Your search keyword '"Scott J. Montain"' showing total 4 results

1. Heat Removal Using Microclimate Foot Cooling: A Thermal Foot Manikin Study

Author

John W. Castellani, Scott J. Montain, Thomas L. Endrusick, Samuel N. Cheuvront, and Robert Demes

Subjects

geography, Hot Temperature, geography.geographical_feature_category, Materials science, Foot, Public Health, Environmental and Occupational Health, Microclimate, Plantar surface, Water, Heat Stress Disorders, Manikins, Inlet, Shoes, Volumetric flow rate, Thermal, Heat transfer, Humans, Body region, Composite material, Skin Temperature, Foot (unit), Body Temperature Regulation

Abstract

BACKGROUND It has been proposed that microclimate cooling systems exploit the peripheral extremities because of more efficient heat transfer. The purpose of this study was to quantify, using a patented microclimate cooling technique, the heat transfer from the plantar surface of the foot for comparison to other commonly cooled body regions. METHODS A military boot was fitted with an insole embedded with a coiled, 1.27 m length of hollow tubing terminating in inlet and outlet valves. A thermal foot manikin with a surface temperature of 34 degrees C was placed in the boot and the valves were connected to a system that circulated water through the insole at a temperature of 20 degrees C and flow rate of 120 ml x min(-1). The manikin foot served as a constant heat source to determine heat transfer provided by the insole. Testing was done with the foot model dry and sweating at a rate of 500 ml x h(- 1) x m(-2). Climatic chamber conditions were 30 degrees C with 30% RH. RESULTS Heat loss was approximately 4.1 +/- 0.1 and approximately 7.7 +/- 0.3 W from the dry and sweating foot models, respectively. On a relative scale, the heat loss was 3.0 W and 5.5 W per 1% (unit) body surface area, respectively, for the dry and sweating conditions. DISCUSSION The relative heat loss afforded by plantar foot cooling was similar compared to other body regions, but the absolute amount of heat removal is unlikely to make an impact on whole body heat balance.

Published

2014

2. Field assessment and enhancement of cognitive performance: development of an ambulatory vigilance monitor

Author

Harris R, Lieberman, F Matthew, Kramer, Scott J, Montain, and Philip, Niro

Subjects

Cognition, Military Personnel, Memory, Reaction Time, Humans, Attention, Signal Processing, Computer-Assisted, Equipment Design, Monitoring, Physiologic

Abstract

Limited opportunities to study human cognitive performance in non-laboratory, ambulatory situations exist. However, advances in technology make it possible to extend behavioral assessments to the field. One of the first devices to measure human behavior in the field was the wrist-worn actigraph. This device acquires minute-by-minute information on an individual's physical activity and can distinguish sleep from waking, the most basic aspect of behavior.Our laboratory developed a series of wrist-worn devices, not much larger than a watch, which assess reaction time, vigilance and memory. The devices concurrently assess motor activity with greater temporal resolution than standard actigraphs. They also continuously monitor multiple environmental variables including temperature, humidity, sound, and light.These monitors have been employed during training and simulated military operations to collect behavioral and environmental information that would typically be unavailable under such circumstances. Development of the vigilance monitor, and how each successive version extended capabilities of the device are described. Data from several studies are presented, including studies conducted in harsh field environments during a simulated infantry assault, an officer training course.The monitors simultaneously documented environmental conditions, patterns of sleep and activity and effects of nutritional manipulations on cognitive performance. They provide a new method to relate cognitive performance to real world environmental conditions and assess effects of various interventions on human behavior in the field. They can also monitor cognitive performance in real time, and if it is degraded, attempt to intervene to maintain

Published

2007

3. Cognition during sustained operations: comparison of a laboratory simulation to field studies

Author

Harris R, Lieberman, Philip, Niro, William J, Tharion, Bradley C, Nindl, John W, Castellani, and Scott J, Montain

Subjects

Adult, Male, Physical Exertion, Neuropsychological Tests, Relief Work, Disasters, Affect, Cognition, Military Personnel, Surveys and Questionnaires, Reaction Time, Humans, Sleep Deprivation, Food Deprivation, Psychomotor Performance

Abstract

Military operations, especially combat, expose individuals to multiple stressors, including sleep loss, food deprivation, and sustained physical activity. Civilians, such as woodland firefighters, disaster victims, and relief workers, are also exposed to such environments. Our laboratory developed a brief, intense, laboratory-based simulation of a multistressor environment which included sleep loss, continuous physical activity, and food deprivation.During this sustained operations (SUSOPS) scenario, and a control period, cognitive performance and mood were measured in 13 volunteers. The scenario included road marches, battle drills, and land navigation. Physical activity and sleep were assessed with actigraphs.Significant decrements in visual vigilance, choice reaction time, and matching-to-sample, a test of short-term memory, were observed. Marksmanship was stable and physical activity significantly increased. Mood states assessed by the Profile of Mood States (POMS: Tension, Depression, Anger, Vigor, Fatigue and Confusion) also significantly deteriorated.Cognitive function declined more extensively and rapidly than physical performance. Decrements in cognitive performance were comparable to those in a field study conducted for an equivalent period of time in uncontrolled conditions. This demonstrates that decrements in cognitive function and increased physical activity, similar to those in highly stressful field environments, can be duplicated under controlled conditions. The simulated SUSOPS scenario is an appropriate paradigm for assessment of adverse effects of military and civilian multistressor environments on human performance, physiology, and interventions designed to mitigate them.

Published

2006

4. Effectiveness of revised fluid replacement guidelines for military training in hot weather

Author

Margaret A, Kolka, Willliam A, Latzka, Scott J, Montain, William P, Corr, Karen K, O'Brien, and Michael N, Sawka

Subjects

Adult, Male, Hot Temperature, Military Personnel, Adolescent, Reference Values, Sodium, Fluid Therapy, Humans, Guidelines as Topic, Water-Electrolyte Balance, Exercise, Body Mass Index

Abstract

This study compared the revised U.S. Army fluid replacement guidelines (REV) with the old guidelines (OLD) on daily changes in serum sodium concentration (Na+) and body mass (BM) during Basic Combat Training at Fort Benning, GA during two successive summers.Recruits (n = 550; OLD = 277, REV = 273) were evaluated before and after 8-12 h of outdoor military combat training in hot weather. The WBGT (mean +/- SD) averaged 26.6 +/- 1.7 degrees C for OLD and 27.4 +/- 0.9 degrees C for REV (NS).Serum Na+ decreased from 137.5 +/- 1.6 mEq x L(-1) to 137.0 +/- 2.1 mEq x L(-1) after outdoor military training in OLD (p0.05). Twenty-two recruits (8%) had serum sodium fall to below 135 mEq x L(-1) during OLD. Serum Na+ increased from 139.0 +/- 1.7 mEq x L(-1) to 139.4 +/- 2.1 mEq x L(-1) after outdoor military training in REV (p0.05). Only two recruits (1%) had serum Na+ fall to below 135 mEq x L(-1) during REV. BM increased an average of 1.3 +/- 1.4 kg (p0.05) in OLD and an average of 0.4 +/- 1.7 kg in REV (p0.05).The revised guidelines effectively reversed the decrease in serum sodium, reduced the increase in body mass, maintained hydration and minimized overdrinking during hot weather military training compared with the old fluid replacement guidelines.

Published

2003