J Korean Burn Soc.  2016 Dec;19(2):73-81. 10.0000/jkbs.2016.19.2.73.

The Change of Surface Temperature in Healing Process of Wound and Burn in Porcine Model

Affiliations
  • 1Department of Emergency Medicine, College of Medicine, Chungnam National University, Daejeon, Korea.
  • 2Department of Emergency Medicine, Daegu Fatima Hospital, Daegu, Korea. emhwang1@hanmail.net
  • 3Department Emergency Medicine, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea.
  • 4Bestian Research Center, Daejeon, Korea.
  • 5Burn Center, Bestian Busan Hospital, Busan, Korea.
  • 6Department of Emergency Medicine, Dankook University College of Medicine, Cheonan, Korea.
  • 7Chungnam National University Hospital Clinical Trial Center, Daejeon, Korea.

Abstract

PURPOSE
The goal of wound managements are to prevent further tissue injury during dressing changes, and absorb the excessive exudates, provide moist condition, reduce the infection. But the usual dressing methods have several limitations to serve the information about wound surface environment. Moist, pressure, temperature, pH are the important factors that give us the information about the healing process phase, speed of healing, & the risk of infection.
METHODS
We made full thickness wounds & burn on porcine model, then assessed the surface temperature intermittently until repithelialization were completed, and size measurement were done with Image Pro Plus 6.0.
RESULTS
In wound areas, the surface temperature was lowest at post operation #1 day, then slightly increased till POD #21 days, and again down slope curvature. In burn area, the surface temperature was highest at POD #1 day, then slightly decreased till POD # 21 days, and more fall curvature. Modern sensing technology along with wireless radio frequency communication technology is posed to make significant advances in wound management. Our result will be a basic data for the future researches about the surface temperature monitor to detect the early infection and the intervention to modulate the surface temperature to increase the rate of epithelialization.
CONCLUSION
The result of the correlation between the surface temperature and area reduction have weak or moderate negative Pearson correlation coefficient.

Keyword

Wound-surface interface; Wound surface temperature; Wound area reduction; Dressing; Capillary perfusion

MeSH Terms

Bandages
Burns*
Exudates and Transudates
Hydrogen-Ion Concentration
Wounds and Injuries*
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