@article{oai:kanazawa-u.repo.nii.ac.jp:00014238,
 author = {大貝, 和裕 and 北村, 敬一郎 and 打出, 喜義 and 根本, 鉄 and Ogai, Kazuhiro and Fukuoka, Masakazu and Kitamura, Kei-ichiro and Uchide, Kiyoshi and Nemoto, Tetsu},
 issue = {117},
 journal = {Journal of Visualized Experiments},
 month = {Nov},
 note = {Perspiration monitoring can be utilized for the detection of certain diseases, such as thermoregulation and mental disorders, particularly when the patients are unaware of such disorders or are having difficulty expressing their symptoms. Until now, several devices for perspiration monitoring have been developed; however, such devices tend to have a relatively large exterior, considerable power consumption, and/or less sensitivity. Recently, we developed a small, wireless device for perspiration monitoring. The device consists of a temperature/relative humidity (T/RH) sensor, battery-driven small data logger, and silica gel as a desiccant in a small cylindrical exterior. The T/RH sensor is placed between the detection windows (through which the water vapor from the skin enters) and the silica gel. The underlying principle of the perspiration monitoring device is based on Fick's law of diffusion, which means that water vapor flux from the skin to the silica gel (i.e. transepidermal water loss and perspiration) can be captured by change in humidity at the T/RH sensor. In addition, a baseline subtraction method was adopted to distinguish perspiration and transepidermal water loss. As shown in the previous report, the developed device can monitor the perspiration at any sites of the body in an easy, wireless manner. However, detailed methods of how to use the device have not been disclosed yet. In this article, therefore, we would like to show the point-by-point tutorials of how to use the device for perspiration monitoring, by showing the sympathetic activity test with the sympathetic skin response monitoring as an example. © 2016 Journal of Visualized Experiments., Embargo Period 24 months},
 title = {A detailed protocol for perspiration monitoring using a novel, small, wireless device},
 volume = {2016},
 year = {2016}
}