RESUMEN
BACKGROUND: Root-level suprascapular nerve palsy is commonly reconstructed via spinal accessory nerve transfer in brachial plexus injury, yet some patients fail to recover. We hypothesize that this relates to concomitant undetected lesions distal to the nerve transfer coaptation. METHODS: 67 patients with plexus injury and C5/6 root involvement were included in this prospective study between March 2021 and October 2022. During spinal accessory to suprascapular nerve transfer the entire suprascapular nerve was explored, via cresenteric clavicular osteotomy, and anatomic variations and injury patterns categorized. RESULTS: Proximal root involvement was C5-C6 (n=8), C5-C7 (n=13), C5-C8 (n=17), C5-T1(29). Mean time from injury to surgery was 5.6 months. The suprascapular nerve was found to be injured in 16/67 cases (24%). In 9 cases (13%) the lesion was proximal to the suprascapular fossa. In 3 cases (4%) the suprascapular nerve was injured both proximally and within the fossa, and in 4 cases (6%) in the fossa or distal to it. Therefore, in 7 cases (10%), a traditional suprascapular nerve transfer would not successfully bypass the zone of injury of the suprascapular nerve in the fossa. Of the 16 cases of concomitant suprascapular nerve injury, 1/8 in occurred in C5-C6 root injury, 4/13 of C5-C7 root injury, 5/17 of C5-C8 root injury and 6/39 in total paralysis. CONCLUSIONS: Concomitant distal suprascapular nerve injury in brachial plexus stretch palsy occurred in 24% of the cases. This warrants attention from the surgeon to identify distal lesions and to perform the nerve transfer beyond any secondary lesions.
RESUMEN
Distal nerve transfer is a refined surgical technique involving the redirection of healthy sacrificable nerves from one part of the body to reinstate function in another area afflicted by paralysis or injury. This approach is particularly valuable when the original nerves are extensively damaged and standard repair methods, such as direct suturing or grafting, may be insufficient. As the nerve coaptation is close to the recipient muscles or skin, distal nerve transfers reduce the time to reinnervation. The harvesting of nerves for transfer should usually result in minimal or no donor morbidity, as any anticipated loss of function is compensated for by adjacent muscles or overlapping cutaneous territory. Recent years have witnessed notable progress in nerve transfer procedures, markedly enhancing the outcomes of upper limb reconstruction for conditions encompassing peripheral nerve, brachial plexus and spinal cord injuries.
Asunto(s)
Transferencia de Nervios , Traumatismos de los Nervios Periféricos , Humanos , Transferencia de Nervios/métodos , Traumatismos de los Nervios Periféricos/cirugía , Plexo Braquial/lesiones , Plexo Braquial/cirugía , Extremidad Superior/inervación , Extremidad Superior/cirugía , Extremidad Superior/lesionesRESUMEN
We report a case of a bilateral glass injury to the wrist with transection of flexor tendons and the ulnar nerve and artery in a 60-year-old male patient. Two days after his accident, we repaired all divided structures, and on the right hand, we added the transfer of the opponens motor branch to the deep terminal division of the ulnar nerve aimed at first dorsal interosseous and adductor pollicis muscle reinnervation. After surgery, the patient was followed over 24 months. Postoperative dynamometry of the hand, which included grasping, key-pinch, subterminal-key-pinch, pinch-to-zoom, and first dorsal interosseous muscle strength, indicated recovery only in the nerve transfer side.
Asunto(s)
Transferencia de Nervios , Nervio Cubital , Masculino , Humanos , Persona de Mediana Edad , Nervio Cubital/cirugía , Nervio Cubital/lesiones , Muñeca , Mano/inervación , Músculo Esquelético/cirugíaRESUMEN
PURPOSE: The dermatomal distributions of the ulnar and median nerves on the palmar skin of the hand have been studied thoroughly. However, the anatomic course of the median and ulnar cutaneous nerve branches and how they supply the skin of the palm is not well understood. METHODS: The cutaneous branches of the median and ulnar nerves were dissected bilaterally in 9 fresh cadavers injected arterially with green latex. RESULTS: We observed 3 groups of cutaneous nerve branches in the palm of the hand: a proximal row group consisting of long branches that originated proximal to the superficial palmar arch and reached the distal palm, first web space, or hypothenar region; a distal row group consisting of branches originating between the superficial palmar arch and the transverse fibers of the palmar aponeurosis (these nerves had a longitudinal trajectory and were shorter than the branches originating proximal to the palmar arch); and a metacarpophalangeal group, composed of short perpendicular branches originating on the palmar surface of the proper palmar digital nerves at the web space. The radial and ulnar borders of the hand distal to the palmar arch were innervated by short transverse branches arising from the proper digital nerves of the index and little finger. Nerve branches did not perforate the palmar aponeurosis in 16 of 18 cases. CONCLUSIONS: The palm of the hand was consistently innervated by 20-35 mm long cutaneous branches originating proximal to the palmar arch and shorter branches originating distal to the palmar arch. These distal branches were either perpendicular or parallel to the proper palmar digital nerves. CLINICAL RELEVANCE: Transfer of long proximal row branches may present an opportunity to restore sensibility in nerve injuries.