Sleep-induced hypotension precipitates severe myocardial ischemia

STUDY OBJECTIVES: Epidemiologic studies have shown a high frequency of major cardiac events at night in patients with coronary artery disease. This has been attributed to the sympathetic surges accompanying rapid eye movement (REM) sleep; the role of non-REM sleep, which comprises 80% of total sleep duration, has been largely neglected. Accordingly, we evaluated the effect of non-REM sleep on contractile function in a region of the left ventricular wall supplied by a flow-limiting coronary stenosis. DESIGN: Eight domestic pigs were chronically instrumented to measure regional left ventricular contractile function (wall thickening), coronary blood flow, and systemic hemodynamic variables. Measurements were obtained: (1) during wakefulness, i.e., conscious condition, prior to imposition of coronary stenosis; (2) during wakefulness following imposition of coronary stenosis (30% reduction of baseline coronary blood flow from 40 +/- 4 to 27 +/- 3 mL/min); and (3) during non-REM sleep with coronary stenosis maintained. RESULTS: During wakefulness, coronary stenosis reduced wall thickening (from 23.3 +/- 3.4% to 15.7 +/- 2.0%), whereas mean arterial pressure and heart rate were unchanged. With coronary stenosis maintained, the onset of non-REM sleep caused 20% decreases in mean arterial pressure and coronary blood flow, accompanied by a cessation of regional wall thickening, i.e., akinesis (wall thickening = 0.2 +/- 2.8%), indicating severe myocardial ischemia. CONCLUSIONS: The arterial hypotension, and associated reduction in coronary blood flow, during non-REM sleep precipitated severe myocardial ischemia in a region of the left ventricular wall supplied by flow-limiting coronary stenosis. Such episodes would occur repeatedly during the sleep cycle and could potentially set the stage for a major cardiac event during the sympathetic activation accompanying REM sleep or morning activities.