Circulatory Failure Program
The Circulatory Failure Program in the Cardiovascular Research Center is highly active in both basic and clinical investigations aimed at improving the diagnosis and care of people with all forms of circulatory failure. Ongoing studies extend from the bench and preclinical models to the clinics, wards and invasive cardiac catheterization laboratory.
The Circulatory Failure Program research group is part of the National Institutes of Health-sponsored Heart Failure Clinical Research Network, an expert multicenter group that translates cutting-edge treatments from bench to bedside in phase II clinical trials.
Heart failure with preserved ejection fraction
Special interests in the Circulatory Failure Program include gaining a better understanding of the mechanisms and treatment of heart failure with preserved ejection fraction, a disease affecting half the patients with heart failure but for whom there is no effective treatment.
Novel diagnostics and therapeutics
In the Cardiorenal Research Laboratory, Mayo Clinic researchers are developing unique biomarkers and testing novel peptide-based and gene-therapy-based strategies to better treat patients with heart failure and to prevent heart failure in patients at risk.
The research team in the Circulatory Failure Program uses gold standard invasive hemodynamic methods to better understand disease mechanisms and treatments in the human catheterization laboratory. In addition, new clinical trials are underway to test novel therapies for pulmonary hypertension.
In the realm of cardiac replacement therapy, Cardiovascular Research Center investigators have advanced the field through better understanding of the impact of ventricular assist devices and novel approaches to immunosuppression in patients undergoing cardiac transplantation.
Through collaboration with the Center for Regenerative Medicine at Mayo Clinic, the Circulatory Failure Program is exploring novel approaches for heart failure that involve cell therapy, including research on these topics: