Objective?To investigate the surgical method and clinical efficacy of repairing whole-hand destructive injury or hand degloving injury with the transplant of pedis compound free flap.?Methods?From February 2003 to June 2008, 21 patients with whole-hand destructive injury or hand degloving injury were treated, including 15 males and 6 females aged 18-45 years old (average 25 years old). The injury was caused by punching machine crush in 10 cases, roller crush in 7 cases, and imprinter crush in 4 cases. The time between injury and operation was 1-9 hours. Eleven cases had the skin-degloving injury of the whole hand, while the other 10 cases had the proximal palm injury combined with dorsal or palmar skin and soft tissue defect. After debridement, the size of wound was 9 cm × 7 cm - 15 cm × 10 cm in the dorsal aspect and 10 cm × 7 cm -16 cm × 10 cm in the palmar aspect. The defect was repaired by the thumbnail flap of dorsalis pedis flap and the second toenail flap of dorsalis pedis flap in 5 cases, the thumbnail flap of dorsalis pedis flap and the second toe with dorsalis pedis flap in 4 cases, and bilateral second toe with dorsalis pedis flap in 12 cases. The flap area harvested during operation ranged from 6 cm × 5 cm to 16 cm × 11 cm. Three fingers were constructed in 2 cases and two fingers in 19 cases. Distal interphalangeal joint toe amputation was conducted in the thumbnail flap donor site, metatarsophalangeal joint toe amputation was performed in the second toenail flap donor site, and full-thickness skin grafting was conducted in the abdomen.?Results?At 7 days after operation, the index finger in 1 case repaired by the second toenail flap suffered from necrosis and received amputation, 1 case suffered from partial necrosis of distal dorsalis pedis flap and recovered after dressing change, and the rest 42 tissue flaps survived. Forty-three out of 44 reconstructed fingers survived. All the wounds healed by first intention. At 2 weeks after operation, 2 cases had partial necrosis of the donor site flap and underwent secondary skin grafting after dressing change, the rest skin grafts survived, and all the wounds healed by first intention. Nineteen cases were followed up for 6-36 months (average 11 months). The flaps of palm and dorsum of hand showed no swelling, the reconstructed fingers had a satisfactory appearance and performed such functions as grabbing, grasping, and nipping. The sensory of the flaps and the reconstructed fingers recovered to S2-S4 grade. The donor site on the dorsum of the foot had no obvious scar contracture, without obvious influence on walking.?Conclusion?For the whole-hand destructive injury or hand degloving injury, the method of transplanting pedis compound free flap can repair the defect in the hand and reconstruct the function of the injured hand partially. It is an effective treatment method.
OBJECTIVE: To discuss the indication of replantation of destructive amputation of multiple fingers for improvement of the function of injured fingers. METHODS: From February 1996 to August 1999, 23 amputated fingers in 8 cases were shortened and replanted. The crushed digital bones were fixed by Kirschner wires, flexor tendons repaired by Kessler suture technique, and digital extensor tendons repaired by mattress suture. The arteries and veins were anastomosed in each finger at the ratio of 1 to 2 or 2 to 3. The defect of blood vessels was repaired by free graft of autologous veins in 5 fingers. All of the cases were followed up for 10 to 18 months, and clinical evaluation was performed. RESULTS: All replanted fingers survived in the 8 cases, with good sensation, two point discrimination of 6 to 12 mm, and satisfied function, such as pinching, grasping and hooking. The fingers were shortened for 2.6 cm in average, ranging from 2.2 cm to 4.0 cm. CONCLUSION: Multiple digits replantation by shortening fingers is beneficial to functional restoration of segmental destructive fingers.
OBJECTIVE: To investigate a clinical method in repairing destructive hand injury and reconstructing hand function in early stage. METHODS: From January 1990 to June 1999, composite tissue transplantation was used to repair destructive hand damage and reconstruct hand function with vascular anastomosis in emergency (33 cases) or subemergency (126 cases). For the radial damage, combined flaps with toes was used to treat cicatricial contracture of thumb-web space. Opposing function of thumb was reconstructed by combined transplantation of short extensor muscle of great toe, short extensor muscle of toes or short abductor muscle of great toe in the same time of freeing the second toe. For no or deficient anastomosing vessels in donor site, "Y"--shaped reversal vein, anterograde bridging, or branches bridging of host vessels were applied. RESULTS: All of tissue transplantation were survived, including combined tissue transplantation in 51 cases, composite tissue transplantation in 4 cases, tissue transplantation after replantation of severed wrist and finger in 4 cases, there were no infection or necrosis in all cases, and hand function recovered well. CONCLUSION: It is an ideal procedure to repair destructive hand injury and reconstruct hand function by combined or composite tissue transplantation with vascular anastomosis in emergency or subemergency.
ObjectiveTo evaluate the effectiveness of repairing or reconstructing defects of the forefoot. MethodsBetween February 2006 and February 2013, 57 patients with defects of the forefoot were treated. There were 41 males and 16 females with an average age of 38.9 years (range, 19-68 years). The disease causes included motor vehicles crush injury in 28 cases, crashing injury in 17 cases, and machine extrusion injury in 12 cases. The left side was involved in 25 cases and the right side in 32 cases, with a mean disease duration of 4.7 hours (range, 0.5-75.0 hours). Defect located at the 1st metatarsus in 9 cases, at the 5th metatarsus in 8 cases, at the 1st and the 2nd metatarsus in 16 cases, at the 4th and 5th metatarsus in 11 cases, at multiple metatarsus and the forefoot in 13 cases. The bone defect ranged from 2.5 cm×1.9 cm×1.4 cm to 13.3 cm×11.2 cm×2.7 cm. The soft tissue defect ranged from 12.4 cm×6.3 cm to 27.2 cm×18.7 cm. The iliac bone or vascularized iliac bone or vascularized fibula bone was used to rebuild the arch of the foot, and free flap was used to repair defects of the forefoot. The donor site was sutured directly or covered with skin graft. ResultsVenous crisis and partial necrosis occurred in 3 and 2 flaps respectively, which healed after symptomatic treatment. The other flaps and grafted skins survived, and wounds healed primarily. Fifty-one cases were followed up 1.5-2.5 years (mean, 2.1 years). The appearance was excellent and the feeling of the flap recovered at different levels. The two-point discrimination was 8.4-19.8 mm (mean, 13.7 mm) at 1.5 years after operation. According to upper extremity functional evaluation standard by hand surgery branch of Chinese Medical Association, sensation recovered to S2 in 6 cases, to S3 in 18 cases, and to S4 in 27 cases. The patients began to walk with weight loading at 2-6 months after operation (mean, 3.9 months). The bone healing time was 3-6 months (mean, 4.2 months). Based on American Orthopaedic Foot and Ankle Society (AOFAS) standards, the results were excellent in 19 cases, good in 24 cases, fair in 7 case, and poor in 1 case, and the excellent and good rate was 84.3%. ConclusionIt is a good solution to treat defects of the forefoot to use iliac bone or vascularized iliac bone or vascularized fibula bone for rebuilding the arch of the foot and use free flap for repairing defect.