Biomedical Graduate Studies

Description of Clinical Expertise

My clinical expertise is in noninvasive imaging by echocardiography and the care of cancer patients with cardiovascular concerns, risk factors, or disease.

Description of Research Expertise

Cardiotoxicity from cancer therapy is detectable, preventable and treatable. This is the focus of Dr. Ky’s research program. Cancer therapies are becoming increasingly effective at killing cancer, but these treatments also have toxic side effects, resulting in a growing population of cancer patients and survivors with heart disease. In our lab, we are studying innovative strategies to understand the changes in heart function that occur with common cancer therapies, and how we can apply these methods to understand an individual patient’s risk of developing heart disease and heart failure. Our goals are to bring these exciting research findings to the clinic and continue our mission of delivering state-of-the-art, evidence-based medicine to cancer patients and survivors regionally and nationally. We highlight 3 recent discoveries from our lab below.

How breast cancer therapy affects heart function. In a recent paper published in Circulation, we rigorously and comprehensively define the precise changes that occur with heart function over time in breast cancer patients treated with doxorubicin, trastuzumab and radiation. We found that with these cancer therapies, there are modest, but persistent declines in heart function, even at 3 years post treatment exposure. We also determined that afterload, or blood pressure, is a major determinant of this adverse remodeling. These findings might suggest that aggressive blood pressure control is critical in mitigating a patient’s risk of developing heart dysfunction. We have proposed new trials to test this hypothesis.

How innovative new imaging tools can predict heart damage with cancer therapy. We are also interested in discovering new strategies to predict the risk of subsequent heart damage in cancer patients. In two separate manuscripts published in the Journal of American College of Cardiology Imaging, we have used 2-dimensional and 3-dimensional ultrasound techniques in order to more precisely and deeply understand how the heart functions. We have discovered that early changes in 2D and 3D circumferential strain, or deformation, are associated with the risk of developing cardiotoxicity with anthracyclines.

How simple blood tests – using new markers – can predict heart damage with cancer therapy. We are also studying the role of new blood markers of oxidative stress – and how they can predict who will develop heart damage with anthracycline chemotherapy. These findings were published in the Journal of the American College of Cardiology. We are now testing in a clinical trial how these blood markers can be used to understand why statins might protect the heart and who may benefit the most from statins when receiving anthracycline chemotherapy.