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.
OBJECTIVE: To investigate the anatomic basis for transposition of the distal dorsal ulna bone flap pedicled with dorsal metacarpal artery to repair the defect of the 3rd or 4th and 5th metacarpal bone head. METHODS: In 30 adult cadaveric upper limbs, the branches and constitutions of the dorsal carpal arterial networks were observed. RESULTS: The dorsal carpal arterial networks were consisted of the dorsal carpal branches of ulnar and radial arteries, the terminal branches of posterior interosseous artery and the dorsal carpal branch of anterior interosseous artery, and then the 2nd, 3rd, 4th dorsal metacarpal branches were originated from the networks. The dorsal metacarpal branches were anastomosed with the deep branches of deep palmar arch to constitute the dorsal metacarpal artery. CONCLUSION: Transposition of the distal dorsal ulna bone flap pedicled with the 3rd, 4th dorsal metacarpal arteries can be used in repairing the defect of 3rd, 4th and 5th metacarpal bone head.
OBJECTIVE To study the anatomical basis of vascularized spina scapular bone flap, which was used in mandibular reconstruction. METHODS Fifteen adult cadavers were adopted in this study. The two common carotid arteries of each cadaver were intubed and perfused with red emulsion respectively. Then the course and distribution of the transverse cervical artery(TCA) and its spina scapular branches were observed on 30 sides. RESULTS The TCA was divided into two segments: the cervical segment originated from the origin of the artery to the superior margin of the trapezius muscle, and the dorsal segment originated from the superior margin of the trapezius muscle to the site where the TCA bifurcated into the superficial and deep branches. The average length and original caliber of the cervical segment were(4.7 +/- 0.1) cm and (4.0 +/- 0.1) mm. The average length and original caliber of the dorsal segment were (5.88 +/- 0.63) cm and (3.30 +/- 0.35) mm. 86.7% spina scapular branches originated from the superficial branch of TCA and 13.3% from TCA. The length of the spina scapular branch was (4.97 +/- 1.68) cm and its external diameter was (2.08 +/- 0.27) mm. It constantly sent 4-8 periosteal branches to spina with 0.20-1.25 mm in caliber. CONCLUSION The spina scapular branch of TCA is one of the main blood supplier to the spina scapular area. The spina scapular flap pedicled with spina scapular branch of TCA may provide a new operation for mandibular reconstruction, whose circumpoint locates at the origin of the dorsal segment and the average length of the pedicle is 10.85 cm which enough to transposite to mandibular area.
Since October 1984, we have designed a method of conversed transplant of radial styloid bone flap with fascial pedicle in the treatment of 22 patients with non-united waist fractures of carpal scaphoid. The results from follow-up of 2-7 years were satisfactory.This article introduced the design of the bone flap, the operative procedure and the advantages of the bone flap.