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find Author "RENPeng" 2 results
  • ANTERIOR SUBCUTANEOUS TRANSPOSITION OF ULNAR NERVE AND HAND INTRINSIC MUSCLES FUNCTION RECONSTRUCTION FOR SEVERE CUBITAL TUNNEL SYNDROME

    ObjectiveTo study the effectiveness of anterior subcutaneous transposition of ulnar nerve with reconstruction of hand intrinsic muscle in the treatment of severe cubital tunnel syndrome. MethodsBetween March 2006 and May 2015, 22 cases (23 hands) of severe cubital tunnel syndrome were treated by use of anterior subcutaneous transposition of ulnar nerve with reconstruction of hand intrinsic muscle. There were 15 males and 7 females, aged 45-60 years (mean, 55 years). The causes were valgus deformity of elbow joint in 12 cases, ulnar nerve subluxation in 4 cases, and osteoarthritis in 6 cases. The disease duration was 10 months to 3 years (mean, 17 months). According to Akahori classification, 14 cases were rated as type 4 and 9 cases as type 5. The ring/little finger's numbness, hand intrinsic muscle atrophy, recovery of thumb adduction function, and improvement of claw hand deformity were observed after operation. Thumb and index finger's pinch strength was measured by use of pinch device; postoperative hand function was evaluated by the standards of Chinese Medical Society of Hand Surgery of upper limb assessment protocol. ResultsAll incisions healed well and all cases were successfully followed up 8 to 24 months (mean, 14 months). Numbness of ring/little finger was significantly reduced at 1 day after operation in 10 hands; numbness disappeared completely at 1 month after operation in 12 hands; mild numbness remained at 14 months after operation in 11 hands. At last follow-up, hand intrinsic muscle atrophy partially improved (+++) in 1 hand, no improvement in 22 hands; improvement of claw hand deformity was achieved in 17 hands, no improvement in 6 hands; pinch strength of thumb and index finger was significantly improved to (5.07±1.11) kg from preoperative (2.91±0.63) kg (t=-12.340, P=0.032). At last follow-up, the results were excellent in 11 hands, good in 8 hands, fair in 3 hands, and poor in 1 hand, and the excellent and good rate was 82.6%. ConclusionAnterior subcutaneous transposition of ulnar nerve with reconstruction of hand intrinsic muscle is a simple, effective, and reliable surgical treatment for severe cubital tunnel syndrome.

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  • THREE DIMENSIONAL VISUAL RESEARCH OF THORACIC DORSAL ARTERY BASED ON CT ANGIOGRAPHY

    ObjectiveTo study the digital anatomy and application value of the thoracic dorsal artery based on CT angiography (CTA). MethodsBetween September 2012 and June 2014, aorta CTA images were chosen from 10 cases (20 sides) undergoing aorta CTA. By using Mimics 17.0 software for three dimensional (3D) reconstruction of image post-processing, the digital vascular anatomical information were obtained after observing and measuring the origin of the thoracic dorsal artery, the number of perforators, type, inner diameter, and pedicle length; and the body surface location of perforator vessel was determined, and then the thoracic dorsal artery perforators tissue flap harvesting was simulated. Results3D reconstruction images showed that the thoracic dorsal artery originated from subscapular artery, 76 perforator vessels were found, including 32 perforators (42.1%) from the medial branch of the thoracic dorsal artery and 44 perforators (57.9%) from the lateral branch of the thoracic dorsal artery, of which 69 were intramuscular perforators (90.8%) and 7 were direct skin artery (9.2%). The inner diameter of the thoracic dorsal artery was (1.69±0.23) mm, and its pedicle length was (2.12±0.64) cm. The first lateral perforator of the thoracic dorsal artery located at (1.65±0.42) cm above the horizontal line of the inferior angle of scapula and at (1.68±0.31) cm lateral to vertical line of the inferior angle of scapula. The first medial perforator located at (1.43 ±0.28) cm above the horizontal line of the inferior angle of scapula and at (1.41±0.28) cm lateral to vertical line of the inferior angle of scapula. The thoracic dorsal artery perforators flap harvesting was successfully simulated. ConclusionCTA is a more intuitive method to study the thoracic dorsal artery in vivo, it can clearly display 3D information of the main blood supply artery course and distribution after flap reconstruction, so it can effectively and accurately guide the design of the flap.

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