ObjectiveTo investigate the clinical characteristics of motorcycle spoke heel injury and the effectiveness of sequential therapy of vacuum sealing drainage (VSD) and pedicled flap transplantation for treating motorcycle spoke heel injury in children. MethodsBetween January 2010 and January 2014, 15 children (aged from 3 to 8 years, 5.7 years on average) with motorcycle spoke heel injury received sequential therapy of VSD and pedicled flap transplantation. The interval from injury to admission was 3-7 days, with an average of 4.9 days. The locations were the heel in 8 cases, the heel and lateral malleolus in 2 cases, and the medial malleolus and medial heel in 4 cases, and the medial and lateral malleolus and heel in 1 case. The patients had different degrees of defects of the skin, tendon, and bone. The skin defect size ranged from 3 cm×3 cm to 13 cm×6 cm. VSD was applied for twice in 13 cases and three times in 2 cases. Reversed flow sural flap was applied in 8 cases, lateral supramalleolar flap in 2 cases, medial supramalleolar perforator-based flaps in 4 cases, and posterior tibial artery flap in 1 case. Eight pedicled flaps with neuroanastomosis were selected according to the wound characteristics. The flap size ranged from 4 cm×4 cm to 14 cm×7 cm. ResultsOf 15 cases, 13 flaps survived well except that two had partial skin necrosis at the distal site. Primary healing was obtained, and skin graft at donor site survived. The patients were followed up 9-21 months (mean, 13 months). Mild and moderate bulky flaps were observed in 9 cases and 6 cases respectively. Of 15 cases, 13 could walk with weight loading, and 2 had slight limping. Superficial sensation recovered to S3 in 8 patients undergoing neuroanastomosis, and recovered to S2 in 7 patients not undergoing neuroanastomosis at 6 months after operation. According to AOFAS evaluation system for Ankle-Hindfoot, the results were excellent in 13 cases and good in 2 cases, with an excellent and good rate of 100% at 8 months after operation. ConclusionThe main characteristic of motorcycle spoke heel injury lies in a combination of high energy damage and thermal damage. Sequential therapy of VSD and pedicled flap transplantation can be regarded as a reliable option to obtain good outcome of wound healing and satisfactory functional recovery for the management of motorcycle spoke heel injury.
ObjectiveTo observe the effect of thermal damage in the fresh isolated kidneys of New Zealand white rabbits caused by domestic holmiumlaser. MethodsIn the operation room (constant temperature 22℃, humidity 60%), Guangdong electric (POTENT) domestic holmium laser equipment was chosen. The fresh isolated kidney of New Zealand white rabbit was put into a disposable sterilized syringe with 50 mL normal saline, then the holmium laser optical fiber (550 μm) was put into it, and the temperature of normal saline was measured by a mercury thermometer. The parameters of holmium laser were setted as frequency 20 Hz, energy 2 J, stimulating time 15 seconds, intermittent time 5 seconds, which was repeated. The temperature was measured 2, 5 and 7 minutes after stimulation. Then the kidney was dissected, phtographed, haematoxylin-eosin stained, and pathologically examined.ResultsAt the 2nd minute of stimulation, the temperature of normal saline in the syringe increased from 22℃ to 38℃; the cortex and medulla of rabbit kidney were ruddy, and the cortex, medulla and ureter were almost normal in pathological section. At the 5-minute point, the temperature increased to 57℃, and the cortex turned to be white, while the medulla remained ruddy, but the demarcation between the cortex and medulla was not very clear. At the 7th minute, the temperature was 78℃, and the cortex and medulla were both white and solidification with no clear demarcation. Pathological examination showed severe degeneration and necrosis of glomerulus and renal tubule.ConclusionCommon power of domestic holmium laser would produce increasing thermal damage, which may cause tissue damage in the human body when the temperature increases above 50℃.