The Role of Mood Disorders in Exercise-Induced Cardiovascular Reactivity

Address correspondence and reprint requests to: Simon L. Bacon, PhD, E-mail: simon.bacon{at}concordia.ca.

	Abstract

Objective: Increased cardiovascular (CV) reactivity has been associated with worse CV prognosis. Though mood disorders (MDs) have been associated with increased CV reactivity during behavioral stressors, the extent to which MDs and their interaction with coronary heart disease (CHD) influences exercise-induced CV reactivity has not been evaluated. Methods: Five hundred twenty-six patients underwent nuclear exercise stress testing. Cardiovascular parameters were assessed at rest, every 2 minutes during exercise, and at peak exercise. MDs were measured using a structured psychiatric interview, the Primary Care Evaluation of Mental Disorders, and CHD was defined as having a history of myocardial infarction, revascularization, heart failure, and/or cerebrovascular event. Results: CHD patients exhibited lower peak exercise heart rate (F = 9.40, p = .002) compared with patients without CHD. Submaximal data showed that patients with CHD had a slower rate of increase of heart rate (F = 4.29, p = .04) and diastolic blood pressure (F = 3.27, p = .04). There was an interaction of CHD and MDs, indicating that in patients with CHD, the rate of submaximal increase in systolic blood pressure (F = 3.08, p = .047) and rate-pressure product (F = 5.13, p = .006) was greater in patients with a MD compared with those without a MD. These differences were not observed in patients with no CHD. No other main or interaction effects of MDs and CHD were observed. Conclusion: Though MDs alone do not seem to be associated with higher levels of stress CV reactivity, their combination with CHD leads to increased submaximal exercise-induced CV reactivity. Prospective studies are needed to explore the causal relationship between these variables.

Key Words: Mood disorders, coronary heart disease, exercise, cardiovascular reactivity, blood pressure, heart rate