Rapid development in sensor technology, has led to fabrication of high-performance wearable sensors with application in human health monitoring. As human health is an utmost importance issue, various high-tech equipment has been developed to use in continuous health monitoring. The favorable properties of wearable sensors, make them an appropriate choice in medical applications. In this context, wearable sensors designed, produced and utilized in human health care systems which can facilitate diseases diagnosis. Depend on the type of sensor, a specific parameter such as heart beat, pressure, and temperature can be monitored and measured. This review attempts to summarize the progress and challenges in fabrication of wearable sensors for human health monitoring. In this context, applications of wearable sensors are divided into (a) biophysical tracking, (b) biochemical monitoring, and (c) detection of real-time data. Moreover, details of medical wearable sensors are outlined. In this regard, types of sensors, their materials and fabrication processes are explained. Finally, performance and current challenges in this field are briefly discussed. The documented analysis and discussion in this paper show the advantages and limitations in this field, and also highlight needs for next researches. This review confirmed that the emergence of wearable sensors has opened new horizons for human health monitoring.

传感器技术的飞速发展已导致制造出可穿戴式传感器，并将其应用于人体健康监测。由于人类健康是最重要的问题，因此已开发出各种高科技设备用于持续健康监测。可穿戴式传感器的良好性能使其成为医疗应用的合适选择。在这种情况下，可穿戴传感器在人类保健系统中设计，生产和使用，可以促进疾病诊断。根据传感器的类型，可以监视和测量诸如心跳，压力和温度等特定参数。这篇综述试图总结用于人体健康监测的可穿戴传感器制造的进展和挑战。在这种情况下，可穿戴式传感器的应用分为（a）生物物理跟踪，（b）生化监测和（c）实时数据检测。此外，概述了医疗可穿戴传感器的细节。在这方面，说明了传感器的类型，其材料和制造过程。最后，简要讨论了该领域的性能和当前挑战。本文中记录的分析和讨论显示了该领域的优势和局限性，并突出了下一步研究的需求。这项审查证实了可穿戴式传感器的出现为人类健康监测开辟了新的视野。最后，简要讨论了该领域的性能和当前挑战。本文中记录的分析和讨论显示了该领域的优势和局限性，并突出了下一步研究的需求。这项审查证实了可穿戴式传感器的出现为人类健康监测开辟了新的视野。最后，简要讨论了该领域的性能和当前挑战。本文中记录的分析和讨论显示了该领域的优势和局限性，并突出了下一步研究的需求。这项审查证实了可穿戴式传感器的出现为人类健康监测开辟了新的视野。