinical trial using the SAPIEN Transcatheter Heart Valve in patients who have a dysfunctional conduit between the right ventricle and the pulmonary artery
- EVEREST II trial for patients with mitral regurgitation – A continued access trial using the eValve MitraClip to treat a mitral valve leak.
For more information about the PARTNER trial or any of the other clinical trials at the Rush Valve Clinic, call 312-942-6800.
About the Rush Valve Clinic
To provide the best and most advanced care available for patients with valve disease, a diverse team of cardiac specialists at Rush University Medical Center opened the Rush Valve Clinic. The new clinic draws on the team’s wide breadth of experience in surgical and interventional approaches to addressing diseases of the aortic, mitral and pulmonary valves.
At the Rush Valve Clinic, each patient meets with a team of specialists — including an interventional cardiologist, a cardiac surgeon and an echocardiographer — at the same time. These specialists then pool their expertise to present the patient with an individualized treatment plan on the same day. They offer a wide range of treatments — from open surgery to balloon valvuloplasty to innovative percutaneous valve repair and replacement procedures — for the full spectrum of valve conditions.
For patients who qualify, treatment plans may include participation in clinical trials of the latest minimally invasive procedures to treat valve disease. Such procedures, which can shorten recovery time and minimize the risks associated with open surgery, may offer life-saving options to patients who otherwise have none.
The Rush Valve Clinic team includes the following clinicians:
- Rami Doukky, MD, cardiac imaging specialist
- Mary Heitschmidt, RN, APN, CCRN, research coordinator
- Ziyad M. Hijazi, MD, MPH, interventional cardiologist
- Clifford Kavinsky, MD, PhD, interventional cardiologist
- Robert J. March, MD, cardiac surgeon
- Anthony Perez-Tamayo, MD, cardiac surgeon
- Tiana Riley, MSN, RN, ACNP-BC, research coordinator
- Jeffrey S. Soble, MD, cardiac imaging specialist