RESUMEN
BACKGROUND: There is a paucity of scientific information on the histologic changes associated with the clinical response to microdermabrasion. OBJECTIVE: In this study we sought to evaluate those changes in the skin after microdermabrasion, using a porcine model. METHODS: Using the left flank of an 8-week-old pig, we tattooed 4 areas with "A," "B," "C," and "D." Each of these areas was subdivided, in a gridlike fashion, from the dorsal to the ventral surface into 3 x 3-cm squares, which were numbered 1 through 8. Vacuum was initiated at 25 mm Hg the first week and increased by 5 mm Hg for each of 7 weeks to a high of 55 mm Hg in week 7. Biopsy specimens from each grid were obtained weekly. These samples were stained with hematoxylin and eosin and with the Verhoff/Van Geison (elastin) stain. Blinded histologic review of the biopsy specimens was performed by a dermatopathologist. Histometric analyses of the biopsy specimens were performed in which dermal thickness (millimeters), collagen-bundle thickness (microns), and epidermal thickness (microns) were all measured. RESULTS: Dermal thickness was increased by as much as 40% in the thinner skin and by 27% in the thicker skin. Similarly, the increase in collagen-bundle thickness was 22%, whereas the increase in the epidermal thickness was 9%. CONCLUSIONS: The findings of this preliminary study appear to indicate that microdermabrasion produces real increases in dermal thickness, collagen-bundle thickness, and epidermal thickness. Histologically, the procedure produces changes similar to those seen after dermabrasion, laser resurfacing, and chemical peels.
RESUMEN
Irrigation solution is routinely used in microsurgery. While the anticoagulation solution may aid in anastomotic patency, the direct effect of pressure irrigation can have a detrimental effect on the vessel. An experimental study was performed to determine the effect of irrigation pressure on the vessel wall. Histological evaluation with hematoxylin and eosin (H&E) stain and scanning electron microscopy (SEM) was performed on the arteries of New Zealand white rabbits irrigated with lactated Ringer's solution at pressures of 80 mmHg, 100 mmHg, and 500 mmHg. H&E staining and SEM microscopy demonstrated injury to the endothelial cells and internal elastic lamina at pressures of 100 mmHg or greater. Controlling microsurgical irrigation pressure to less than 100 mmHg may help to avoid vessel injury.