Disaster Hypertension

– Its Characteristics, Mechanism, and Management –

Abstract

The devastating Great East Japan Earthquake, which was 9.0 on the Richter scale, occurred on March 11, 2011. Japan experienced the Great Hanshin-Awaji Earthquake 16 years ago, and I was working at the epicenter, and reported the characteristics of the earthquake-associated cardiovascular risk and high blood pressure (BP) found during the continuous practice and clinical studies of Tsuna Medical Association before and after the quake. A major disaster increases thrombophilic tendency and BP, both of which trigger disaster-induced cardiovascular events such as stroke, cardiac events, etc. The high salt intake and the increased salt sensitivity caused by disrupted circadian rhythms are the 2 major leading causes of disaster hypertension (HT) through neurohumoral activation under stressful conditions. To better assess and reduce the risks for disaster-associated cardiovascular events, we introduced the web-based Disaster Cardiovascular Prevention (DCAP) network (which consists of DCAP risk and prevention score assessment, and self-measured BP monitoring at both the shelter and the home) to the survivors of the 2011 disaster, and frequently found newly developed HT. Here I review the recent evidence, possible mechanism and the management of "disaster HT" for effective prevention of disaster-induced cardiovascular events.