Objective To investigate the operative procedure and the clinical results of the island flap based on the vascular chain of the cutaneous branch of dorsal metacarpal artery for repairing finger soft tissue defect. Methods Between January 2008 and March 2012, 28 cases of tissue defect of fingers (32 fingers) were repaired with the island flaps based on the vascular chain of the cutaneous branch of dorsal metacarpal artery. There were 20 males (23 fingers) and 8 females (9 fingers), with an average age of 29.5 years (range, 14-67 years). The injury causes included 14 cases of crush injury, 6 cases of pressing injury, 5 cases of cutting injury, and 3 cases of avulsion injury. The locations included 10 index fingers, 13 long fingers, 6 ring fingers, and 3 little fingers. There were 9 defects of proximal segment, 12 defects of middle segment, and 11 defects of distal segment. The area of defect ranged from 1.0 cm × 0.8 cm to 5.2 cm × 3.5 cm. The disease duration was 1 hour to 15 days. The area of flaps ranged from 1.2 cm × 1.0 cm to 5.5 cm × 3.8 cm. The donors were closed by suture or were repaired with skin graft. Results Tense blister occurred in 3 cases, which was cured after dressing change; the other flaps survived. Wound obtained primary healing. Twenty-five patients (27 fingers) were followed up 6-25 months (mean, 16.8 months). The flaps had soft texture and satisfactory appearance. Two point discrimination was 6-9 mm (mean, 7.7 mm) at 6 months after operation. The total active movement of fingers was 105-230° (mean, 204.6°). The results were excellent in 17 fingers, good in 8 fingers, and fair in 2 fingers with an excellent and good rate of 92.6%. Conclusion The island flap based on the vascular chain of the cutaneous branch of dorsal metacarpal artery has the advantages of the deverting point from the dorsal point to the palm, the extended vessel pedicle, and expanded operation indications, so it is not necessary to cut the dorsal metacarpal artery. It can be used to repair finger tissue defect.
Objective To investigate the effectiveness of the island flap pedicled with the dorsal cutaneous branches of thumb radial digital artery from the same finger for repairing pulp defect. Methods Between June 2009 and March 2010, 10 patients (10 fingers) with pulp defect of thumb were treated. There were 6 males and 4 females, aged 13-68 years with an average of 38 years. Defect was caused by machine crush in 4 cases, by saw machine in 3 cases, by chronic infection in 2 cases, and by burn in 1 case. The disease duration was 3 hours to 4 months. In 4 cases of distal pulp defect (1.0 cm × 0.8 cm to 2.0 cm × 1.4 cm) with exposure of bone or tendon, defect was repaired with island flap pedicled with the interphalangeal joint cutaneous branches of thumb radial digital artery (1.0 cm × 0.8 cm to 2.2 cm× 1.5 cm). In 6 cases of proximal pulp defect (1.0 cm × 0.8 cm to 2.5 cm × 2.0 cm) with exposure of bone or tendon, defect was repaired with island flap pedicled with the metacarpophalangeal joint cutaneous branches of thumb radial digital artery (1.0 cm × 0.8 cm to 2.6 cm × 2.2cm). The donor sites were repaired with skin grafts. Results All flaps and skin grafts survived, and wounds healed by first intention. Ten cases were followed up 6-12months (mean, 8 months). The colour, texture, and contour of the flaps were good. The two-point discrimination was 7-10mm on the island flap at last follow-up. According to total active motion (TAM) standard, the thumb function was assessed as excellent in 8 cases, good in 1 case, and fair in 1 case, and the excellent and good rate was 90%. Conclusion The main digital artery and nerve of thumb will not be sacrified when the island flap pedicled with the dorsal cutaneous branches of thumb radial digital artery is used. The operative procedure is simple, so it is a good method for repairing pulp defect of thumb.
Objective To approach a new procedure of microsurgery to repair thumb fingertip amputation with forward homodigital ulnaris artery flap coverage for bone and nail bed graft. Methods From March 2005 to October 2007, 6 cases of amputated thumb fingertip (6 fingers) were treated, including 4 males and 2 females and aging 23-63 years. Six patients’ (3 crush injuries, 2 cut injuries and 1 other injury) amputated level was at nail root (2 cases), mid-nail (3 cases), and the distalone third of nai bed (1 case). The time from injury to surgery was 3-10 hours, they were treated with forward homodigital ulnaris artery flap coverage for bone and nail bed graft. The flaps size ranged from 1.5 cm × 1.4 cm to 2.0 cm × 1.4 cm. Results All flaps survived. Wound healed in one-stage in 5 cases, and healed in second stage in 1 case because of swell ing. All skin grafting at donor site survived in one-stage. All patients were followed up for 6-8 months. The appearance of flaps were good, and the two-point discrimination was 5-6 mm. Bone graft were healed, the heal ing time was 4-5 weeks. All finger nails were smooth and flat without pain. Conclusion When there was no indication of replantation in thumb fingertip amputation, establ ishing the functional and esthetic construction can be retained with forward homodigital ulnaris artery flap coverage for bone and nail bed graf
Objective?To compare the double dorsal phalangeal flap (DDPF) with the combination of digital neurovascular island flap (NVIF) and first dorsal metacarpal artery flap (FDMA) in terms of repairing digit degloving injury.?Methods?From October 2005 to March 2008, DDPF was used to repair 9 patients (9 fingers) with degloving injury of the thumb and index finger and completely amputated thumb and index finger (group A). From August 1996 to June 2007, NVIF and FDMA were used to repair 13 patients (13 fingers) with the thumb degloving injury and completely amputated or necrotic thumb (group B). In group A, there were 7 males and 2 females aged 19-48 years old, there were 4 cases of thumb and index finger degloving injury repair and 5 cases of completely amputated thumb and index finger reconstruction, the skin defect ranged from 6.0 cm × 3.5 cm to 7.0 cm × 4.5 cm, and the interval between injury and operation was 3-10 hours. The size of DDPF harvested during operation was 4.0 cm × 3.5 cm-5.0 cm × 4.0 cm. In group B, there were 10 males and 3 females aged 18-50 years old, there were 5 cases of thumb degloving injury repair and 8 cases of completely amputated or necrotic thumb reconstruction, the skin defect ranged from 6.0 cm × 3.0 cm to 7.0 cm × 4.5 cm, and the interval between injury and operation was 3 hours-5 days, and the size of NVIF and FDMA harvested during operation was 3.5 cm × 3.0 cm-5.0 cm × 4.0 cm. The donor site was repaired with the full-thickness skin graft.?Results?All the flaps survived uneventfully except for 1 case in group A suffering from venous crisis 1 day after operation and 2 cases in group B suffering from FDMA artery crisis 4-12 hours after operation. Those flaps survived after symptomatic treatment. All the wounds healed by first intention. All patients in two groups were followed up for 1-12 years (average 3.2 years). All the donor sites were normal except for 3 cases in group B suffering from flexion contracture deformity of the proximal interphalangeal joint due to the scar contracture in the margin of NVIF donor site. According to Allen test, the skin temperature and color of the donor fingers in two groups were normal under room temperature; 1 case of group A and 6 NVIF donor fingers of group B were pale and cold under ice water. According to sensory recovery evaluation system, 16 fingers in group A were graded as S4, 1 as S3+, and 1 as S2; while in group B, 3 NVIF fingers were graded as S3, 6 NVIF fingers as S2, 4 NVIF fingers as S1, and 13 FDMA fingers as S4. The appearance of the recipient flap was satisfactory and the color was similar to the surrounding skin. The skin temperature and color of the flaps in two groups were normal under room temperature; 2 cases of group A and 4 recipient fingers of group B were pale and cold under ice water. In group A, all the palmar flap of the recipient finger achieved the reorientation of the recipient flap sensation; while in group B, 8 cases achieved the reorientation of the recipient flap sensation, and 5 cases had double sensation. For the two-point discrimination of the flap, group B was superior to that of group A in terms of the palmar aspect (P lt; 0.05), no significant difference was evident between two groups in terms of the dorsal aspect (P gt; 0.05), and the palmar aspect of each group was superior to the dorsal flap (P lt; 0.05).?Conclusion?DDPF is less invasive to donor finger, easy to be operated, able to partially restore the sensory of the injured finger, and suitable for the repair of the degloving injury of the thumb and the index finger. Combination of NVIF and FDMA can restore the fine sensory of recipient palmar flap better and is applicable for those patients suffering from digital nerve defects from the proximal phalanx and with high demand for the recovery of thumb sensory.
Objective To investigate new classification and repair methods for the traverse amputated fingertip. Methods From March 2000 to October 2006, 20 cases of 20 fingers with traverse amputated fingertip, including 13 males and 7 females aged 17-47 years, were treated. Twenty patients (9 crush injuries, 5 cutting injuries and 6 sawing injuries) were classified into 4 types, namely type I (the distal one third of nail bed), type II (the middle of nail bed), type III (the poximal one third of nail bed), and type IV (the root of nail bed). There were 3 patients (2 index fingers and 1 l ittle finger) of type I, 8 patients (2 thumbs, 3 index fingers and 3 middle fingers) of type II, 5 patients (3 index fingers, 1 ring finger and 1 l ittle finger)of type III, and 4 patients (2 thumbs, 1 middle finger and 1 l ittle finger) of type IV. The soft tissue defect ranged from 1.2 cm × 1.2 cm to 1.5 cm × 1.2 cm. The time from injury to surgery was 3-10 hours. Fingers of type I and type II were treated with forward flow axial flap and modified nail bed lengthening. Fingers of type III and type IV were treated with forward flow axial flap and partial nail bed replantation as well as modified nail bed lengthening. The flaps ranged in size from 1.5 cm × 1.2 cm to 2.0 cm × 1.4 cm. Results Twenty patients incisions healed by first intention and the flaps, nails and skin grafting survived. All donor sites healed by first intention. All patients were followed up for 2-6 months (4 months on average). The appearances of fingertips were good. The texture of the flap was soft, and the fingers had no tenderness and motor disturbance. The two-point discrimination was 4.5-6.5 mm.The finger nails of type I and type II extended 3-4 mm after operation, while the finger nails of type III and type IV extended 8-10 mm after operation. All finger nails were smooth and flat without pain. Hook nail happened in 1 case 6 months after operation. Conclusion Classification of the injured fingers according to the condition of the amputation base is helpful in choosing repair methods, and is conducive to maximize the recovery of the function and shape of fingertips.
Objective To investigate the cl inical effect and operative method of local island flap for complex thumb mutilation with soft tissue and blood vessel defect. Methods From May 2003 to March 2006, 6 cases of complex thumb mutilation with soft tissue and blood vessel defect were treated with local island flap. There were 4 males and 2 females aged 14-48 years, with an average of 23.5 years, among whom 2 cases were caused by triangular bandage twist, 3 cases by machinesavulsion and 1 case by explosion. Five cases suffered thumb mutilation of soft and blood vessel defect only, and 1 case was combined with middle and ring finger injures. The defect was located in pulp soft tissue in 4 cases and in dorsal soft tissue in 2 cases, ranging 2.0 cm × 1.2 cm-2.5 cm × 1.8 cm in size. The time from injury to operation varied from 30 minutes to 6 hours. Two cases were replanted with bridging index finger radial is digital artery island, 2 cases were repaired by ring finger radial is digital artery island and 2 cases by index finger near dorsi-flap. The flap was 2.0 cm × 1.4 cm-2.5 cm × 1.8 cm in size. Free-skin graft from forearm was conducted. Results All flaps free skin and replanted thumbs in 6 cases survived completely, following up for 6-24 months after operation. The flaps and thumb had good texture and color match, two-point discrimination was 10-12 mm on thumb pulp and 8-10 mm on flap. All replanted thumb recovered satisfied function, there were no donor site dysfunction. According to the criteria for function assessment of amputated finger issued by the Branch of Hand Surgery of Chinese Medicine Association:4 cases were regarded as excellent and 2 as good. Conclusion Local island flap is capable of repairing complex thumb mutilation with soft tissue and blood vessel defect, maximizing the recovery of thumb appearance and function.
Objective To report the clinical result of the improvedisland skin flap with distallybased sural nerve nutrient vessels in repairing skin defect in the heel, ankle or foot. Methods From August2004 to April 2005, 15 patients with skin defect in the heel, ankle or foot at distal part were treated by the improved island skin flap with distally-based of sural nerve nutrient vessels. Of 15 flaps, 12 were simplex flaps and 3 were complex flaps. These flap area ranged from 7 cm×6 cm to 11×8 cm. The donor sites were sutured directly and covered with free flap. Results All flaps survived without flap swelling and disturbance of blood circulation. The wounds of donor and recipient sites healed by first intention. The followup period ranged from 3 to 6 months. The texture of flap was soft and the color of flap was similar to that of normal skin. The foot function was excellent. Conclusion The improved island skin flap with distally-based sural nerve nutrient vessels is an ideal skin flap for repairing skin defect in the heel, ankle or foot distal part in clinical. The operation is simple and need not to anastomose blood vessel.
Objective To summarize the methods of repairingthe urethral defect in the penis of an adult and the clinical application of the island skin flaps of the scrotum septum to the reparative treatment. Methods From January 2000 to November 2005, twenty-six cases of urethral defect in penis, including 16 cases of congenital urethral defect, 6 cases of traumatic urethral defect in middle penis, and 4 cases of distal urethral defect, were repairedby the local penis fascia flaps.The island skin flaps of the scrotum septum were transferred to cover the penis wound. The pedicle contained the artery of the posterior scrotum and the artery of the anterior scrotum. The flap taken from the scrotum septum was 2.5 cm×5.5 cm in area. Results After a follow-up of 7months to 4 years, all the 26 patients had the healing of the first intention without urethral fistula, urethral narrowness or penis curvature, except 4 patients who developedinfection and leakage of urine, but the wounds healed spontaneously 2-4 weeks after operation. Conclusion The penis fascia flaps and the island skin flaps of the scrotum septum can be used to repair the urethral defect in the penis of an adult. The blood supply to the flaps is sufficient and all theflaps can survive well. A good shape and function of the penis can be obtained.
Objective To observe the clinical effects of neurovascular island flap from the same finger for repairing pulp defect. Methods From November 2003 to February 2005, 32 pulp defects in 30 cases were covered with neurovascular island flap from the same finger.There were 25 males and 5 females. The age ranged from 18 to 56 years. The operation was performedafter debridement and 2-8 days antibiotics therapy. The defect area ranged from 1.5 cm×1.2 cm to 3.5 cm×2.1 cm. The flap was harvested on the dorsal part ofthe finger ularly or radially. The distal end of the flap should be more than 5mm away from the nail base to avoid nail injury. The ventral and dorsal cut should not exceed the middle line respectively. The flap size ranged from 2.0 cm×1.5 cm to4.0 cm×2.5 cm. The donor site was covered with flap of subdermal vascular plexus from the medial side of the upper arm. Results All 32 transferred flaps survived after operation. There was no vascular crisis. Twentyfive cases were followed up from 2 to 8 months. The flaps had good appearance and texture and blood circulation. Two-point discrimination was 7-10 mm. The function of finger motion was returned to normal. Conclusion Transfer of neurovascular island flap from the same finger offered a sensational skin flap for reconstruction of pulp defect. The technique was simple, andthe clinical result was satisfactory. It is an ideal method for reconstruction of thumb or finger pulp defects.
Objective To find a better method of emergency repair of skin and soft tissue defects in the lower leg, ankle and foot. Methods The distally based superficial sural artery flap was designed on the posterior aspect of the leg. From February 2000 to December 2003, 18 patients with skin and soft tissue detects of the lower leg, ankle and foot were treated with island fasciocutaneous flap supplied by superficial sural artery by emergency. The size of the flap ranged form 4 cm× 5 cm to 11 cm×12 cm. Results The flaps survived totally in 16 cases and necrosed partially in 2 cases. After 1-2 year postoperative follow-up, the results were satisfactory except that in 2 flaps. Conclusion The island fasciocutaneous flap supplied by superficial sural artery may provide a useful method for emergency repair of soft tissue defect of the lower limbs.