Michael Barbella, Managing Editor07.12.23
Heart Test Laboratories Inc. d/b/a HeartSciences, has completed patient enrollment for its MyoVista wavECG pivotal study for U.S. Food and Drug Administration (FDA) De Novo submission.
The trial began in 2021 and is a prospective, multi-center study to validate the diagnostic performance of the MyoVista wavECG AI algorithm for the detection of impaired left ventricular relaxation. The study has enrolled more than 600 patients at five geographically dispersed centers across the United States and the data will now undergo verification and analysis which, assuming positive results, will be incorporated as part of the company’s FDA De Novo submission for the MyoVista.
“The emerging field of AI ECG offers the meaningful prospect of low-cost screening to help solve the diagnostic gap where millions of people with heart disease remain undiagnosed until some sort of cardiac event, such as a heart attack. We have invested years in artificial intelligence R&D and have designed our first product, the MyoVista, to detect cardiac dysfunction at an early stage," HeartSciences CEO Andrew Simpson stated. "Millions of ECGs are performed every week and we look forward to leading the commercialization of new AI ECG indications for use to make the ECG a far more valuable cardiac test. We are grateful to the clinical institutions and physicians involved in our pivotal study for their diligent work over the past couple of years. We are delighted to have concluded patient enrollment which has been by far the most time-consuming part of our FDA De Novo submission process.”
Almost all forms of heart disease affect heart muscle, or cardiac, function including prior to symptoms. Impaired cardiac function is first observed as impaired left ventricular (LV) cardiac relaxation, an early indicator of LV diastolic dysfunction that increases in severity as heart disease progresses and is also associated with age-related cardiac dysfunction. As Kitzman and Little pointed out in their 2012 paper published in Circulation, “LV diastolic function is impaired by all the common pathological processes that affect LV function or produce LV hypertrophy or fibrosis, including hypertension, diabetes mellitus, ischemia, myocarditis, toxins, and infiltrative cardiomyopathies. Thus, LV diastolic performance is a sensitive indicator of cardiovascular dysfunction.”2
Heart Test Laboratories Inc. is a next-generation, artificial intelligence electrocardiogram (AI ECG) company focused on using AI to transform the ECG (also known as the EKG) to detect heart disease earlier. Millions of ECGs are performed every week and AI is creating a new era of opportunity for the ECG with recent AI ECG applications described as, “some of the most significant advances in electrocardiography since its inception.”1 The company’s objective is to become a fixture in front-line healthcare settings to help physicians make better and earlier referral decisions for at-risk patients.
References
1 Khurram Nasir, MD, MPH, MSC,et. al., Journal of American College of Cardiology Editorial Comment Volume 76 Number 8 2020.
2 Dalane W. Kitzman and William C. Little, Circulation Volume 125 Issue 6 2012.
The trial began in 2021 and is a prospective, multi-center study to validate the diagnostic performance of the MyoVista wavECG AI algorithm for the detection of impaired left ventricular relaxation. The study has enrolled more than 600 patients at five geographically dispersed centers across the United States and the data will now undergo verification and analysis which, assuming positive results, will be incorporated as part of the company’s FDA De Novo submission for the MyoVista.
“The emerging field of AI ECG offers the meaningful prospect of low-cost screening to help solve the diagnostic gap where millions of people with heart disease remain undiagnosed until some sort of cardiac event, such as a heart attack. We have invested years in artificial intelligence R&D and have designed our first product, the MyoVista, to detect cardiac dysfunction at an early stage," HeartSciences CEO Andrew Simpson stated. "Millions of ECGs are performed every week and we look forward to leading the commercialization of new AI ECG indications for use to make the ECG a far more valuable cardiac test. We are grateful to the clinical institutions and physicians involved in our pivotal study for their diligent work over the past couple of years. We are delighted to have concluded patient enrollment which has been by far the most time-consuming part of our FDA De Novo submission process.”
Almost all forms of heart disease affect heart muscle, or cardiac, function including prior to symptoms. Impaired cardiac function is first observed as impaired left ventricular (LV) cardiac relaxation, an early indicator of LV diastolic dysfunction that increases in severity as heart disease progresses and is also associated with age-related cardiac dysfunction. As Kitzman and Little pointed out in their 2012 paper published in Circulation, “LV diastolic function is impaired by all the common pathological processes that affect LV function or produce LV hypertrophy or fibrosis, including hypertension, diabetes mellitus, ischemia, myocarditis, toxins, and infiltrative cardiomyopathies. Thus, LV diastolic performance is a sensitive indicator of cardiovascular dysfunction.”2
Heart Test Laboratories Inc. is a next-generation, artificial intelligence electrocardiogram (AI ECG) company focused on using AI to transform the ECG (also known as the EKG) to detect heart disease earlier. Millions of ECGs are performed every week and AI is creating a new era of opportunity for the ECG with recent AI ECG applications described as, “some of the most significant advances in electrocardiography since its inception.”1 The company’s objective is to become a fixture in front-line healthcare settings to help physicians make better and earlier referral decisions for at-risk patients.
References
1 Khurram Nasir, MD, MPH, MSC,et. al., Journal of American College of Cardiology Editorial Comment Volume 76 Number 8 2020.
2 Dalane W. Kitzman and William C. Little, Circulation Volume 125 Issue 6 2012.