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.
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: 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 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.
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 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.
Objective To investigate the operative procedure and the cl inical results of the modified island flap based on the reversed dorsal metacarpal artery for repairing finger tissue defect. Methods From January 2004 to March 2009, 38 patients (43 fingers) with finger tissue defect were treated with the modified island flaps based on the reversed dorsal metacarpal artery. The deverting point was altered from the dorsal point to the palm. There were 27 males (31 fingers) and 11 females (12 fingers) with an average age of 43.6 years (range, 12-67 years). Defect was caused by crash injury in 18 cases, crush injury in 14 cases, and cutting injury in 6 cases. Of them, 11 index fingers, 23 middle fingers, 7 ring fingers, and 2 l ittle fingers were involved. The area of the defect ranged from 1.0 cm × 0.7 cm to 3.2 cm × 2.5 cm. The area of flaps ranged from 1.2 cm × 1.0 cm to 3.5 cm × 2.8 cm. The donor sites were sutured directly. Results Tension vesicular scabbing occurred in distal part of flap, and was cured after dressing change in 3 cases. The other flaps survived and incision healed primarily. All incision at donor sites healed primarily. Thirty-one patients (35 fingers) were followed up 6-29 months (15.3 months on average). All flaps survived with satisfactory appearance, sensation, and function. Two-point discrimination was 6-9 mm (7.9 mm on average). The results were excellent in 20 fingers, good in 13 fingers, and fair in 2 fingers according to the total active movement (TAM) standards; the excellent and good rate was 94.3%. Conclusion The treatment of finger tissue defect with the modified island flap based on the reversed dorsal metacarpal artery is recommendable. The deverting point was altered from the dorsal point to the palm. The vessel pedicle is extended. It can be easily and conveniently performed for more cases.
Objective To investigate the effectiveness of dorsal metacarpal island flap for treating scar contracture of the finger web. Methods Between June 2009 and December 2010, 10 patients with scar contracture of the finger web were treated. There were 6 males and 4 females with an average age of 30 years (range, 14-57 years). Scar contracture was caused byinjury in 8 cases, by burn in 1 case, and by operation in 1 case. The locations were the 1st web space in 1 case, the 2nd web space in 3 cases, the 3rd web space in 5 cases, and the 4th web space in 1 case. The disease duration was 3 to 9 months with an average of 5 months. The maximum abduction was 10-20°. After web space scar release, the dorsal metacarpal island flap (3.5 cm × 1.2 cm-4.0 cm × 2.0 cm in size) was used to reconstruct web space (2.0 cm × 1.0 cm-3.0 cm × 1.8 cm in size). The donor site was directly sutured or repaired with local flaps. Results At 2 days after operation, necrosis occurred in 1 flap, which healed by extractive treatment. The other flaps survived and wound healed by first intention; all the flaps at donor sites survived and incision healed by first intention. Ten patients were followed up 6 to 15 months (mean, 9 months). The reconstructed web space had good appearance, the maximum abduction was 80 ° in 1 case of the 1st web space scars contracture, and the maximum abduction was 35-45° (mean, 40°) in the other 9 cases. In 8 scar patients causing by injury, no scar contracture recurred during follow-up. Conclusion It can achieve good results in appearance and function to use dorsal metacarpal island flap for treating scar contracture of the finger web.
Objective To evaluate the clinical significance of submental island flap in repairing tongue defects.Methods Nine patients (6 men and 3 women)with tongue squamous cell carcinoma underwent subtotal or partial glossectomy, resection of mandible,radical neck dissection and immediate reconstruction of tongue defects with submental island flap. The age ranged from 48 years to 71 years, the lesion locations were right part of tongue (5 cases) and left part of tongue (4 cases). The defect sizes were 4.2 cm×3.2 cm to 5.5 cm×4.0 cm. The flap area rangedfrom 6.0 cm×3.0 cm to 7.0 cm×4.0 cm. The flap pedicle included submental artery in 8 cases and both submental artery and facial artery in 1 case. Results The submental island flap survived in 8 cases. Postoperative articulation and swallowing were investigated in all cases. The static shape of tongue after rec onstruction with submental island flap was acceptable. The dynamic speech, swallowing and food transport function were well preformed. No complication occurred.Three patients were given radiotherapy 3 weeks after operation. Conclusion It is simple and convenient to repair defects of tongue and oral floor with submental island flap.
Objective To explore an effective method to repair penile-scrotal or perineal hypospadias in one stage with prepuce island flap.Methods Different prepuce island flaps were designed according to thedifferent pathological anatomy of the penile-scrotal or perineal hypospadias. The prepuce island flaps were thus translocated and sutured to form the urethra.Thirty-one cases of hypospadias (21 cases of peinil-scrotal type, 10 cases of perineal type) were repaired with prepuce island flap.The biggest length and the width of the prepuce island flapwere 7.5 cm and 1.5-1.8 cm respectively.Results All the cases resulted in a good contour of the penis and a normal anatomic position of urethral meatus without any redundancy or tortuosity.The urination was perfect and acceptable.Conclusion One stage repair of penilescrotal or perineal hypospadias with prepuce island flap can be considered as an acceptable effective surgical technique.
