腓骨头复合组织瓣修复儿童内踝骨皮肤缺损四例

Objective To investigate the therapeutic effect of fibular head composite flap for bone and skin defect at medial malleolus in children. Methods From Aug. 2005 to Apr. 2009, 4 children cases(2 male, 2 famale, from 3 to 11 year) with bone and skin defect at medial malleolus were reconstructed with fibular head composite flaps pedicled with lateral inferior genicular vascular bundle. The skin defect was 3- 6 cm × 8-10 cm in size. Results All the 4 compostie flaps survived completely. The patients were followed up for 4 months to 4 years with good bony healing. Both esthetic and functional results were satisfactory in ankle joint. Conclusions The fibular head composite tissue flap has a good therapeutic effect for bone and skin defect at medial malleolus in children.     

腓骨头复合组织瓣修复儿童内踝骨皮肤缺损四例

目的 探讨腓骨头复合组织瓣修复儿童内踝骨皮肤缺损的临床效果.方法 2005年8月至2009年4月,根据腓骨头区域的解剖学特点.设计了以膝下外侧血管束为供血的腓骨头复合组织瓣,修复儿童内踝骨皮肤缺损4例,内踝缺损均累及骨骺,皮肤缺损面积为3～6 cm × 8～10cm.结果 4例腓骨头复合组织瓣血供丰富,全部存活,朱出现血管危象.术后随访4个月至4年,4例骨端全部愈合,重建内踝形态良好,踝关节外形及功能恢复满意.结论 腓骨头复合组织瓣是修复儿童内踝骨皮肤缺损的一种较好方法.

Abstract：

Objective To investigate the therapeutic effect of fibular head composite flap for bone and skin defect at medial malleolus in children. Methods From Aug. 2005 to Apr. 2009, 4 children cases(2 male, 2 famale, from 3 to 11 year) with bone and skin defect at medial malleolus were reconstructed with fibular head composite flaps pedicled with lateral inferior genicular vascular bundle. The skin defect was 3- 6 cm × 8-10 cm in size. Results All the 4 compostie flaps survived completely. The patients were followed up for 4 months to 4 years with good bony healing. Both esthetic and functional results were satisfactory in ankle joint. Conclusions The fibular head composite tissue flap has a good therapeutic effect for bone and skin defect at medial malleolus in children.     

Clinical study of reconstructing the medial malleolus with free grafting of fibular head composite tendon bone flap

Objective： To explore new surgical procedure for repairing and reconstructing medial malleolus and soft tissue defect.
Methods： According to the size of medial malleolus and composite soft tissue defect, vascular fibular bead composite tendon bone flap free wafting using anterior tibial recurrent vessel as the perforating branch was designed to reconstruct the medial malleolar saddle and triangular ligament, and composite back broadest muscle flap free grafting was designed to repair the medical malleolar wound surface. From January 2000 to December 2006, the technique was used in 5 male patients who were injured by machine or in traffic accidents, causing bone and soft tissue defect. The size of wound surface ranged from 19 cm×12 cm to 24 cm×12 cm.
Results： The wound surface was healed at the first stage in 4 cases, and the other case had infection and was cured in 6 months with anti infection therapy. Postoperative foUow-ups from 6 months to 6 years showed that grafted bones and free cutaneous flaps were healed well, malleolar joints were stable, joint movement was normal, and the appearance was satisfactory. The overall outcome was good.
Conclusion ： Fibular head composite tendon bone flap free grafting is effective for repairing medical malleolar defect.     

带血管蒂腓骨头骨骺截骨整形重建内踝的应用解剖与临床应用

Objective To provide an anatomical basis for repairing the medial malleolus with bone-severed vascularized fibular head epiphysis, and to explore the effect of clinical application with this method. Methods Figures of fibular head and medial malleolus were measured on 20 fresh lower limbs specimens of child age from 2 to 12 years old, then bone-severed formula was deduced. The bone-severed composite fibular head epiphysis to repair the defect of medial malleolus were carried for 6 child patients of emergency or post-poned cases on one stage. Obersved the clinical effect by following-up. Results The angle between fibular head and stem (M) was(170±8)°, angle of fibular head sadacc(N) was (145 ±6)°, length(1.5±0.2)cm and width (1.4±0.2)cm; angle between medial malleolus and stem(1) was(152±8)°, length of the articular surface of medial malholus was(1.25 ± 0.2)cm and width (1.25 ± 0.2)cm. Angle between defect surface and tibia was(Q). Formula: angle of bone-severing X = L-N-Q, and apex at the upper 1/6 of the reversed articular surface of fibular. 6 cases with this method was completed, all healed at stage one, following-up 1 to 3 years, medial malleolos developed well and no epiphysis ossification anticipation, and the ankle joint has no inversion with its loadind and walking function good. Conclusion The fibular head epiphysis and the medial malleolus differ in shape to some extent, but good donor can be got by bone-severing, can repair the epiphysis and soft tissue defect of the medial malleolus at one stage with additional flap, developing with the child at the same time, it is a perfect method to reconstruct the traumatic defect of child medial malleohs.     

带血管蒂腓骨头骨骺截骨整形重建内踝的应用解剖与临床应用

Objective To provide an anatomical basis for repairing the medial malleolus with bone-severed vascularized fibular head epiphysis, and to explore the effect of clinical application with this method. Methods Figures of fibular head and medial malleolus were measured on 20 fresh lower limbs specimens of child age from 2 to 12 years old, then bone-severed formula was deduced. The bone-severed composite fibular head epiphysis to repair the defect of medial malleolus were carried for 6 child patients of emergency or post-poned cases on one stage. Obersved the clinical effect by following-up. Results The angle between fibular head and stem (M) was(170±8)°, angle of fibular head sadacc(N) was (145 ±6)°, length(1.5±0.2)cm and width (1.4±0.2)cm; angle between medial malleolus and stem(1) was(152±8)°, length of the articular surface of medial malholus was(1.25 ± 0.2)cm and width (1.25 ± 0.2)cm. Angle between defect surface and tibia was(Q). Formula: angle of bone-severing X = L-N-Q, and apex at the upper 1/6 of the reversed articular surface of fibular. 6 cases with this method was completed, all healed at stage one, following-up 1 to 3 years, medial malleolos developed well and no epiphysis ossification anticipation, and the ankle joint has no inversion with its loadind and walking function good. Conclusion The fibular head epiphysis and the medial malleolus differ in shape to some extent, but good donor can be got by bone-severing, can repair the epiphysis and soft tissue defect of the medial malleolus at one stage with additional flap, developing with the child at the same time, it is a perfect method to reconstruct the traumatic defect of child medial malleohs.     

带血管蒂腓骨头骨骺截骨整形重建内踝的应用解剖与临床应用

Objective To provide an anatomical basis for repairing the medial malleolus with bone-severed vascularized fibular head epiphysis, and to explore the effect of clinical application with this method. Methods Figures of fibular head and medial malleolus were measured on 20 fresh lower limbs specimens of child age from 2 to 12 years old, then bone-severed formula was deduced. The bone-severed composite fibular head epiphysis to repair the defect of medial malleolus were carried for 6 child patients of emergency or post-poned cases on one stage. Obersved the clinical effect by following-up. Results The angle between fibular head and stem (M) was(170±8)°, angle of fibular head sadacc(N) was (145 ±6)°, length(1.5±0.2)cm and width (1.4±0.2)cm; angle between medial malleolus and stem(1) was(152±8)°, length of the articular surface of medial malholus was(1.25 ± 0.2)cm and width (1.25 ± 0.2)cm. Angle between defect surface and tibia was(Q). Formula: angle of bone-severing X = L-N-Q, and apex at the upper 1/6 of the reversed articular surface of fibular. 6 cases with this method was completed, all healed at stage one, following-up 1 to 3 years, medial malleolos developed well and no epiphysis ossification anticipation, and the ankle joint has no inversion with its loadind and walking function good. Conclusion The fibular head epiphysis and the medial malleolus differ in shape to some extent, but good donor can be got by bone-severing, can repair the epiphysis and soft tissue defect of the medial malleolus at one stage with additional flap, developing with the child at the same time, it is a perfect method to reconstruct the traumatic defect of child medial malleohs.     

带血管蒂腓骨头骨骺截骨整形重建内踝的应用解剖与临床应用

Objective To provide an anatomical basis for repairing the medial malleolus with bone-severed vascularized fibular head epiphysis, and to explore the effect of clinical application with this method. Methods Figures of fibular head and medial malleolus were measured on 20 fresh lower limbs specimens of child age from 2 to 12 years old, then bone-severed formula was deduced. The bone-severed composite fibular head epiphysis to repair the defect of medial malleolus were carried for 6 child patients of emergency or post-poned cases on one stage. Obersved the clinical effect by following-up. Results The angle between fibular head and stem (M) was(170±8)°, angle of fibular head sadacc(N) was (145 ±6)°, length(1.5±0.2)cm and width (1.4±0.2)cm; angle between medial malleolus and stem(1) was(152±8)°, length of the articular surface of medial malholus was(1.25 ± 0.2)cm and width (1.25 ± 0.2)cm. Angle between defect surface and tibia was(Q). Formula: angle of bone-severing X = L-N-Q, and apex at the upper 1/6 of the reversed articular surface of fibular. 6 cases with this method was completed, all healed at stage one, following-up 1 to 3 years, medial malleolos developed well and no epiphysis ossification anticipation, and the ankle joint has no inversion with its loadind and walking function good. Conclusion The fibular head epiphysis and the medial malleolus differ in shape to some extent, but good donor can be got by bone-severing, can repair the epiphysis and soft tissue defect of the medial malleolus at one stage with additional flap, developing with the child at the same time, it is a perfect method to reconstruct the traumatic defect of child medial malleohs.     

带血管蒂腓骨头骨骺截骨整形重建内踝的应用解剖与临床应用

Objective To provide an anatomical basis for repairing the medial malleolus with bone-severed vascularized fibular head epiphysis, and to explore the effect of clinical application with this method. Methods Figures of fibular head and medial malleolus were measured on 20 fresh lower limbs specimens of child age from 2 to 12 years old, then bone-severed formula was deduced. The bone-severed composite fibular head epiphysis to repair the defect of medial malleolus were carried for 6 child patients of emergency or post-poned cases on one stage. Obersved the clinical effect by following-up. Results The angle between fibular head and stem (M) was(170±8)°, angle of fibular head sadacc(N) was (145 ±6)°, length(1.5±0.2)cm and width (1.4±0.2)cm; angle between medial malleolus and stem(1) was(152±8)°, length of the articular surface of medial malholus was(1.25 ± 0.2)cm and width (1.25 ± 0.2)cm. Angle between defect surface and tibia was(Q). Formula: angle of bone-severing X = L-N-Q, and apex at the upper 1/6 of the reversed articular surface of fibular. 6 cases with this method was completed, all healed at stage one, following-up 1 to 3 years, medial malleolos developed well and no epiphysis ossification anticipation, and the ankle joint has no inversion with its loadind and walking function good. Conclusion The fibular head epiphysis and the medial malleolus differ in shape to some extent, but good donor can be got by bone-severing, can repair the epiphysis and soft tissue defect of the medial malleolus at one stage with additional flap, developing with the child at the same time, it is a perfect method to reconstruct the traumatic defect of child medial malleohs.     

带血管蒂腓骨头骨骺截骨整形重建内踝的应用解剖与临床应用

Objective To provide an anatomical basis for repairing the medial malleolus with bone-severed vascularized fibular head epiphysis, and to explore the effect of clinical application with this method. Methods Figures of fibular head and medial malleolus were measured on 20 fresh lower limbs specimens of child age from 2 to 12 years old, then bone-severed formula was deduced. The bone-severed composite fibular head epiphysis to repair the defect of medial malleolus were carried for 6 child patients of emergency or post-poned cases on one stage. Obersved the clinical effect by following-up. Results The angle between fibular head and stem (M) was(170±8)°, angle of fibular head sadacc(N) was (145 ±6)°, length(1.5±0.2)cm and width (1.4±0.2)cm; angle between medial malleolus and stem(1) was(152±8)°, length of the articular surface of medial malholus was(1.25 ± 0.2)cm and width (1.25 ± 0.2)cm. Angle between defect surface and tibia was(Q). Formula: angle of bone-severing X = L-N-Q, and apex at the upper 1/6 of the reversed articular surface of fibular. 6 cases with this method was completed, all healed at stage one, following-up 1 to 3 years, medial malleolos developed well and no epiphysis ossification anticipation, and the ankle joint has no inversion with its loadind and walking function good. Conclusion The fibular head epiphysis and the medial malleolus differ in shape to some extent, but good donor can be got by bone-severing, can repair the epiphysis and soft tissue defect of the medial malleolus at one stage with additional flap, developing with the child at the same time, it is a perfect method to reconstruct the traumatic defect of child medial malleohs.     

带血管蒂腓骨头骨骺截骨整形重建内踝的应用解剖与临床应用

Objective To provide an anatomical basis for repairing the medial malleolus with bone-severed vascularized fibular head epiphysis, and to explore the effect of clinical application with this method. Methods Figures of fibular head and medial malleolus were measured on 20 fresh lower limbs specimens of child age from 2 to 12 years old, then bone-severed formula was deduced. The bone-severed composite fibular head epiphysis to repair the defect of medial malleolus were carried for 6 child patients of emergency or post-poned cases on one stage. Obersved the clinical effect by following-up. Results The angle between fibular head and stem (M) was(170±8)°, angle of fibular head sadacc(N) was (145 ±6)°, length(1.5±0.2)cm and width (1.4±0.2)cm; angle between medial malleolus and stem(1) was(152±8)°, length of the articular surface of medial malholus was(1.25 ± 0.2)cm and width (1.25 ± 0.2)cm. Angle between defect surface and tibia was(Q). Formula: angle of bone-severing X = L-N-Q, and apex at the upper 1/6 of the reversed articular surface of fibular. 6 cases with this method was completed, all healed at stage one, following-up 1 to 3 years, medial malleolos developed well and no epiphysis ossification anticipation, and the ankle joint has no inversion with its loadind and walking function good. Conclusion The fibular head epiphysis and the medial malleolus differ in shape to some extent, but good donor can be got by bone-severing, can repair the epiphysis and soft tissue defect of the medial malleolus at one stage with additional flap, developing with the child at the same time, it is a perfect method to reconstruct the traumatic defect of child medial malleohs.