Relationship of hairless mouse skin surface temperature to wound severity and maturation time

Skin surface temperature (SST) changes measured on live hairless mice are presented as a simple means of following wound healing. SST is generally determined by 3 factors which are the ambient temperature, the rate of water loss from the surface of the skin and the diffusion of thermal energy from t...

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Published inSkin pharmacology and applied skin physiology Vol. 16; no. 5; pp. 313 - 323
Main Authors GOVIL, S. K, FLYNN, A. J, FLYNN, G. L, ACKERMANN, C
Format Journal Article
LanguageEnglish
Published Basel Karger 01.09.2003
S. Karger AG
Subjects
Animals
Biological and medical sciences
Burns - physiopathology
Burns, Chemical - physiopathology
Dermatology
Epidermis - physiopathology
Male
Medical sciences
Mice
Mice, Hairless
Models, Animal
Skin involvement in other diseases. Miscellaneous. General aspects
Skin Temperature - physiology
Time Factors
Water Loss, Insensible - physiology
Wound Healing - physiology
Skin surface temperature
Wound maturation
Skin disease
Body temperature
Rodentia
Trauma
Wound
Burn
Vertebrata
Experimental disease
Phenol
Mammalia
Skin stripping
Mouse
Animal
Phenols
Skin
Burns
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Summary:Skin surface temperature (SST) changes measured on live hairless mice are presented as a simple means of following wound healing. SST is generally determined by 3 factors which are the ambient temperature, the rate of water loss from the surface of the skin and the diffusion of thermal energy from the body's core. The SST increase immediately after a burn injury reflects the amount of thermal energy absorbed by the skin surface. For burns and other injuries, the drop in SST following injury, but after thermal equilibrium has been established, provides an early indication of the degree of impairment of the skin's barrier. Three kinds of mouse skin wounds, mechanical (tape stripping), thermal and chemical (phenol application), were investigated. SST nadirs ranged from 2.1 to 4.4 degrees C with mild to full-thickness burns, respectively. Except for the earliest moments after wounding, striking parallels were noted between SST and transepidermal water loss profiles for these injuries. The SST profile over the full course of wound healing clearly indicates the severity of the injury, the stages of wound maturation and the time to complete skin healing.
ISSN:1422-2868
1660-5527
1422-2906
1660-5535
DOI:10.1159/000072071