Objective To observe the anatomic basis and the clinical application of the modified peroneal arterial cutaneous branch nutritional flap. Methods Twenty sides of lower limb of adult colyseptic cadavers and 5 sides of lower limb of adult fresh cadavers were used to detect the cutaneous branches of the peroneal artery. The position where the cutaneous branches come from the peroneal artery and the diameter of the cutaneous branches were recorded. From September 2003 to June 2005, 10 cases of skin and soft tissue defects in the region of metatarsophalangeal point with the modified peroneal arterial cutaneous branch nutritional flap, in which the cutaneous branches from the peroneal artery 11.0±1.7 cm upon the lateral malleolus were added. The defect size was 10 cm×6 cm to 15 cm×10 cm. The flap size was 11.0 cm×6.5 cm to 16.0 cm×11.0 cm. Results There is a stable cutaneous branches from peroneal artery 11.0±1.7 cm upon the lateral malleolus. The diameter of this cutaneous branches at the origin is 1.45±0.12 mm. The distance between the cutaneous branches entrance of the deep fascia and the line of the sural nerve nutritional artery flap was 15.70±1.20 mm. All 10 flaps survived. The blood supply and venous return of the skin flaps were good. The 10 patients were followed up from 6 to 12 months. The shape of the flaps was satisfactory. The texture and the color and luster of the flaps were similar to the adjacent skin. The functions of the feet were good. The twopoint discrimination was 1118 mm. Conclusion The modified peroneal arterial cutaneous branch nutritional flap has good blood supply. It can reverse to a long distance and can repair large skin defects.
Objective To investigate the anatomic foundation of using main branch of posterior femoral nerve to restore the sensation function of distal basedsural island flap. Methods Thirty cases of adult human cadaver legs fixed by 4%formaldehyde were used. Anatomical investigation of the posterior femoral nerves of lower legs was conducted under surgical microscope to observe their distribution, branches and their relationship with small saphenous vein. Nerve brancheswith diameter more than 0.1 mm were dissected and accounted during observation.The length and diameter of the nerves were measured. Results The main branch of posterior femoral nerve ran downwards from popliteal fossa within superficial fascia along with small saphenous vein. 70% of the main branch of the posterior femoral nerves lay medially to small saphenous vein, and 30% laterally. They wereclassified into 3 types according to their distribution in lower legs: typeⅠ (33.3%) innervated the upper 1/4 region of lower leg (region Ⅰ), type Ⅱ (43.3%) had branches in upper 1/2 region (region Ⅰ and Ⅱ), and type Ⅲ (23.3%) distributed over the upper 3/4 region (region Ⅰ, Ⅱ and Ⅲ). In type Ⅱ, the diameter of the main branches of posterior femoral nerves in the middle of popliteal tossa was 10±04 mm and innervated the posterior upper-middle region (which was the ordirary donor region of distal based sural island flaps) of lower legs with 2.0±0.8 branches, whose diameter was 0.3±0.2 mm and length was 3.5±2.7 mm. The distance between the end of these branches and small saphenous vein was 0.8±0.6 mm. In type Ⅲ, their diameter was 1.2±0.3 mm and innervated the posterior upper-middle region of lower legs with 3.7±1.7 branches, whose diameter was 0.4±0.1 mm and length was 3.7±2.6 mm. The distancebetween the end of these branches and small saphenous vein was 0.8±0.4 mm. Conclusion 66.6% of human main branch of posteriorfemoral nerves (type Ⅱ and type Ⅲ) can be used to restore the sensation of distal based sural island flap through anastomosis with sensor nerve stump of footduring operation.
To introduce a new technique for vascular pedicle elongation in the anterolateral thigh island flap transplantation and evaluate the outcome of this technique in the clinical application. Methods From January 2003 to January 2006, 6 patients (5 males, 1 female; age, 1849 years) were admitted for surgical operation because of the soft tissue defect around the knee joint. The soft tissue defect after the injury was found in 3 patients, the defect after the removal of the softtissue tumor in 1, and the defect after the prosthetic replacement in the knee joint in 2. The soft tissue defects ranged in size of 8 cm×4 cm to 15 cm ×6 cm. When the anterolateral island flap of the thigh underwent the reverse transplantation, the ascending branch of the lateral circumflex femoral artery was used as a nutrient vessel for the flap, and the descending branch of the lateral circumflex femoralartery was separated to the distal part. The main trunk of the lateral circumflex femoral artery was ligated at the point that was proximal to the furcation ofthe ascending and decending branches so that the vessel pedicle of the flap could be lengthened and then the defect was repaired.The flaps ranged in size of 10cm×6 cm to 18 cm×8 cm Results All the flaps were successfullytransferred in the 6 patients. The lengthened pedicle ranged in length from 8 to 12 cm, with an average of 10 cm. There was no vascular crisis after operation. All the transferred flaps survived, with a color and texture similar to those in the recipient site. The postoperative followup for 6-18 months revealed that the motion range of the knees was satisfactory. Conclusion The vascular pedicle elongation technique can enlarge the application scope of the anterolateral thigh island flap and the survival rate of the flap is not influenced by any factor.
Objective To explore a safe, highlyefficient and rapid approach to the repair of the sacrum soft tissue defect and/or partial exposure of the bone.Methods From February 2003 to April 2006, 6 patients (4 males, 2 femals; aged 28-67 years) with the sacrum soft tissue defect were surgically treated by the multiisland flap with shallow branches of the gluteus upper artery. The soft tissue defects ranged in area from 15 cm×12 cm to 25 cm×20 cm,averaged 20 cm×16 cm.The obtained flaps ranged in area from 18 cm×15 cm to 30 cm×25 cm. Of the patients, 5 had a sacral ulcer (Grade Ⅲ in 3 patients, Grade Ⅳ in 2) and 1 had a tumor, with their illness course from 3weeks to 20 years. Results All the flaps survived completely in the 6 patients, in whom 5 had an incision healing of the first intention, and the remaining 1had a healing of the second intention 32 days after the treatment for the minorischemia and necrosis at the edges of the flap.The follow-up for 2-38 months (average, 19.3 months) revealed that all the flaps grew well with no recurrence of the sacralulcer. Conclusion The surgical treatment with the multi-island flap with shallow branches of the gluteus upper artery is a safe, highly-efficient and rapid approach to repair of the sacrum soft tissue defect and/or partial exposure of the bone. This kind of treatment has advantages of simpler procedures, better blood circulation of the flap, fewer complications, and higher success rates.
This paper reported the use of superficial temporal vessels pedicled postauricular island flap for the reconstruction of eye socket. Six cases were treated by this method since 1988 with universal satisfactory results. The disign of the flap was diseribed. The operative procedure was detailed, and the advantages of the flap were evaluated: 1. The donor defect was hidden behind the ear; 2. The flap has a relatively long pedicle, hence easy for distant transfer, and 3. the blood supply was highly reliable.
Objective To explore the method and effectiveness of index finger proximal dorsal island flap supplied by the nutrient vessels of superficial branch of radial nerve for treatment of thumb skin and soft tissue defect. Methods Between August 2019 and December 2024, 12 patients with thumb skin and soft tissue defects caused by trauma accompanied by variation of the first dorsal metacarpal artery were treated. There were 8 males and 4 females, aged 19-55 years, with an average age of 32 years. The wound area ranged from 2.2 cm×2.0 cm to 5.5 cm×3.5 cm. The time from injury to operation ranged from 1.5 to 6.0 hours, with an average of 4.5 hours. After thorough debridement, the wound was repaired with a index finger proximal dorsal island flap supplied by the nutrient vessels of the superficial branch of the radial nerve. The flap area ranged from 2.4 cm×2.2 cm to 6.0 cm×4.0 cm. The donor site was repaired with free skin grafting. Regular follow-up was conducted postoperatively to observe the appearance, texture, sensory recovery of the flap, and the condition of the donor site. Results The operation time ranged from 30 to 72 minutes, with an average of 47 minutes; intraoperative blood loss ranged from 30 to 70 mL, with an average of 46 mL. After operation, partial necrosis occurred at the skin edge of the radial incision on the dorsum of the hand in 1 case, which healed after dressing changes; all other flaps survived uneventfully, with primary wound healing. The skin grafts at the donor sites all survived. All 12 patients were followed up 5-36 months, with an average of 14 months. The appearance and texture of the flaps were good. At last follow-up, the two-point discrimination of the flaps ranged from 4 to 9 mm, with an average of 5.2 mm. According to the functional evaluation criteria for upper limb issued by the Hand Surgery Society of Chinese Medical Association, the results were excellent in 11 cases and good in 1 case. No scar contracture, pain, or joint movement limitation was observed at the donor sites. Conclusion For patients with skin and soft tissue defects of the thumb accompanied by variation of the first dorsal metacarpal artery, the index finger proximal dorsal island flap supplied by the nutrient vessels of the superficial branch of the radial nerve can be selected. This method has advantages such as shorter operation time, less intraoperative bleeding, and good postoperative appearance and sensation of the flap.
Objective To report the experience of repairingperineal and adjacent defects with thoracoum biblical island flaps. Methods From January 1988 toOctober 2003, 7 cases of perineal and adjacent soft tissue defects with thoracoum biblical island flaps, aged 17-52 years. Of 7 cases, there were 2 cases of severe scar contracture due to burn on perineal, 1 case of malignancy on perineal,4 cases of vast soft tissue defects of trauma on the parts of groin and higher two-third thigh. The area of flaps was 9 cm×27 cm-12 cm×30 cm, the longest pedicel of blood vessel was 16 cm. The donor sites of flaps less than 10 cm couldbe sutured directly, the ones more than 10 cm could be repaired with skin grafting. Results All the flaps primarily survived. There was no ischemia and necrosis atthe distal part of flaps. Four patients were followed up 6 months to 6 years. The color, texture and appearance of the flaps were good. The functions of walk and squat were satisfactory.Conclusion The thoracoum bilical island flap can repair perineal and adjacent soft tissue defects, moreover the donor is shady and the effect is ideal.
OBJECTIVE: To investigate the clinical results of the distally based neurocutaneous flap by anastomosis of superficial veins. METHODS: From June 1996, 19 cases with composite skin defects of the distal part of limb were repaired by the transposition of distally based neurocutaneous flaps, including traumatic defect in 10 cases, chronic ulcer in 3 cases, scar contracture in 6 cases. The distally based sural neurocutaneous flaps were used in 9 cases, the reverse-flow saphenous neurocutaneous island flaps were used in 2 cases, and the retrograde neurocutaneous island flaps of the forearm were used in 8 cases. The flap area ranged from 15 x 24 cm to 4 x 6 cm, the pedicle of the flap ranged from 6 cm to 15 cm in length. The superficial vein of the flap were anastomosed with the subcutaneous superficial vein of the recipient site to improve the venous drainage. RESULTS: The composite flap survived completely in 17 cases. One cases with retrograde-flow forearm neurocutaneous flap and another case with reversed sural neurocutaneous flap were partially survived because of thrombosis in anastomosed veins postoperatively. Sixteen cases were followed-up for 6 to 24 months, the color and texture of the flap were excellent, the protective sensation were recovered, the configuration and function were satisfactory. CONCLUSION: Anastomosis of superficial veins of the composite flaps with the subcutaneous superficial veins of the recipient site can significantly improve the venous drainage, enlarge the survival area of the flap and the reparable area.
Objective To investigate the operative method and cl inical efficacy of repairing fingertip defect with modified reverse homodigital artery island flap. Methods From March 2000 to September 2006, 18 cases (24 fingers) of fingertip defect were treated, including 12 males and 6 females aged 18-53 years (mean 29 years). Defect was caused by crush injuries in 12 cases, by avulsion injury in 3 cases, by twist injury in 2 cases and by incised injury in 1 case. The time from injury tooperation was 2-8 hours (mean 4 hours). The location were index fingers (3 fingers), middle fingers (4 fingers) and ring fingers (17 fingers). The defects of soft tissue were 1.9 cm × 1.7 cm to 2.4 cm × 1.9 cm in size, the reverse homodigital artery island flaps were from 2.0 cm × 1.5 cm to 2.5 cm × 2.0 cm in size. The donor site was repaired with dumped skin grafting(3 cases) and with skin grafting from medial area of planta pedis (15 cases). Results Skin flaps and skin grafting of all the 24 fingers survived after operation. All incisions and donor sites healed by first intention. Sixteen patients (22 fingers) were followed up for 1-5 years (mean 3.2 years).The appearance and function of the flaps were all satisfactory. Two-point discriminations of flaps ranged from 4.5 mm to 6.3 mm. According to the total active movement/total passive movement assessment criteria, the results were excellent in 20 fingers and good in 2 fingers; and the excellent and good rate was 100%. The circumference of donor site was 2.0-3.5 mm shorter than that of normal side. The two-point discriminations of donor site was 7.8-10.5 mm. Conclusion Repairing defect of fingertip with modified reverse homodigital artery island flap can provide good texture and contour matching the recipient area, good function and l ittle trauma at donor site.
The skin and soft tissue defects or ulceration of the wight-bearing part of the sole was difficult to repair with medial plantar island flap, but would be treated with retrograde island flap carrying plantar metatarsal arteries as pedicle. Ten flaps were applied in 9 patients. They had either indolent ulcer or skin defect secondary to excision of painful corn or callosities of the front part of the sole. The flaps were 3 cm to 5 cm long and 3 cm to 4 cm wide, and they all survived following retrograde transfer. The patients were followed up for 1 to 10 years. It was found that the patients could bear weight on the operated foot and could walk without pain or lameness. The flaps were resistant to abrasion from long-time walking. It was concluded that this kind of flap was best suitable to repair the ulcers and defects over the front part of the sole despite there were some minor shortcomings such as the size of the flaps available was small and the donor site required split skin graft for coverage.