Alterations in the Metabolic and Sympathetic Response to Cold Exposure after Cold Air Acclimation

The armed services, primarily the Navy and Coast Guard, are tasked with maintaining free passage and security in many geographical locations encompassing tropical and polar conditions. While personnel performance in heat has been well studied and ameliorative guidelines implemented, little is known...

Full description

Bibliographic Details
Main Authors: Hesslink, R. L., Armstrong, D. W., Kowalski, K., Allen, L. D., Reed, H. L.
Other Authors: NAVAL MEDICAL RESEARCH INST BETHESDA MD
Format: Text
Language:English
Published: 1989
Subjects:
Anatomy and Physiology
Stress Physiology
*METABOLISM
*EXPOSURE(PHYSIOLOGY)
*RESPONSE(BIOLOGY)
*BODY TEMPERATURE
FUNCTIONS
POLAR REGIONS
POSITION(LOCATION)
LOW TEMPERATURE
HORMONES
HIGH RATE
SKILLS
HUMANS
AIR
COGNITION
INTENSITY
COLD REGIONS
SURVIVAL(GENERAL)
REDUCTION
SHORT RANGE(TIME)
CLIMATE
ADAPTIVE SYSTEMS
STANDARDIZATION
MANUAL OPERATION
TROPICAL REGIONS
ELEVATION
ADAPTATION
MENTAL ABILITY
HEAT BALANCE
GEOGRAPHY
HYPOTHERMIA
ANTARCTIC REGIONS
COAST GUARD
SYMPATHETIC NERVOUS SYSTEM
ACCLIMATIZATION
SHIVERING
PE63706N
WUDN246556
Antarctic
Antarc*
Online Access:http://www.dtic.mil/docs/citations/ADA216817
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA216817
Description
Summary:The armed services, primarily the Navy and Coast Guard, are tasked with maintaining free passage and security in many geographical locations encompassing tropical and polar conditions. While personnel performance in heat has been well studied and ameliorative guidelines implemented, little is known about performance and survival in the cold. Acute cold exposure elicits frank shivering concomitant with a short-term elevation in basal metabolism. Extended cold exposure can produced mild to severe hypothermia resulting in reduced cognitive function and manual dexterity, thus, having a tremendous effect on mental and physical performance. Moreover, personal safety and health can be compromised in such environments. The ability to adapt to these cold climates and possible improve one's performance has been extensively investigated. There is strong evidence that localized cold adaptation can occur over many years of exposure. Whether this adaptation is due to local factors, central factors, or both is not clear. The mechanism responsible for whole body cold adaptation is not clearly understood, but it is generally believed that various types of whole body cold adaptation are possible. Serum triiodothyronine (T3) is the primary hormone involved with many thermoregulatory and adaptive phenomena. As circulating T3 levels appear to be decreased with prolonged Antarctic residence, we sought to determine whether T3 supplementation and multiple cold air exposures would enhance human thermoregulation during a standardized cold air challenge.

Similar Items