Conclusion Fibular head is similar to lateral malleolus.
结论腓骨头与外踝较为相似。
Results: lateral malleolus branches were formed from anterior tibial artery on or between the ankles.
结果:胫前动脉在踝间或踝上向外侧恒定地发出外踝前动脉。
Objective:To evaluate the clinial application value of absorbable screw in the treatment of simple lateral malleolus fracture.
目的:探讨可吸收螺钉在单纯外踝骨折中的应用价值。
Objective To study the method and effect of transferring the pedicled second metatarsal base for repairing bone defect of lateral malleolus.
目的探讨带血供第二跖骨底骨瓣移位修复外踝骨缺损的方法及临床效果。
Methods the peroneus brevis muscle flaps were translocated reversely for repair of the soft tissue defects on the lateral malleolus and Achilles tendon.
方法设计腓骨短肌肌瓣逆行转位修复外踝及跟腱处软组织缺损创面。
The sequence of reduction and fixation of ankle fractures was firstly posterior malleolus, then medial malleolus and lateral malleolus, and inferior tibiofibular syndesmosis lastly.
骨折复位固定顺序为后踝、内踝、外踝和下胫腓联合。
Objective to provide anatomical basis for transposition for the periosteal flap pedicled with the lateral anterior malleolus vessel on the anterior external of tibia distally based.
目的为外踝前血管胫骨远端前外侧骨膜瓣移位术提供解剖学依据。
Postoperative algesia on the leg and foot, active flexion and extension of the malleolus, toe and phalanxes, and the lateral stress test of the knee were observed.
术后观察小腿和足部痛觉,踝及足趾的跖背屈运动,足背动脉搏动并行膝侧方应力试验。
Specifically, lesions on the anterior and lateral aspects of the talus and on the medial malleolus correlate with an unfavorable clinical outcome.
尤其是距骨的外侧和前方的损伤以及内踝的损伤常伴有不佳的临床疗效。
The lateral projection (fig. 2D) demonstrates an avulsion of the posterior malleolus, documenting a completed stage IV pronation-lateral rotation injury.
侧位相(图。2D)显示后踝撕脱骨折,表明骨折为旋前外旋完全IV度损伤。
The lateral projection (fig. 2D) demonstrates an avulsion of the posterior malleolus, documenting a completed stage IV pronation-lateral rotation injury.
侧位相(图。2D)显示后踝撕脱骨折,表明骨折为旋前外旋完全IV度损伤。
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