Objective To discuss the clinical effect of cross-finger flap with cutaneous branch of the ulnar digital finger on repairing the palmar soft tissue defect of the finger. Methods From October 1996 to June 2004, crossfinger flaps were used to repair the palmar soft tissue defect of the finger in 25 cases( 32 fingers ) with tendon or bone exposed. There were 18 males and 7 females, and theirages ranged from 13 to 45 years. Among them, 6 cases were incised injury, 8 cases were impact and press injury, 11 cases were crush injury; and 2 cases were thumb, 8 cases were index, 5 cases were middle finger, 3 cases were ring finger, 2 cases were little finger, 2 cases were index and middle finger, 2 cases were middle and ring finger, and 1 cases were index, middle, ring and little finger. Thetime from injury to diagnosis was 30 min to 48 h, and the size of the tissue defect was 1.5 cm×1.0 cm to 4.1 cm×2.0 cm. All cases were treated with emergent operation, and the sense of the flap was recovered by anastomosing the cutaneous branch of the ulnar digital finger and the distal digital nerve of injured finger. The flap pedicle was dissected 3 weeks later. Results Followup was conducted for 6 to 26 months and it showed that the cross-finger flaps all survived with full digital fingertip, satisfactory appearance, good function, and normal sense. The discrimination of two points was 5-8 mm. Conclusion As it is easy to operate and with satisfactory appearance and good function restoration, cross-finger flap with cutaneous branch of the ulnar digital finger is effective in repairing the palmar soft tissue defect of the finger.
Double adjacent-finger skin flap could be used to treat severe cicatricial contracture of fingers with resultant complete release of contracture and good coverage of raw surface. From the follow-up, it was noted that the appearance of the fingers following treatment looked nice, no recurrence of contracture in the late stage, and partial sensation of the fingers could be recovered as well. It had no ill-effect on the donor fingers, The method was simple and reliable,from 1987, a total of 4 cases had been done,and the functional recovery wassatisfactory.
Objective
To discuss the effectiveness of free toe fibular-dorsal artery flap anastomosed to dorsal digital artery in repairing dorsal soft tissue defect of fingers.
Methods
Between May 2010 and September 2015, 28 patients with dorsal soft tissue defect of fingers were treated, including 17 males and 11 females with an average age of 23.8 years (range, 15-55 years). The reasons of injuries were machine twist (15 cases), heavy pound (4 cases), the sharp cut (5 cases), and hot crush (4 cases). The time from injury to admission was 30 minutes to 12 hours (mean, 1.5 hours). The involved fingers included thumb (3 cases), index finger (8 cases), middle finger (6 cases), ring finger (6 cases), and little finger (5 cases). The area of soft?tissue?defects ranged from 2.0 cm×1.5 cm to 3.5 cm×2.5 cm, and the area of free toe fibular-dorsal artery flap ranged from 2.8 cm×1.7 cm to 3.8 cm×2.8 cm. The blood supply of the flaps were reconstructed by anastomosing the toe fibular-dorsal artery, vein, and nerve to the dorsal digital artery, vein, and nerve, respectively. The donor site was repaired by free skin graft.
Results
The operation time was 1.5-5.5 hours (mean, 2.5 hours); the blood loss during operation was 10-50 mL (mean, 30 mL). Vessel?crisis?occurred?in?1 case, and the flap survived after symptomatic treatment. The other flaps survived and the wounds healed with stage I; the skin grafts at donor site survived and the incisions healed with stage Ⅰ. Twenty-eight cases were followed up 6-24 months (mean, 8 months). The appearance of flaps was good, and two-point discrimination was 3.5-12.0 mm (mean, 5.3 mm) at 6 months after operation. The fingers function of grab and pinch recovered. According to the standard functional evaluation issued by Hand Surgery Association of Chinese Medical Association, the results were excellent in 20 cases and good in 8 cases, with an excellent and good rate of 100% at 6 months after operation. The donor sites of toe were smooth and had no depression. The patients had normal gait.
Conclusion
Free toe fibular-dorsal artery flap anastomosed to dorsal digital artery in repairing dorsal soft tissue defect of fingers can obtain satisfactory effectiveness in appearance and function of fingers, and has the advantages of modified repair and less injury at donor site.
Objective To investigate the surgical procedures and cl inical outcomes of the neurovascular free flap based on dorsal branch of digital artery of ring finger graft for repair of finger pulp defect. Methods From February 2006 to May 2009, 11 cases (11 fingers) of finger pulp defect with tendon and bone exposure were treated, including 8 males and 3 females with an average age of 29 years (range, 23-40 years). The defect locations were thumb in 2 cases, index finger in 5 cases, and middle finger in 4 cases. The defect size ranged from 1.0 cm × 1.0 cm to 2.5 cm × 2.0 cm. The time frominjury to operation was 1-9 hours. The flap size ranged from 1.5 cm × 1.5 cm to 3.0 cm × 2.5 cm. Five flaps carried the dorsal branch of digital nerve, 6 flaps carried nervi digitales dorsales. The flaps were cut from proximal radial dorsal ring finger in 4 cases and from promximal ulnar dorsal ring finger in 7 cases. Defect of donor site was repaired with full-thickness skin grafting. Results All flaps and grafted skins survived; wound and incision of donor site achieved heal ing by first intention Eleven patients were followed up 6 to 24 months with an average of 12 months. The other finger flaps had good texture and shape except for 1 flap with sl ightly bloated. The activities of finger distal interphalangeal joint were normal, the two-point discrimination of finger pulp was 7-12 mm. The extension and flexion activities of donor fingers were normal, the ringl ike thread scar left at the donor site. Conclusion It is an ideal method to use the neurovascular free flap based on dorsal branch of digital artery of ring finger graft for repair of finger pulp defect, which has the advantages of simple operation, good appearance, and functional recovery.
The comprehensive rehabilitative treatment was used in 58 cases(194 finger)for functional impairment after eplantation. After the treatment the overall increase of flexion-extension range of motion was 30 to 130 degrees respectively. From the assessment of 10 items of daily activities, the patients could accomplish three-fourth of them. the average time taken for the treatment was 3 months with an excellent-good rate about 87.4%. Through the early comprehensive rehabilititive treatment patients could achieve better results.
Objective To evaluate the effectiveness of neurovascular staghorn flap for repairing defects in fingertips. Methods Between August 2019 and October 2021, a total of 15 fingertips defects were repaired with neurovascular staghorn flap. There were 8 males and 7 females with an average age of 44 years (range, 28-65 years). The causes of injury included 8 cases of machine crush injury, 4 cases of heavy object crush injury, and 3 cases of cutting injury. There were 1 case of thumb, 5 cases of index finger, 6 cases of middle finger, 2 cases of ring finger, and 1 case of little finger. There were 12 cases in emergency, and 3 cases with finger tip necrosis after trauma suture. Bone and tendon exposed in all cases. The range of fingertip defect was 1.2 cm×0.8 cm to 1.8 cm×1.5 cm, and the range of skin flap was 2.0 cm×1.5 cm to 2.5 cm×2.0 cm. The donor site was sutured directly. Results All flaps survived without infection or necrosis, and the incisions healed by first intention. All patients were followed up 6-12 months, with an average of 10 months. At last follow-up, the appearance of the flap was satisfactory, the wear resistance was good, the color was similar to the skin of the finger pulp, and there was no swelling; the two-point discrimination of the flap was 3-5 mm. One patient had linear scar contracture on the palmar side with slight limitation of flexion and extension, which had little effect on the function; the other patients had no obvious scar contracture, good flexion and extension of the fingers, and no dysfunction. The finger function was evaluated according to the total range of motion (TAM) system of the Hand Surgery Society of Chinese Medical Association, and excellent results were obtained in 13 cases and good results in 2 cases. Conclusion The neurovascular staghorn flap is a simple and reliable method to repair fingertip defect. The flap has a good fit with the wound without wasting skin. The appearance and function of the finger are satisfactory after operation.
Patients receiving venous skin grafts having 3 different patterns of nutrient supply were introduced. It was considered that the venous skin graft had contain role in the repair of skin defects of fingers and dorsum of hands. The mechanism of the survival of the venous skin graft was discussed. It was assumed that, in the early stage, the skin nutrient was possibly in relation with the effusion or exudation from the wound surface, and in the later stage, depended upon the collateral circulation established with the surrounding tissues.
Thumb and finger reconstruction by the method of pedal digit transplantation had been successfully performed in 541 casee from 1977 to 1996, which contained 404 cases of thumbs and 78 cases of fingers. The thumb reconstruction was mainly the simple transplantation of distal phalanx (42 cases) and the compound transplantation of hallucal nail-cutaneous flap with iliac bone segment (16 cases) for the defect of thumbs in degree 1 and 2. The combined transplantation of hallucal nail-cutaneous flap with the joint and tendons of the second toe (34 cases) and the transplantation of the distal part of the second toe (182 cases) for the defect of degree 3 and 4. The combined transplantation of the second pedal digit with its metatarsalphalangeal joint (189 caese) for the defect in degree 5 and 6. The finger reconstruction was performed by anastomosis of the arteries of the digit with those of the fingers for 29 cases with the defect in degree 2 and 3, 60 cases with the defect in degree 4 and 5, and 17 cases with the defect in degree 6. One-hundred and four cases of versels vasiation were found in this group (19 cases with the pedal dorsal artery, 13 cases with the greater saphenous vein and 72 cases with the first dorsal metatarsal artery). The main point of the operation and the treatment of the vessel variations were discussed.
Objective To investigate the method and effectiveness of repairing fingertip defects with reverse island flappedicled with terminal dorsal branch of digital artery with sense reconstruction. Methods Between December 2008 and March2010, 32 patients (40 fingers) with fingertip defects were treated. There were 20 males (23 fingers) and 12 females (17 fingers), aged from 20 to 62 years (mean, 42 years). The time between injury and admission was from 1 to 8 hours. The injured fingers included thumb (2 cases), index finger (6 cases), index finger and middle finger (3 cases), middle finger (7 cases), middle finger and ring finger (3 cases),ring finger (8 cases), ring finger and little finger (2 cases), and little finger (1 case). The defect area ranged from 1.2 cm × 1.0 cm to 2.2 cm ×1.8 cm, and the flap area ranged from 1.5 cm × 1.0 cm to 2.5 cm × 2.0 cm. The fingertip defects were repaired by the reverse island flaps pedicled with terminal dorsal branch of digital artery and branch of digital nerve, and the branch of digital nerve was anastomosed withstump of proper digital nerve. The donor sites were repaired with free skin grafts. Results Bl isters occurred in 6 cases (9 fingers) andpartial necrosis of the flaps in 2 cases (2 fingers), which were cured after symptomatic treatment. The other flaps and skin grafts survived and the wounds healed by first intention. Thirty cases (38 fingers) were followed up 6 months postoperatively. The shape, contour of the reconstructed fingertip, and motivation of the fingers were satisfactory. The superficial sensation and deep pain sensation recovered after 6 months of operation. The two-point discrimination was 4-6 mm in 24 fingers, 7-10 mm in 13 fingers, and none in 1 finger. According to the functional assessment criteria of upper l imb formulated by the Hand Surgery Branch of Chinese Medical Association, S3 was achieved in 1 finger, S3+ in 13 fingers, and S4 in 24 fingers. Conclusion It is simple and safe to harvest the reverse island flap pedicled with terminal dorsal branch of digital artery with sense reconstruction; at the same time, the blood supply of the flap is rel iable and its sense can be reconstructed. It is one of effective methods for repairing fingertip defects.
OBJECTIVE In order to investigate the causes of necrosis of the retained flap after transplantation of the great nail flap, according to the principle of plastic surgery, the following operation was designed. METHODS A tongue-shaped great toe flap was made with its base on the tibial side of the great toe and the width of the base was 1 cm to 1.5 cm. The flap contained the supporting vessels and nerves and the periosteum was also preserved. RESULTS From June 1982 to November 1997, the flap was used to repair 267 case, 277 fingers defects. After operation, the retained flap on the tibial side developed necrosis in 13 sides, an incidence of 4.69%, and in 78 sides, there was necrosis on the grafted skin on the donor site, an incidence of 28.7%. Most of the wounds healed after changing dressing, while 37 wounds healed from another skin graft. Of these cases, 178 cases had been followed up for 5 months to 16 years. It was found that the retained tibial tongue-shaped flap showed hyperplasia which extended to the weightbearing area of metatarso-phalangeal of great toe. It showed that the taking off of great toe nail flap according to first dorsal metatarsal artery (FDMA) I, II or III type, the incidence of development of necrosis of retained flap on tibial side showed no significant difference (P gt; 0.05). CONCLUSION It was believed that the necrosis of the retained flap was not related to the FDMA classification but had relation with the design, operative technique and presence of infection.
