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sural造句
1. Methods Using the skin flap with sural nerve vasa vasorum, 14 cases associated with cutaneous injury and soft tissues defect of ankle were repaired. 2. Results The sural nerve nutrient artery has 2 to 4 branches with constant three branches and the vessel network is formed in an anastomosis way. 3. In 30% cases, the medial sural cutaneous nerve originates from the motor branch innervating the medial gastrocnemius muscle. 4. Objective To investigate the clinical application of the sural neurocutaneous island vascular flap. 5. Sural nerve biopsy showed Cogon red staining material depositing in the interstitial and neurilemma. 6. Objective To explore the clinical application of sural neurovascular flap to be transfered distally for repairing tissue defect around the heel, foot dorsum and proximally for knee. 7. OBJECTIVE:To investigate the distribution of sural nerve nutrient vessels of the distally based flap and provide an anatomical evidence for the design of operation on repair of foot injury. 8. Objective To report the clinical effect of super sural neurocutaneous vascular flap in soft tissue defects in ankle and foot. 9. Conclusions: Sural nerve with peroneal vessels anastomosis is an ideal donor of nerve graft. 10. Objective:To summarize clinical application of the medial sural artery pedicled muscle flap to cover soft tissue defects on the prepatellar region. 11. Methods Summarizing 33 cases prothesis with this flaps, including 18 flaps of sural nerve, 8 flaps of saphenous nerve and 7 flaps official branch of radial nerve. 12. Two fresh gastrocnemius muscle specimens were warmed and flushed with warm 0.9%NaCl then injecting 0.1%methylene blue through the medial sural artery. 13. When the retrograde flow neurocutaneous island flap was raised, the end to side neurorrhaphy was carried out between the sural nerve carried by the flap and the cutaneous nerve of the foot dorsum. 14. Objective To discuss the clinical effect about flyback avulsion injury of skin in foot that repaired by anterolateral thigh flap and sural neurovascular flap with their neural anastomosis. 15. OBJECTIVE: To investigate the blood supply and clinical application of reverse island flap pedicled with sural nerve and its nutrient vessels. 16. Objective To investigate the anatomic foundation of using main branch of posterior femoral nerve to restore the sensation function of distal based sural island flap. 17. Objective To explore the clinical practice characteristic and practice effect of sural neurocutaneous vascular flap . 18. The diagnostic sensitivity of biopsy was 58% at the superficial peroneal nerve and peroneus brevis and 47% at the sural nerve. 19. Methods: The action potential of sciatic trunk and contract curve of sural muscle of hoptoad were recorded, and the time of fatigue in nerve center, neuro-muscular junction and muscle was checked. 20. The authors report their experience in caring patients with bigger sural neurocutaneous vascular flap. 21. BACKGROUND:There exists insufficient study with specific applicability regarding vascular distribution characteristics of sural nerve nutrient vessels of the distally based flap. 21. Wish you can benefit fromand make progress everyday! 22. Conclusion It is an ideal method to reconstruct leg defects with revered sural neurocutaneous flap. 23. The peripheral neurophysiologic test is a reliable method to diagnose and classify CMT, while the sural nerve biopsy may further support the diagnosis and confirm the subtyping. 24. Conclusion:The antegrade or retrograde island flap could be designed by sural nerve and its nutrient vessels. 25. Methods: By recording the action potential of sciatic trunk and contract curve of sural muscle of hoptoad, and checking the time of fatigue in nerve center, neuro-muscular junction and muscle. 26. Methods: By recording the action potential of sciatic trunk and contract curve of sural muscle of hoptoad , and measuring the time of fatigue in nerve centre, neuro-muscular junction and muscle.