A. Atabey et al., THE EFFECTS OF THE HELIUM-NEON LASER ON WOUND-HEALING IN RABBITS AND ON HUMAN SKIN FIBROBLASTS IN-VITRO, European journal of plastic surgery, 18(2-3), 1995, pp. 99-102
Helium-neon laser irradiation was applied to the denuded dermis and fu
ll-thickness open wounds on rabbit skin and eel cultures of human skin
fibroblasts to investigate its effects on the wound healing process.
To determine the effects of He-Ne laser radiation on epithelialization
rate, 3x3 cm denuded dermis areas on the flank of 16 rabbits were irr
adiated daily until complete epithelialization occurred. For histopath
ological evaluation biopsies were taken on the first day and on the da
y on which epithelialization was complete. As a second part of in vivo
study, identical full-thickness skin wounds were created bilaterally
on the middle flank area of 12 rabbits. He-Ne laser irradiation was ap
plied daily to the wounds until complete healing occurred to determine
the effects of the low-energy laser on the contraction of open wounds
. The contralateral wounds were left untreated, serving as controls. I
n a separate in vitro study, the effect of single or multiple applicat
ions of He-Ne laser irradiation on normal human skin fibroblasts in ce
ll cultures was evaluated using growth measurement. The mean epithelia
lization time was 11+/-0.63 days for the laser-treated wounds and 12+/
-0.12 days for the control wounds. The difference was not significant.
No significant difference was found between the contraction rates of
the full-thickness wounds (e.g., on the seventh post operative day, th
e average wound area was 70.2+/-6.75% of original wound area in the la
ser-treated group and 66.5+/-8.75% in the control group). Histopatholo
gically, epidermal thickening and an increase in dermal vascularity we
re observed in healed wounds of the laser-treated groups. However, in
vitro, this low-energy laser promoted cell growth in human fibroblast
cell cultures in 2- and 3-day treated groups (p<0.05).