The canine saphaneous skin flap was used as a model in this experiment. The cutaneous autograft would give long-term survival, whereas the allograft without pretreatment would only survive 10. 2±1.9 days from its transplantation. If the pretreatment consisted of the use of immunosuppressive agent as PHA or infusion of dexamesone, the survival days of the allografts could be prolonged to 15.1±2.5 and 13.7±2.8, respectively(Plt;0.01). The histological examination gave the evidence that drug perfusion delayed the rejection.
Ten cases of soft tissue defect at palm orwrist were repaired by reversed fasciocutaneousflap from the forearm. All were. survived excepttwo cases having necrosis of the distal portion ofthe graft. The blood supply of the skin of the fore-arm was comming from the perforation fasciocuta-neous and musculocutaneous giving rise from theulna , radial and interosseous arteries. Therefore ,when the flap was designed,it was best to have thefascial pedicle over the arterial trunks in order toinclude more perforating arteries in the flap . It was indicated that venous supply might also played an important role in flap nutrition.
ObjectiveTo investigate the surgical methods and effectiveness to use the iliac flap combined with anterolateral thigh flap for repair of the first metatarsal bone and large skin defect.
MethodsBetween January 2013 and January 2016, iliac flap combined with anterolateral thigh flap was used to repair the first metatarsal bone and large skin defect in 9 patients. There were 5 males and 4 females, with a median age of 15 years (range, 10 to 60 years). The causes included traffic accident injury in 6 cases and crush injury of machine in 3 cases. The average time from injury to operation was 3 hours to 14 days (mean, 7 days). The size of skin soft tissue defect ranged from 10 cm×6 cm to 20 cm×10 cm. The size of first metatarsal bone defect ranged from 2 cm×1 cm to 5 cm×1 cm. The size of iliac flap was 3.0 cm×1.5 cm to 6.0 cm×1.5 cm, and the size of anterolateral thigh flap was 10 cm×6 cm to 20 cm×10 cm. The donor site was directly sutured or repaired by free skin graft.
ResultsAfter operation, the composite flaps survived with primary healing of wound; the skin grafts at donor site survived and the incision healed by first intention. All patients were followed up 6 months to 2 years (mean, 1.6 years). X-ray examination showed that the bone healing time was 3.5-5.0 months (mean, 4 months). The flap had soft texture, good color and appearance. All patients could normally walk. According to the American Orthopaedic Foot and Ankle Society (AOFAS) standard, the foot function was excellent in 6 cases and good in 3 cases, and the excellent and good rate was 100% at last follow-up.
ConclusionThe iliac flap combined with anterolateral thigh flap for repair of the first metatarsal bone and large skin defect is a practical way with good shape at one stage.
Objective To investigate the clinical feasibility of different types of the saphenous neuro-veno-fascial cutaneous flaps. Methods From June 1996 to October 2002, 18 cases of skin defects in the knee and the lower part of the limb were treated with proximally(4 cases) or distally(11 cases) based pedicles of saphenous neuro-venofascial cutaneous flap or crossleg flap (3 cases)according to the site of defects . The sizes of the flaps ranged from 4 cm×5 cm to 9 cm×20 cm. Results The flaps survived completely in 17 cases, distal 1/5 of the flap necrosed partially in 1 case because of vein drainage disturbance. The colour and texture of flaps were excellent, the appearance and function were satisfactory after a follow up of 6-24 months.Conclusion The saphenous neuro-veno-fascial cutaneous flap is an idea flap in repairing skin defects of the knee, the leg, the ankle and the foot because it is easy to be designed and dissected and it has reliable blood supply and preserved main artery. The relationship between the septal perforating branches of the tibial posteriorartery and survival size of flap need to be investigated further.
Objective To explore the application of the improved operative technique and clinical results of sural nerve nutritional vessel axial flap repairing the soft tissue defects of the lower leg,the ankle and the foot. Methods From January 1999 to Novenber 2004,the modified flaps were applied in 22 cases of soft tissue defect on the basis of anatomy of the intermusclar septum perforating branches of peroneal artery and the sural nerve nutritional vessel.There were 14 males and 8 females. Their ages ranged from 5 to 54 years.According to the position and size of the soft tissue defects, the sural nerve nutritional vessel flap pedicled with the perforating branch of the peroneal artery in the lower leg were desingned and obtained to repair the soft tissue defects of the lower leg,the ankle and the foot.The flap size ranged from 13cm×12cm to 30cm×20cm. The vessel pedicle of perforating branches ranged from 1.7cm to 3cm.The distribution of the vessel pedicle of perforating branches ranged from4.5cm to 8cm on the lateral malleolus.The diameters of vessel ranged from 1mm to 1.2mm. Results The flap pedicle with the terminal branch of the peroneal artery was used in 13 cases, the other branches were used in 9 cases. Among of 22 cases,the sural nerve were anastomosed with the acceptor sensory nerve in 4 cases. The skin sense were satisfactory after 1 year of operationnd 2-point discrimination was 10-13mm. All flaps survived completely in 22 cases. The outline andfunction were satisfactory during 6-18 months follow-up. Conclusion The blood supply of this flap is reliable. Flap elevation is easy. The size of flap is large enough to repair skin defects of the lower leg, the ankle and the foot.
In order to study the feasibiliy of the insular skin flap of the nasolabial groove with the retrograde superior labial artery, 8 adult cadavers were dissected and the relation between the superior labial artery and the skin of nasolabial groove was observed. The result revealed that superior labial artery was one of the branches of the facial artery and could be found in every cadaver. The diameter of the artery was 0.8 +/- 0.1 mm and the length was about 90 mm. The left and right facial arteries were connected with each other in the mid-line in the formation of the arcuate artery. The arcuate artery lay within the submucous tissue beyond the vermilion border about 6 mm. The concomitant veins were constant. If the facial artery being sectioned was beyond its initial site of superior labial artery, the skin of nasolabial groove on the same side could receive blood supply from contralateral supperior labial artery. The conclusion was that the insular skin flap of the nasolabial groove with the retrograde superior labial artery could be used in patients, because it had support from anatomical research.
OBJECTIVE: To provide anatomical bases for dorso-ulnar aspect of mid-hand reverse flap. METHODS: After red latex was infused into the arteries of 40 sides of adult cadava upper limbs, the origin, course, branches, distribution and distal anastomosis on the dorsal carpal branch of ulnar arteries were observed. And the mid-hand flap transfer was used to repair two cases of soft tissue defect (ranged 4.5-5.0 cm x 2.0-3.5 cm on ring and little fingers). RESULTS: The dorsal carpal branch begins with ulnar artery (3.9 +/- 1.2) cm above the pisiform with diameter of (1.3 +/- 0.2) mm, and branches off into ascending and descending branches. The descending one is the continuing of dorsal branch, it crosses the ulnar edge of the fifth metecarpal bone and anastomizes with the digital artery of little finger or hypothenar branch of deep palmar (accounted for 70%). While the other ascending branch with the former two branches formed anastomosis accounts for 30%. The two cases got healed in one-stage. The function of fingers recovered after 3-4 month follow-up. CONCLUSION: The reverse flap of dorso-ulnar aspect of mid-hand is available to repair the soft tissue defect on dorsum of hand with neighbor finger.
