Division of Cardiovascular Medicine, Department of Medicine, Jichi Medical University School of Medicine, Tochigi, Japan; Jichi Medical University Center of Excellence, Cardiovascular Research and Development (JCARD), Tochigi, Japan; Hypertension Cardiovascular Outcome Prevention and Evidence in Asia (HOPE Asia) Network, Tokyo, Japan.
Division of Cardiovascular Medicine, Department of Medicine, Jichi Medical University School of Medicine, Tochigi, Japan; Jichi Medical University Center of Excellence, Cardiovascular Research and Development (JCARD), Tochigi, Japan; Hypertension Cardiovascular Outcome Prevention and Evidence in Asia (HOPE Asia) Network, Tokyo, Japan.
Prog Cardiovasc Dis. 2017 Nov-Dec;60(3):435-449. doi: 10.1016/j.pcad.2017.10.002. Epub 2017 Nov 3.
We have developed a multisensor home and ambulatory blood pressure (BP) monitoring system for monitoring 24-h central and brachial BP variability concurrent with physical activity (PA), temperature, and atmospheric pressure. The new BP monitoring system utilizes our recently developed biological and environmental signal monitoring Information Communication Technology/Internet of Things system, which can simultaneously monitor the environment (temperature, illumination, etc.) of different rooms in a house (entryway, bedroom, living room, bathing room, and toilet), and a wrist-type high-sensitivity actigraph for identifying the location of patients. By collecting both data on BP and environmental parameters, the system can assess the brachial and central hemodynamic BP reactivity profiles of patients, such as actisensitivity (BP change with PA), thermosensitivity (with temperature), and atmospheric sensitivity (with atmospheric pressure). We used this new system to monitor ambulatory BP variability in outpatients with one or more cardiovascular disease (CVD) risk factors both in summer and winter. Actisensitivity (the slope of the regression line of ambulatory BP against the log-physical activity) was higher in winter than summer. By multi-level analysis using the parameters monitored by this system, we estimated the ambulatory BPs under different conditions. The individual time-series big data collected by this system will contribute to anticipation medicine for CVD.
我们开发了一种多传感器家庭和动态血压(BP)监测系统,用于监测 24 小时中心和肱动脉 BP 变异性,同时监测身体活动(PA)、温度和大气压力。新的 BP 监测系统利用了我们最近开发的生物和环境信号监测信息通信技术/物联网系统,该系统可以同时监测房屋(入口、卧室、客厅、浴室和厕所)不同房间的环境(温度、光照等)以及腕式高灵敏度活动记录仪,以识别患者的位置。通过同时收集 BP 和环境参数数据,该系统可以评估患者的肱动脉和中心血液动力学 BP 反应性谱,如活动敏感性(BP 随 PA 的变化)、热敏性(随温度的变化)和大气敏感性(随大气压力的变化)。我们使用这个新系统在夏季和冬季监测有一个或多个心血管疾病(CVD)危险因素的门诊患者的动态血压变异性。冬季的活动敏感性(动态 BP 与 log 身体活动的回归线斜率)高于夏季。通过使用该系统监测的参数进行多层次分析,我们估计了不同条件下的动态 BP。该系统收集的个体时间序列大数据将有助于 CVD 的预测医学。
