Investigating the Use of Genetics to Guide Pharmacologic Therapy for Hypertension (PGEN for HTN)

Hypertension is one of the most important preventable contributors to disease and death in the United States and represents the most common condition seen in the primary care setting. Approximately 78 million adults living in the U.S. have hypertension with more than 5 million new diagnoses made each year. Unfortunately, despite a significant impulse in the medical community to move towards an "individualized medicine" approach to patient centered treatment, the current clinical treatment strategy is based on a set algorithm which does not take into account individual patient differences. As a result hypertension is often sub-optimally treated based on "population averages", rather than a person's genetic make-up, with significant burden on our health care system. In fact, 40% of patients who are adherent to their blood pressure therapy (taking their medicines as prescribed by their clinician) do not have their blood pressure under control. Previous work has demonstrated significant functional polymorphisms within the kidney, vessels, and heart that will likely predict a patient's response to blood pressure pharmacotherapy. Previous work by our group, utilizing a retrospective design, has determined that the addition of genetic knowledge to prescribing can improve therapeutic guidance and decrease the time to blood pressure control significantly. Despite this, to date, there are no prospective trials to guide blood pressure therapy using multiple organ systems that are important in the three most common classes of drugs: diuretics, vasodilators, and beta-blockers. The objective of this clinical trial is to determine the efficacy of genetically guided therapeutic options for pharmacologic treatment of essential hypertension in newly diagnosed patients.