OBJECTIVE: Soft tissue defect of heel is not uncommon. Transplantation of free cutaneous flap and transfer of axial cutaneous flap have been used in treating such defect successfully, but both of them are somewhat complicated. Local plantar rotatory flap might show great importance in this field. METHODS: Since March 1993 to March 1998, 9 cases with soft tissue defect of heel were repaired by local plantar rotation flaps. The size of defect ranged from 2 cm x 4 cm to 6 cm x 8 cm, and it was designed superficial to plantar fascia. The flap was medially based, and nutrilized by proximal plantar subcutaneous plexus of blood supply as well as lateral and medial plantar nerve. RESULTS: Followed up 4 months to 2 years, all the flaps were survived. Sensation of the flap was preserved in 7 patients, who had normal sensation of the donated area preoperatively. The transferred flap was endurable to body bearing. CONCLUSIONS: The flap is easily prepared with reliable blood supply and sensation of the flap preserved. The method is worthy to be recommended for widely use because of its advantages over other methods.
OBJECTIVE: To sum up the application experience of the sural nerve island flap pedicled with the collateral vessels. METHODS: From 1997, the retrograde-flow sural nerve island flaps pedicled with collateral vessels were performed to repair the soft tissues defects of the shank in 3 cases, ankle in 3 cases and foot in 8 cases. RESULTS: Twelve flaps were survived, one flap was partially necrosed and one flap was necrosed. Among them, 10 wounds healed by first intention, 3 cases were healed after changing dressing and the one necrosed flap was repaired by free flap transplantation. Nine cases were followed up for 3 to 21 months and had fine appearance and function. The flap texture was similar to normal skin, the sensation of flap partially recovered after 6 months. CONCLUSION: The flap has more reliable blood supply and great rotation arc, it is easy to resect with little injury. It is excellent for repairing the soft tissues defect in the anterior leg, ankle and proximal half of foot. It is more significant while the main blood vessels are damaged.
OBJECTIVE To investigate the repairing method of soft tissue defect of heel, pedicled island myocutaneous flap of flexor digitorum brevis was designed. METHODS From 1984 to 1997, 26 cases with soft tissue defect of heel were adopted in the clinical trial. Among them, the were 18 males, 8 females and the age ranged from 15 to 60 years old. The area of wound ranged from 2.5 cm x 1.5 cm to 8.0 cm x 6.0 cm. RESULTS After operation, all of the flaps survived. They were followed up for 9 to 72 months. All of the flaps had primary healing except in one there was infection of peripheral of the flap. The contour of heel was satisfactory the sensation of flap was good and the weight-bearing function was also successful. CONCLUSION It was concluded that the myocutaneous flap of flexor digitorum brevis could be used to repair the soft tissue defect of heel because of its nearby position, hidden location, good recovery of skin sensation and weight-bearing function, Besides, the procedure of this operation was simple and the anti-inflammatory potential of the flap was high. However, Because of the limited donor area, the pre-operative design was important.
A study was carried out to observe the application of microsurgical technique in the repair defects of soft tissue and infected wounds of extremities. Eighty-three patients with soft tissue defects and infected wounds of extremities were treated by either transferring of vascularized cutaneous flap or transplantation of myocutaneous flap with vascular anastomosis. The result showed that eighty-three patients had gained success after a follow-up of 6 months to 4 years. It was concluded that soft tissue defects and infected wounds of extremities should be repaired as early as possible. Selecting the donor flap near the recipient site was of first choice. The method used for repair should be simple and easily applicable rather these very complicated one. The success depended on the correct treatment of local conditions, resonable design of donor flap and close monitoring after operation.
Objective To investigate the management of the soft tissue defect after the Achilles tendon repair. Methods From April 1996 to April 2006, 24 patients(17 males, 7 females; aged 16-59 years), who suffered from postoperative Achilles tendon exposure caused by local soft-tissue necrosis after the Achilles tendon repair, were treated and evaluated. Of the 24patients, 8 had an original open injury (machinecrush injury in 2 patients, heavy-object press injury in 3, motorcycle wheel crush injury in 3) and 16 patients had a closed injury (sports injury). In their treatment, the transferof the sural neurovascular flap was performed on 8 patients and the transfer ofthe saphenous neurovascular flap was performed on 3 patients. The secondary Achilles tendon repair was performed on 13 patients before the neurovascular flap transfer was performed. The time between the injury and the operation was 9-76 days, and the time between the Achilles tendon expousure and the operation was 3-65 days. Results All the flaps survived and the Achilles tendon exposure was well covered by the flaps of good texture. Eighteen patients followed up for 6 months to 24 months had no flap complication, and the two point discrimination of the flaps was 12-20 mm. The AOFASAnkleHindfoot Scale assessment revealed that 8 patients had an excellent result, 6 had a good result, 3 had a fair result, and just 1 had a poor result, with theexcellent and good results accounting for 77.8%. Sixteen patients (89%) were able toperform a tip-toe stance on their operative sides, and only 3 of them complained a loss of plantarflexion strength. However, 2 patients still could not perform the tip-toe stance. Conclusion The Achilles tendon repair, ifnot well performed, can result in the local soft-tissue necrosis and the subsequent Achilles tendon exposure. If those complications occur, the neurovascular flap transfer should be performed as soon as possible; if necessary, the secondary Achilles tendon repair should be performed, too.
Between 1988 and 1991,27 cases of open fractures of shank bones complicated by soft tissue defect were repaired with fasciocutaneous flaps. The wound surfaces in 11 cases were closed in the first stage and in 16 cases the repair was delayed. The wounds of all the 27 cases had good healing, In fasciocutaneous flaps the blood supply was sufficient and this contributed to subsequent healing. The operation was simple, regardless of the postion of the wound and not damaging the blood vessels. An accurate estimation of the degree of contusion of the soft tissues surrounding the wound was prerequisite to select immediate transposition of fasciocutaneous flapsor delayed transposition.
OBJECTIVE: To investigate the clinical effect of free vascularized thoracoumbilical flap with reversal flow in repairing the soft tissue defect in leg with tibia exposure. METHODS: Forty-four casting mould specimens of leg arteries were studied firstly. Then 25 cases with soft tissue defect and tibia exposure in the proximal-middle segment of leg were adopted in this study. Among them, 18 cases had long distance thrombosis of the anterior tibial vessels or posterior tibial vessels due to traumatic lesion. The maximal size of defect was 28 cm x 11 cm and the minimal size of defect was 11 cm x 9 cm. In operation, the thoracoumbilical flap which was based on the inferior epigastric vessels was anastomosed to the distal end of the anterior tibial vessels or posterior tibial vessels. RESULTS: Anterior tibial artery, posterior tibial artery and fibular artery had rich communication branches in foot and ankle. All the flaps survived, the color and cosmetic result of them were good. CONCLUSION: The free vascularized thoracoumbilical flap with reversed flow is practical in repairing the soft tissue defect of leg with tibia exposure. Either the anterior tibial vessels or the posterior tibial vessels is normal, and the distal end of injured blood vessels is available, this technique can be adopted.
OBJECTIVE: To summarize the application of reversed digital artery cross-finger flap with a compound skin pedicle in soft tissue defect of hand. METHODS: From October 1997, 35 fingers of 30 cases, with soft tissue defect at the dorsal side of digital interphalangeal joint and at the fingertips, were repaired by the reversed artery cross-finger flap with a compound skin pedicle, 1.5 cm x 1.0 cm to 2.0 cm x 2.0 cm in size. All of the cases were followed up for 1-6 months and evaluated clinically. RESULTS: All of the flaps survived, with a good texture and no swelling; and there was no adverse side effect on the donor site. CONCLUSION: Reversed digital artery cross-finger flap with a compound skin pedicle is a good option to repair the soft tissue defect of hand.
To summarize the results of the free transplantation of anti-valve-inflow and pro-valveoutflow arterial ized venous flap in repairing soft tissue defect of fingers in emergency treatment. Methods From October 2002 to March 2007, 7 cases of soft tissue defects of fingers were repaired with arterial ized venous flaps. There were 6 males and 1 female, aged 17-46 years. Defect was caused by crush injury in 6 cases and by stab injury in 1 case. The interval between injuryand operation was 2-7 hours and the size of defects ranged from 3.0 cm × 2.0 cm to 6.0 cm × 3.5 cm. All defects were repaired by arterial ized free venous flap from the ipsilateral forearm, in which the proximal ends of veins were anastomosed to artery and vein of the finger. The donor site was directly sutured. Results Six cases of arterial ized venous flap survived completely and 1 case had partial superficial necrosis and healed with conservative management. The donor site healed by first intention. Postoperative follow-up ranged from 3 months to 4 years, the texture and the thickness of the flaps were satisfactory, only one presented partial pigment deposits because of superficial necrosis. No sclerosis, contracture and l imited range of motion occurred in all flaps. According to the evaluation criteria for upper l imb function issued by Hand Surgery Branch of Chinese Medical Association, the results were excellent in 3 cases and good in 4 cases. Conclusion It is an ideal method to repair soft tissue defect of fingers by using anti-valve-inflow and pro-valve-outflow arterial ized venous flap.
Objective To investigate the operative procedures and cl inical outcomes of the modified superficial peroneal neuro-fasciocutaneous flap in repairing soft tissue defect of forefoot. Methods From May 2006 to May 2009, 5 male patients (aged 40-63 years) with soft tissue defect of forefoot were treated with the modified superficial peroneal eurofasciocutaneous flap. Tendons and bones were exposed in all cases. Defect was caused by object crash (4 cases) and traffic accident (1 case). The sizes of soft tissue defects of forefoot were 4 cm × 2 cm-8 cm × 4 cm. Rotating point of the modified superficial peroneal neuro-fasciocutaneous flap pedicled with the peripheral vessels network of ankle joint was at the level of tibiotalar joint. The flaps ranging from 5 cm × 4 cm to 10 cm × 6 cm were adopted to repair soft tissue defects of forefoot. The donor sites were either sutured directly or covered with intermediate spl it thickness skin grafts. Results All flaps survived and all wounds healed by first intention. Skin graft at donor site survived completely in all cases. All patients were followed up 6-18 months (mean 11 months). The appearance, texture, and function of the flap were satisfactory. There was a protective sensibil ity in all flaps without abrasion or ulceration, and the two-point discrimination of the flaps was 10-13 mm. The walking pattern was normal. No obvious discomfort was observed at the skin-graft donor sites. Conclusion With rel iable blood supply, no sacrifice of vascular trunks, favorable texture, and thickness, the modified superficial peroneal neuro-fasciocutaneous flap pedicled with the peripheral vessels network of ankle joint is useful to repair skin soft tissue defect of the forefoot.