Objective To evaluate the effectiveness of free flaps in repairing hot-crush injury in the dorsum of hand. Methods Between February 2003 and February 2012, 32 cases of hot-crush injuries in the dorsum of hand were repaired. There were 25 males and 7 females with an average age of 24 years (range, 16-45 years). The injury causes included machine crush injury in 9 cases, machine-press injury in 13 cases, and iron panel injury in 10 cases. The time from injury to admission ranged from 90 minutes to 8 hours (mean, 3 hours). The wound size ranged from 6 cm × 5 cm to 17 cm × 11 cm. Associated injuries included the extensor tendon necrosis in 12 cases, and the second metacarpal bone necrosis in 1 case. One-stage emergency debridement was performed in all cases; two-stage flap repair was given at 7-21 days when the necrotic area became determined. The dorsalis pedis flaps were used in 9 cases, the anterolateral thigh flaps in 9 cases, the latissimus dorsi flaps in 3 cases, the thoraco-umbilical flaps in 3 cases, and the lower abdominal flaps in 8 cases. The flap size ranged from 7 cm × 5 cm to 18 cm × 16 cm. The donor site was repaired by skin graft or sutured directly. Results All the flaps survived. Primary healing of wound was obtained in 25 cases and delayed healing in 7 cases. Skin graft at donor site survived, with healing of incision by first intention. Twenty-three cases were followed up 6-25 months (mean, 13 months). Thinning was carried out in 8 bulky flaps; the other flaps had good appearance and texture. At last follow-up, the range of motion (ROM) of the metacarpophalangeal joint ranged from 40 to 80° (mean, 58°); ROM of the proximal interphalangeal joint ranged from 35 to 70° (mean, 52°); and ROM of the distal interphalangeal joint ranged from 5 to 25° (mean, 12°). The sensation recovery of the flaps were more than S2. No scar formed at donor site. Conclusion Suitable free flap should be selected to repair hot-crush injury in the dorsum of hand according to size of wound, which will achieve satisfactory results.
Objective To analyze the therapy and effectiveness of ulnar styloid fracture complicated with wrist dorsal branch of ulnar nerve injury. Methods Between October 2005 and October 2012, 16 cases of ulnar styloid fracture complicated with wrist dorsal branch of ulnar nerve injury were treated. There were 14 males and 2 females with an average age of 42 years (range, 22-58 years). Fracture was caused by traffic accident in 8 cases, by mechanical crush in 5 cases, and by falling in 3 cases. According to the anatomical features of the ulnar styloid and imaging findings, ulnar styloid fractures were classified as type I (ulnar styloid tip fracture) in 1 case and type II (ulnar styloid base fracture) in 15 cases. The skin sensation of ulnar wrist was S0 in 5 cases, S1 in 1 case, S2 in 7 cases, and S3 in 3 cases according to the criteria of the British Medical Research Council in 1954 for the sensory functions of the ulnar wrist. The time from injury to operation was 6-72 hours (mean, 18 hours). Fracture was treated by operative fixation, and nerve was repaired by epineurium neurolysis in 13 cases of nerve contusion and by sural nerve graft in 3 cases of complete nerve rupture. Results All incisions healed by first intention. Sixteen patients were followed up for an average time of 14 months (range, 6-24 months). The X-ray films showed that all of them achieved bone union at 4-10 weeks after operation (mean, 6 weeks). No patient had complications such as ulnar wrist chronic pain and an inability to rotate. According to Green-O’Brien wrist scoring system, the results were excellent in 13 cases and good in 3 cases; according to the criteria of the British Medical Research Council in 1954 for the sensory functions of the ulnar wrist, the results were excellent in all cases, including 11 cases of S4 and 5 cases of S3+. Two-point discrimination of the ulnar wrist was 5-9 mm (mean, 6.6 mm). Conclusion For patients with ulnar styloid fracture complicated with wrist dorsal branch of ulnar nerve injury, internal fixation and nerve repair should be performed. It can prevent ulnar wrist pain and promote sensory recovery.
Objective To investigate the feasibility of repairing secondary wounds after scar excision in patients with scar contracture in whole dorsum of the hands by expanded full-thickness skin grafts. Methods Between February 2008 and February 2011, 15 patients (19 hands) with scar contracture in whole dorsum of the hands were treated. There were 12 males (14 hands) and 3 females (5 hands), aged 18-43 years (mean, 28.6 years). The disease duration was 6-22 months (mean, 13.2 months). All cases complicated by different degrees of metacarpophalangeal joint extension deformity and interphalangeal joint flexion deformity. In one-stage operation, soft tissue expanders were implanted at donor sites, and the time of water injection was 4-5 months; in two-stage operation, scar was excised and secondary wound (14 cm × 9 cm-25 cm × 16 cm in size) was repaired with the expanded full-thickness skin grafts. Results After one-stage operation, the others had good blood supply except 1 case of skin necrosis in the center of expanded skin flap. After two-stage operation, the full-thickness skin grafts survived well in 18 hands; subepidermal effusion occurred in 1 hand, which was cured after changing dressing. The incisions at donor sites healed well in all cases. All patients were followed up 6-18 months (mean, 13.7 months). The grafts were excellent in color, texture, and elasticity, and no hypertrophic scar was observed at the edge and joint of the grafts. The hand function recovered well; the flexion and extension of wrist joint, metacarpophalangeal joint and interphalangeal joint were normal. Conclusion The expanded full-thickness skin graft is a suitable solution to repair effectively scar contracture in whole dorsum of the hands because it has good results in the cosmetic appearance and function recovery of the hands.
Objective To explore the method and effectiveness of abdominal expanded subdermal vascular plexus skin flaps in repairing dorsal hand scar. Methods Between May 2005 and October 2010, 16 cases of dorsal hand scars weretreated with the abdominal expanded flaps. There were 13 males and 3 females, aged 22.5 years on average (range, 10-35 years). Defect was caused by burn in 10 cases, hot crush injury in 4 cases, and scald injury in 2 cases. The average scar formation was 21 months (range, 1 year and 6 months to 2 years). The patients had flexion restriction of metacarpophalangeal joint and interphalangeal joint. The scar size ranged from 11 cm × 7 cm to 18 cm × 10 cm. The expander was implanted in abdominal skin and inflated with water regularly at the first stage. After 2 weeks, the expanded pedicled flap was trasferred to repair wounds in which scars were excised. The flap size ranged from 12 cm × 9 cm to 19 cm × 12 cm. After being cut off the pedicle at 14 days, the fingers were divided, and the digital web was formed. The abdominal donor site was directly sutured. Results All flaps survived. The wound and donor site achieved primary heal ing. Sixteen cases were followed up 1 year and 2 months to 3 years with an average of 2 years and 3 months. The flaps had soft texture and good flexibil ity. At last follow-up, hand function was graded as excellent in 13 cases, good in 2 cases, and poor in 1 case with an excellent and good rate of 93.7% according to the total active motion evaluation system. Conclusion Abdominal expanded subdermal vascular plexus skin flap is an effective method to repair large scar of the dorsal hand because it has satisfactory texture, fast rebuilding of blood supply, and large area of survival.
Objective To review the methods and progress on repairing hand injury with dorsal neurocutaneous vascular flap. Methods Recent l iterature on repairing hand injury with dorsal neurocutaneous vascular flap was reviewed and analyzed. Results Island fascial flap was designed on the radial or ulnar side of the dorsum of the hand based on the anatomical study of the dorsum of the hand, and the choice of pedicle depended upon the position of wound. Conclusion Repairing hand injury with dorsal neurocutaneous vascular flap is easy to perform and in l ine with the principle of repairing wounds in proximity. It is one of the effective methods of repairing wounds of the hand.
OBJECTIVE: To provide anatomical bases for dorso-ulnar aspect of mid-hand reverse flap. METHODS: After red latex was infused into the arteries of 40 sides of adult cadava upper limbs, the origin, course, branches, distribution and distal anastomosis on the dorsal carpal branch of ulnar arteries were observed. And the mid-hand flap transfer was used to repair two cases of soft tissue defect (ranged 4.5-5.0 cm x 2.0-3.5 cm on ring and little fingers). RESULTS: The dorsal carpal branch begins with ulnar artery (3.9 +/- 1.2) cm above the pisiform with diameter of (1.3 +/- 0.2) mm, and branches off into ascending and descending branches. The descending one is the continuing of dorsal branch, it crosses the ulnar edge of the fifth metecarpal bone and anastomizes with the digital artery of little finger or hypothenar branch of deep palmar (accounted for 70%). While the other ascending branch with the former two branches formed anastomosis accounts for 30%. The two cases got healed in one-stage. The function of fingers recovered after 3-4 month follow-up. CONCLUSION: The reverse flap of dorso-ulnar aspect of mid-hand is available to repair the soft tissue defect on dorsum of hand with neighbor finger.