Objective To provide the anatomic basis for defect repair of the knee, leg, foot and ankle with great saphenous venosaphenous neurocutaneous vascular island flaps. Methods The origin, diameter, branches, distribution and anatomoses of the saphenous artery and saphenous neurocutaneous vascular were observed on 20 sides of adult leg specimens and 4 fresh cadaver voluntary legs. Another4 fresh cadaver voluntary legs were radiogeaphed with a soft X-ray system afterthe intravenous injection of Vermilion and cross-sections under profound fascial, otherhand, micro-anatomic examination was also performed in these 4 fresh cadaver legs. The soft tissue defects in lower extremity,upper extremity, heel or Hucou in handwere repaired with the proximal or distal pedicle flaps or free flaps in 18 patients(12 males and 6 females,aging from 7 to 3 years). The defect was caused by trauma, tumour, ulcer and scar.The locations were Hucou (1 case), upper leg(3 cases), lower extremity and heal (14 cases). Of then, 7 cases were complicatedby bone exposure, 3 cases by tendon exposure and 1 case by steel expouse. the defect size were 4 cm×4 cm to 7 cm×13 cm. The flap sizes were 4 cm×6 cm to 8 cm×15 cm, which pedicle length was 8-11 cm with 2.-4.0 cm fascia and 12 cm skin at width. Results Genus descending genicular artery began from 9.33±0.81 cm away from upper the condylus medialis, it branched saphenous artery accompanying saphenous nerve descendent. And saphenous artery reached the surface of the skin 7.21±0.82 cm away from lower the condylus medialis,and anastomosed with the branches of tibialis posterior artery, like “Y” or “T” pattern. The chain linking system of arteries were found accompanying along the great saphenous vein as saphenous nerve, and then a axis blood vessel was formed. The small artery of only 00-0.10 mm in diameter, distributed around the great saphenousvein within 58 mm and arranged parallelly along the vein like water wave in soft X-ray film. All proximal flaps,distal pedicle flaps and free flaps survived well. The appearance, sensation and function were satisfactory in 14 patientsafter a follow-up of 6-12 months. Conclusion The great saphenous vein as well as saphenous neurocutaneous has a chain linking system vascular net. A flap with the vascular net can be transplanted by free, by reversed pedicle, or by direct pedicle to repair the wound of upper leg and foot. A superficial vein-superficial neurocutaneous vascular flap with abundance blood supply and without sacrificing a main artery is a favouriate method in repair of soft tissue defects in foot and lower extremity.
OBJECTIVE To investigate a new operative method for repairing nonunion and defect of tibia. METHODS First, observe the relation between the joint branches of descending genicular artery and the saphenous branch of descending genicular artery in 10 cadevers. Then the medial femoral condylar bone flap pedicled with the saphenous vessels was prepared in 4 cadavers for simulated purpose. Clinically, two patients with tibial nonunion were treated by transplantation of this pedicled bone flap. RESULTS: In the 4 simulated operations, the ink which was injected into the femoral artery could be released from the joint branches. And in the clinical operation, the area of the pedicled bone flaps were 5.0 cm x 2.0 cm x 1.5 cm and 4.5 cm x 1.5 cm x 1.5 cm respectively. Followed up for 8 to 12 weeks, the fracture unioned well. CONCLUSION: This operation is simple and reliable, it is characterised by 1. unnecessary to anastomosis the vessels 2. reliable blood supply 3. high quality of bone flap 4. either bone flap or bone-skin flap can be chosen 5. long vessel pedicle.
ObjectiveTo explore the effectiveness of the dissociative saphenous arteria flap in repairing upper limbs soft tissue defect. MethodsBetween June 2012 and April 2014, 10 cases of skin and soft tissue defects at the upper limbs were treated, including 6 males and 4 females with an average age of 42 years (range, 23-58 years). The causes of injury was the machine injury in 9 cases, the interval of injury and operation was 2 hours to 32 days (mean, 5.5 days); the locations were the dorsal radial side in 3 cases and the dorsal forearm in 6 cases. Skin defect with tendon exposure was observed in 1 case after contracture of the first web space resection. The defect size varied from 5 cm×3 cm to 16 cm×9 cm. The size of the flaps ranged from 6.0 cm×3.6 cm to 19.2 cm×10.8 cm. In 7 cases, the saphenous nerve was anastomosed with the nerve of the donor (cutaneous nerve, radial nerve, or ulnar nerve); in 5 cases, tendon defect was repaired by sartorius muscle tendon bridge. The donor sites were repaired by free skin graft or suture. ResultsThe other flaps survived and obtained healing by first intention except 1 flap which had partial necrosis with healing by second intention. The skin graft at donor site survived. All patients were followed up 5-17 months (mean, 12 months). The flaps had good color and texture without contracture. At last follow-up, the sensation recovered to S1-S3+; in 7 cases undergoing nerve anastomosis, the sensation reached S3-S3+, and it was better than that not undergoing nerve anastomosis (S1-S2); in 5 cases receiving sartorius muscle tendon bridging, the hand function recovered satisfactorily except 1 case of total active movement (TAM) value >75% of contralateral TAM at last follow-up. According to the Chinese Medical Society of Hand Surgery function evaluation standards, the results were excellent in 8 cases and good in 2 cases. ConclusionThe dissociative saphenous arteria flap is an effective way to repair skin defects of the upper limbs because of reliable blood supply and simple surgical procedure.