Comparison of Wound Repair after Irradiation of Rat Skin with 1064 nm Nd:YAG, CO2, and Er:YAG Lasers / 대한피부과학회지

BACKGROUND: Laser therapy for various skin conditions is one of the most common procedures in dermatology. Recently, several articles described the use of 1064 nm Q-switched Nd:YAG lasers for the treatment of benign skin lesions. Such treatment is known to trigger its therapeutic effect through a photoacoustic effect and selective photothermolysis effect. However, only a limited number of articles have dealt with the theoretical base of the photoacoustic effect of the 1064 nm Q-switched Nd:YAG laser. OBJECTIVE: To compare the wound repair process and nonselective tissue heat damage induced by three different laser modalities: the CO2 laser, Er:YAG laser, and 1064 nm Q-switched Nd:YAG laser. METHODS: We irradiated the skin of an albino rat (Sprague Dawley(R), 200~250 g) with CO2, Er:YAG, and 1064 nm Q-switched Nd:YAG lasers. Skin biopsy specimens of the irradiated areas were collected on the first, fifth, and tenth day after laser exposure. For histologic analysis, the specimens were stained with the H&E, Verhoff-Van Gieson, and Masson's trichrome protocols. RESULTS: Compared with other laser modalities, rat skin irradiated by the 1064 nm Q-switched Nd:YAG laser showed the least amount of heat damage and the quickest tissue repair response to the damage. CONCLUSION: A 1064 nm Q-switched Nd:YAG laser with a photoacoustic effect capable of ablating the epidermis and dermis can be a proper treatment modality for the removal of benign skin lesions. The 1064 nm Q-switched Nd:YAG laser may be considered as an alternative treatment option for the treatment of benign skin lesions.

The Changes in the Removal Torque of Screws after Local Heating / 대한정형외과연구학회지

PURPOSE: The extraction of well-fixed metallic implants can be extremely demanding and time consuming, resulting in damage surrounding bone. Therefore, a less traumatic method of removing a well-fixed implant from bone is necessary. Our hypothesis was that a well-fixed implant can be extracted more easily if it is heated to a high temperature. The present study was conducted to evaluate the effect of local heating on the removal torque of well-fixed titanium screws. MATERIALS AND METHODS: A titanium screw (2.7 mm diameter, 12 mm length) was bilaterally inserted into the distal femur of 14 New Zealand White rabbits at identical locations. Five rabbits were sacrificed at 8 weeks, and 9 rabbits were sacrificed at 20 weeks after screw insertion. Both femurs were harvested, and screw removal torques were measured using a torque gauge. Before removal, the screws in right femurs were heated with an electric soldering iron and then cooled with dry ice, whereas screws in the left femur were removed without heating. After removing the screws, Hematoxylin & Eosin staining was performed to allow the histological assessment of bone tissues around the implants, and picrosirius red F3BA staining was performed to assess the extent of bone damage. Statistical differences between the heat treated and untreated groups were determined using the Wilcoxon Signed Ranks test and differences with respect to the duration of implantation were evaluated by the Mann-Whitney test. A p value of & .05 was considered to be significant. RESULTS: The removal torques for the heated screws were significantly lower than those for the non-heated screws for both 8 and 20 weeks groups. For non-heated screws, removal torques for the screws implanted 20 weeks was significantly higher than those of the screws implanted for 8 weeks (p & .05). H & E staining showed that the screw-bone interface was denatured in heat treated group. Polarized microscopy after picrosirius red F3BA staining showed that the collagen in the thermally damaged region had denatured, resulting in a loss of its natural birefringence. The maximal depth of the thermally damaged region from the screw/bone interface was less than 400 micrometer. CONCLUSION: Controlled local heating may be a less traumatic method of removing a well-fixed implant from bone.