ABSTRACT
Objective To analyze features of the lateral leg peroneal artery perforator free flap,and study the clinical application of free peroneal artery perforator flap transplantation for repairing forefoot defects.Methods Retrospectively analyzed 9 patients with forefoot defects which had been repaired with free lateral leg peroneal artery perforator flap transplantation.In this group,the skin and soft tissue defects size were 4.5 cm ×4.0 cm-13.5 cm × 6.5 cm,Focused on analyzing the features of forefoot skin and soft tissue defects,the design and harvesting of lateral leg peroneal artery perforator flap,and vascular anastomosis and vessel matching,meanwhile,follow-up the survival condition and appearance of the flap,the function of foot and ankle after operation.Results In the 9 cases,the larger myocutaneous perforator arising from peroneal artery,accompanying 2 vena comitans,were found slightly above the midpoint of the line between fibula head and lateral malleolus in lateral leg.The flaps transfered to repair forefoot defects,artery end-end anastomosis:in 5 cases cutaneous branch of peroneal artery to dorsal artery of foot,in 4 cases by cutaneous branch of peroneal artery to dorsal metatarsal artery;vein end-end anastomosis:in 1 case 2 accompanying veins of peroneal artery cutaneous branch to 2 accompanying veins of dorsal artery of foot,in 5 cases 1 accompanying vein of peroneal artery cutaneous branch to 1 accompanying vein of dorsal artery of foot or metatarsal,in 3 cases 1 accompanying vein of peroneal artery cutaneous branch to 1 accompanying vein of dorsal artery of foot or metatarsal,simultaneously,the another accompanying vein of peroneal artery cutaneous branch to 1 dorsal superficial vein of the foot.All the 9 flaps survived,and no vessel articulo happened.The venous return of flaps had no significant difference between repairing 1 vein and 2 veins in gross appearance.All wounds healed in one-period.Followed-up 2-6 months postoperative,1 patient was performed flap reshaping due to flap fat and clumsy at 5 months postoperative,others,the skin texture and appearance of the flaps were good and satisfactive.Conclusion Free transplantation of the lateral leg peroneal artery perforator flap broke away from the bondage of pedicled flap,had more freedom in flap design,and effectively controlled the trauma of donor and recipient site.The flap have the merits,blood vessel anatomy is relatively stable,blood supply is reliable,harvesting is simple,skin texture is similar to the forefoot and the effect is better,operation of the donor and recipient sites can accomplish under a identical anaesthesia and tourniquet.Thus,the lateral leg peroneal artery perforator free flap is an effective metheod in reparation of the forefoot defects.
ABSTRACT
ObjectiveTo explore methods of donor repair of the great toe-nail flap in finger reconstruction surgery.MethodsFrom December 1998 to December 2010, various kinds of flaps were used in 511 donor sites to repair the great toe-nail flaps,including:32 dorsal pedal artery flaps;twenty-four first dorsal metatarsal artery flaps;twenty-one second dorsal metatarsal artery flaps;forteen anterior malleolar flaps;seventeen medial tarsal artery flaps;seventy-nine lateral tarsal artery flaps;one hundred and six plantar metatarsal flaps,seventy-nine flaps from second toe;fifteen flaps from mid/lower leg and 124 freed flaps.ResultsAfter postoperative 6 months to 11 years of follow-up, repaired donor sites of great toe-flaps all survived successfully,with ideal outlook and function.ConclusionThere are many kinds of methods for donor site repair of the great toe-nail flap,and each kind of method has its own advantages and disadvantages. Among these flaps, plantar pedal artery flap and free groin flap are amony the best ones.
ABSTRACT
ObjectiveTo introduce the new method of full reconstruction for Ⅰ to Ⅲ-degree finger defect.MethodsFor reconstruction of Ⅰ to Ⅱ-degree finger defect, the surgery procedure was as follows:Harvest part of nail,skin and dorsal part of distal phalanx from hallux to form a composite flap,and then the flap was transplanted to the finger stump to reconstruct the defect part of the finger.The design of the composite flap was according to the recipient part. For reconstruction of Ⅲ-degree finger defect, the skin included in the flap could be designed according to the recipient part, but the bone can only be harvested from the fibulodoral part of the hallux and far from the insertion of the extensor hallucis longus tendon, which means the length was limited.If the bone length was not enough,one bone mass with appropriate size and shape was harvested from the iliac bone and connected with the bone of the composite flap. Some cases of Ⅲ-degree finger defect were reconstructed by harvesting interphalangeal joints from the second toes to reconstruct distal interphalangeal joints(DIP). The bone defect was reconstituted by bone mass from the iliac bone to conserve the contour of the second toe.The hallux wound was covered by a local flap or free flap transplantation.ResultsOne hundred and eighteen cases (126 fingers) of Ⅰ-degree defect, one hundred and eighty-seven cases (201 fingers) of Ⅱ-degree defect and 90 cases (111 fingers) of Ⅲ-degree finger defect were applied full reconstruction. All the reconstructed fingers survived completely and the configurations were similar to real fingers. Followed up our work on 150 fingers from a number of patients, between 1 and 11 years after the original surgery.Total ranges of motion of the reconstructed fingers got to over 180°.The reconstructed DIP joints had the range of motion of 15°-40°. The donor halluxes and toes were conserved with the normal length,relatively primary appearance and full function. ConclusionFull reconstruction for Ⅰ to Ⅲ-degree finger defect has great advantages in that the reconstructed finger has very realistic configuration as well as ideal function and the donor hallux is conserve well.
ABSTRACT
The use of the accessory nerve as a donor is one of the best possibilities for treatment of the brachial plexus in case of paralysis due to root avulsion. In this paper, a brief history of the use of accessory nerve tran sfer for treatment of brachial plexus injury and recent development in the anato my of accessory nerve are introduced. The nerve transfer methods and the effects of the accessory nerve are discussed in particular. The progress in and the dev elopment trend of the accessory nerve transfer methods are also analyzed. It is advisable that the accessory nerve is transferred to restore the suprascapular n erve so as to obtain shoulder abduction. And it is a clinical trend that the dis tal terminal branch of the accessory nerve is used and the function of the upper part of the trapezius muscle is preserved in the transfer. At last, the factors affecting functional outcome in accessory nerve transfer are discussed.
ABSTRACT
Objective To investigate the feasibility of endoscopy in diagnosis and treatment of compressed peripheral nerves. Methods An 1.5 cm transverse incision posterior to the margin of pectoralis major along the second rib was made in 2 old and 9 fresh cadaver specimens. The distance from the incision to the insertions of anterior and middle scalene muscle on the first rib was measured at various angles. The structures surrounding the approach was observed and measured to find a safer approach for endoscopic treatment of brachial plexus compression syndrome. Results With the upper limb hyperabducted at 120 degrees, anteriorly tilting at 30 degrees, through an 1.5 cm transverse incision made posteriorly to the margin of pectoralis major and along the second rib, the apparatus was inserted toward the point 6.5 cm laterally apart from the sternoclavicular articulation and 7.8 cm in depth, reaching the insertions of the anterior and middle scalene muscle on the first rib without injury to the nerves and vessels. Conclusion The approach is safe for endoscopic apparatus reaching the insertions of the anterior and middle scalene muscles on the first rib. It also provides a basis for further investigation of cutting anterior and middle scalene muscles through endoscope.
ABSTRACT
Objective To study the ulnar nerve and its adjacent structures in the forearm and understand the anatomic basis for endoscopic harvesting of the ulnar nerve for the treatment of brachial plexus avulsion injury. Methods Ulnar nerves and their adjacent structures in 6 formaldehyde solution fixed upper limb specimen and 26 fresh upper limb specimens were carefully dissected and observed and measured. The entry path and implementation were designed according to the observations. Simulated operation was performed in 6 fresh autopsy specimens Results In the forearm, ulnar nerve passes through the flexor carpi ulnaris under the medial epicondyle of the humerus and the dorsal branch of the hand passes between the ulnar bone and flexor carpi ulnaris. Also the ulnar nerve descends through intermuscular space, accompaning the ulnar artery in the distant part of the forearm and the artery lies laterally along the nerve. The simulated operations were successfully done in all the 6 specimens. Conclusions The anatomy of the ulnar nerve in the forearm is fairly fixed with no crossing with important structures in its path, incisions of 1~2cm are made above the pisiform bone and under the medial epicondyle of the humerus 3~5cm respecitvely, After isolation of the ulnar nerve's two crosses from the muscle, the remaining part of the ulnar nerve and its adjacent structures are easily dissected. It is concluded that it is safe and reliable to harvest the ulnar nerve in the forearm with endoscopy.