DETROIT – Henry Ford Hospital is one of 17 U.S. trial sites using a catheter-based procedure approved in Europe to repair a leaky mitral heart valve.
Henry Ford Hospital’s Center for Structural Heart Disease, led by pioneering cardiologist William W. O’Neill, M.D., performed the first CardioBand procedure in Michigan on May 31. The hospital is the only system in Michigan involved in the U.S. trial and one of a couple in the midwestern United States.The CardioBand procedure was approved for use in Europe in September 2015.
“At Henry Ford Hospital, we’ve been working on the mitral valve for five years while many programs are in their infancy,” said Dr. O’Neill, who was the first cardiologist in the United States to perform transcatheter mitral valve replacement (TMVR) with a valve typically used for transcathether aortic valve replacement (TAVR). “We feel this is a vital addition to our options for patients with mitral valve issues. We’ve seen the great outcomes in Europe and are very pleased to participate in the U.S. trials.”
More than 300 transcatheter mitral valve repairs and replacements have been performed at Henry Ford Hospital since the Center’s transcatheter mitral program began in 2013.
CardioBand is an alternative to surgical mitral valve repairs doctors have been doing for years for patients with functional mitral valve regurgitation. In patients with the condition, the mitral valve leaks as blood passes between the left atrium and the left ventricle, most often because of deformity in the valve circumference. This can be due to damage to the left ventricle from a prior heart attack or cardiomyopathy.
The most commonly performed treatment for functional mitral valve regurgitation is annuloplasty, an open-chest surgical approach that requires weeks of recuperation. The CardioBand procedure is done strictly through the catheter as the patient’s heart continues to beat normally. The CardioBand is delivered through a small incision in the groin area, into a catheter that passes up through the femoral vein and into the heart. Using a control device that remains outside the body, cardiologists deploy a series of small springs and anchor them along the edge of the mitral valve. The cardiologist then cinches the opening of the valve to near its original shape and size, allowing the leaflets to close more efficiently.
The entire process is guided by 3D transesophageal echocardiography, led by cardiologist Dee Dee Wang, M.D., director of imaging for the Center for Structural Heart Disease and medical director of 3D printing for the Henry Ford Innovations Institute. Using an endoscope passed through the mouth and into the esophagus, ultrasound waves create images of the heart and passageways.