用于资源受限设置的可穿戴无线多参数监测系统(WEMUMS

N. Sriraam, P. R. Vittal, Uma Arun, Karthik Angadi, Arjun Halli, Priyanka Chakravarthy
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引用次数: 2

摘要

使用可穿戴设备对生理参数的持续监测已经对关键的医疗保健系统以及降低死亡率产生了巨大的影响。大多数发展中国家和欠发展中国家,包括资源有限的国家,在不牺牲所需临床诊断的情况下依赖低成本医疗保健设施。本研究建议在资源受限的情况下开发一级原型WEMUMS。该框架由主从节点组成,主从节点分别由基于胸部的带加速度计的干式心电传感器和基于手腕的PPG传感器组成。所有的生命参数都被记录下来,并通过蓝牙模式无线传输到实时处理器,生命体征显示在移动应用程序中,用于医院心脏重症监护病房的患者评估。设计的WEMUMS通过保真度指标进行定量评估,通过临床医生的视觉检查进行定性评估。从初步的临床评估中观察到,在设计原型转化为商业化之前,开发的原型仍需要更多的患者进行临床评估验证。
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Wearable Wireless Multiparameter Monitoring Systems (WEMUMS) for Resource Constrained Settings
Continuous monitoring of physiological parameters using wearable devices have created a huge impact on the critical health care system as well as towards reducing the mortality rate. Most of the developing and under developing countries including resource constrained settings rely on the low-cost healthcare facilities without sacrificing the required clinical diagnosis. This research study suggests the development of first level prototype WEMUMS for resource constrained settings. The framework comprises of master and slave node that consists of chest based dry ECG sensors with accelerometer and wrist-based PPG sensor respectively. All the vital parameter were recorded and transmitted wirelessly to the real-time processor through a blue tooth mode, the vitals are displayed in a mobile app for assessing the patient at cardiac critical care units in the hospital. The designed WEMUMS was evaluated quantitatively using fidelity metrics and qualitatively through clinician’s visual inspection. It was observed from the initial clinical evaluation, the developed prototype still needs to be validated with more patients for clinical assessments before translation of the designed prototype for commercialization.
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