TY - JOUR
PY - 2012//
TI - Applications of real-time thermoregulatory models to occupational heat stress: validation with military and civilian field studies
JO - Journal of strength and conditioning research
A1 - Yokota, Miyo
A1 - Berglund, Larry G.
A1 - Santee, William R.
A1 - Buller, Mark J.
A1 - Karis, Anthony J.
A1 - Roberts, Warren
A1 - Cuddy, John S.
A1 - Ruby, Brent C.
A1 - Hoyt, Reed W.
SP - S37
EP - S44
VL - 26
IS - Suppl 2
N2 - A real-time thermoregulatory model using non-invasive measurements as inputs was developed for predicting physiological responses of individuals working long hours. The purpose of the model is to reduce heat related injuries and illness by predicting the physiological effects of thermal stress on individuals while working. The model (Comput Biol Med 38: 1187-1193. 2008) was originally validated mainly by using data from controlled laboratory studies. The present study expands the validation of the model with field data from 26 test volunteers, including US Marines, Australian soldiers, and US wildland fire fighters (WLFF). These data encompass a range of environmental conditions (air temperature: 19°C - 30°C; relative humidity: 25% - 63%) and clothing (i.e., battle dress uniform, chemical-biological protective garment, WLFF protective gear), while performing diverse activities (e.g., marksmanship, marching, extinguishing fires, and digging). The predicted core temperatures (Tc), calculated using environmental, anthropometric, clothing, and heart rate measures collected in the field as model inputs, were compared with subjects' Tc collected with ingested telemetry temperature pills. Root mean square deviation (RMSD) values, used for goodness of fit comparisons, indicated that overall, the model predictions were in close agreement with the measured values (grand mean of RMSD: 0.15°C - 0.38°C). Although the field data showed more individual variability in the physiological data relative to more controlled laboratory studies, this study showed that the performance of the model was adequate. Language: en
LA - en
SN - 1064-8011
UR - http://dx.doi.org/10.1519/JSC.0b013e31825ceba4
ID - ref1
ER -