Evaluation of wireless determination of skin temperature using iButtons

Measurements of skin temperatures are often complicated because of the use of wired sensors. This is so in field studies, but also holds for many laboratory conditions. This article describes a wireless temperature system for human skin temperature measurements, i.e. the Thermochron iButton DS1291H. The study deals with validation of the iButton and its application on the human skin, and describes clinical and field measurements. The validation study shows that iButtons have a mean accuracy of -0.09 degrees C (-0.4 degrees C at most) with a precision of 0.05 degrees C (0.09 degrees C at most). These properties can be improved by using calibration. Due to the size of the device the response time is longer than that of conventional sensors, with a tau in water of 19 s. On the human skin under transient conditions the response time is significantly longer, revealing momentary deviations with a magnitude of 1 degrees C. The use of iButtons has been described in studies on circadian rhythms, sleep and cardiac surgery. With respect to circadian rhythm and sleep research, skin temperature assessment by iButtons is of significant value in laboratory, clinical and home situations. We demonstrate that differences in laboratory and field measurements add to our understanding of thermophysiology under natural living conditions. The advantage of iButtons in surgery research is that they are easy to sterilize and wireless so that they do not hinder the surgical procedure. In conclusion, the application of iButtons is advantageous for measuring skin temperatures in those situations in which wired instruments are unpractical and fast responses are not required.

[1]  E. V. van Someren,et al.  More than a marker: interaction between the circadian regulation of temperature and sleep, age-related changes, and treatment possibilities. , 2000, Chronobiology international.

[2]  E. Scherder,et al.  Circadian and age-related modulation of thermoreception and temperature regulation: mechanisms and functional implications , 2002, Ageing Research Reviews.

[3]  D. Sessler,et al.  Skin-surface temperature gradients correlate with fingertip blood flow in humans. , 1990, Anesthesiology.

[4]  M. Westerterp-Plantenga,et al.  Individual variation in the relation between body temperature and energy expenditure in response to elevated ambient temperature , 2001, Physiology & Behavior.

[5]  G. Heldmaier,et al.  Life in the Cold , 2000, Springer Berlin Heidelberg.

[6]  Kurt Kräuchi,et al.  How is the circadian rhythm of core body temperature regulated? , 2002, Clinical Autonomic Research.

[7]  M. Menaker,et al.  Thermochron iButtons: An Inexpensive Method for Long-Term Recording of Core Body Temperature in Untethered Animals , 2003, Journal of biological rhythms.

[8]  J. Kastner,et al.  Tissue heat content and distribution during and after cardiopulmonary bypass at 17°C , 1999 .

[9]  Eus J. W. VanSomeren MORE THAN A MARKER: INTERACTION BETWEEN THE CIRCADIAN REGULATION OF TEMPERATURE AND SLEEP, AGE-RELATED CHANGES, AND TREATMENT POSSIBILITIES , 2000 .

[10]  E. Someren,et al.  MORE THAN A MARKER: INTERACTION BETWEEN THE CIRCADIAN REGULATION OF TEMPERATURE AND SLEEP, AGE-RELATED CHANGES, AND TREATMENT POSSIBILITIES , 2000 .

[11]  H. Daanen,et al.  Heat strain and gross efficiency during endurance exercise after lower, upper, or whole body precooling in the heat. , 2006, International journal of sports medicine.

[12]  A. Wirz-Justice,et al.  Early evening melatonin and S-20098 advance circadian phase and nocturnal regulation of core body temperature. , 1997, The American journal of physiology.

[13]  M. Westerterp-Plantenga,et al.  Individual variation in body temperature and energy expenditure in response to mild cold. , 2002, American journal of physiology. Endocrinology and metabolism.

[14]  E. Someren Sleep propensity is modulated by circadian and behavior-induced changes in cutaneous temperature , 2004 .

[15]  D. DeNardo,et al.  A Comparison Between Point- And Semi-Continuous Sampling For Assessing Body Temperature In A Free-Ranging Ectotherm , 2004 .

[16]  Dick F Swaab,et al.  Cutaneous warming promotes sleep onset. , 2005, American journal of physiology. Regulatory, integrative and comparative physiology.

[17]  A. Wirz-Justice,et al.  Circadian rhythm of heat production, heart rate, and skin and core temperature under unmasking conditions in men. , 1994, The American journal of physiology.

[18]  Douglas G. Altman,et al.  Measurement in Medicine: The Analysis of Method Comparison Studies , 1983 .

[19]  Anna Wirz-Justice,et al.  Physiology: Warm feet promote the rapid onset of sleep , 1999, Nature.