Objective: To evaluate the photobiomodulation effects on the receptor area for full-thickness skin graft integration.
Methods: Thirty-Six Wistar rats were divided: red laser (660 nm), infrared laser (808 nm), and control. A skin segment with 5 × 3 cm was removed. In the control, the skin was reallocated after a 180° rotation. For the 660 nm and 808 nm, the receptor area was first irradiated, and then the skin was reallocated the same as the control. Euthanasia occurred on the third and seventh days after the procedure, and macroscopical of necrosis and histological analysis were realized.
Results: The 660 nm reached the lowest necrosis percentage on Day 7. In the 808 nm, necrosis increased between the two periods. Similar morphological findings were observed for the control and 660 nm; however, the 808 nm showed significant alterations in fibrosis and inflammatory infiltrate.
Conclusion: The infrared wavelength showed inferior performance on skin graft integration compared to the control and the red wavelength.
Keywords: photobiomodulation; skin graft; tissue morphology; tissue necrosis; tissue repair.
© 2024 Wiley‐VCH GmbH.