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http://dx.doi.org/10.3344/kjp.2020.33.1.48

New insights into pathways of the accessory nerve and transverse cervical artery for distal selective accessory nerve blockade  

Heo, Yanguk (Department of Anatomy, Wonkwang University School of Medicine)
Cho, Namju (Department of Anatomy, Wonkwang University School of Medicine)
Cho, Hyunho (Jesaeng-Euise Clinical Anatomy Center, Wonkwang University School of Medicine)
Won, Hyung-Sun (Department of Anatomy, Wonkwang University School of Medicine)
Yang, Miyoung (Department of Anatomy, Wonkwang University School of Medicine)
Kim, Yeon-Dong (Jesaeng-Euise Clinical Anatomy Center, Wonkwang University School of Medicine)
Publication Information
The Korean Journal of Pain / v.33, no.1, 2020 , pp. 48-53 More about this Journal
Abstract
Background: The aim of this study was to clarify the topographical relationship between the accessory nerve (AN) and transverse cervical artery (TCA) to provide safe and convenient injection points for AN blockade. Methods: This study included 21 and 30 shoulders of 14 embalmed Korean adult cadavers and 15 patients, respectively, for dissection and ultrasound (US) examination. Results: The courses of the TCA and AN in the scapular region were classified into four types based on their positional relationships. Type A indicated the nerve that was medial to the artery and ran parallel without changing its location (38%). In type B (38%), the nerve was lateral to the artery and ran parallel without changing its location. In type C (19%), the nerve or artery traversed each other only once during the whole course. In type D (5%), the nerve or artery traversed each other more than twice forming a twist. At the levels of lines I-IV, the nerve was relatively close to the artery (approximately 10 mm). TCAs were observed in all specimens around the superior angle of the scapula at the level of line II, whereas they were not found below line VI. In US images of the patients, the TCA was commonly observed at the level of line II (93.3%) where all ANs and TCAs were observed in cadaveric dissection. Conclusions: The results expand the current knowledge of the relation between the AN and TCA, and provide helpful information for selective diagnostic nerve blocks in the scapular region.
Keywords
Accessory Nerve; Diagnosis; Injections; Scapula; Scapular Region; Selective Nerve Blockade; Transverse Cervical Artery; Ultrasound;
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1 Shiozaki K, Abe S, Agematsu H, Mitarashi S, Sakiyama K, Hashimoto M, et al. Anatomical study of accessory nerve innervation relating to functional neck dissection. J Oral Maxillofac Surg 2007; 65: 22-9.
2 Nystrom NA, Champagne LP, Freeman M, Blix E. Surgical fasciectomy of the trapezius muscle combined with neurolysis of the Spinal accessory nerve; results and long-term follow-up in 30 consecutive cases of refractory chronic whiplash syndrome. J Brachial Plex Peripher Nerve Inj 2010; 5: 7.
3 Chandawarkar RY, Cervino AL, Pennington GA. Management of iatrogenic injury to the spinal accessory nerve. Plast Reconstr Surg 2003; 111: 611-7.   DOI
4 Cappiello J, Piazza C, Giudice M, De Maria G, Nicolai P. Shoulder disability after different selective neck dissections (levels II-IV versus levels II-V): a comparative study. Laryngoscope 2005; 115: 259-63.   DOI
5 Restrepo CE, Tubbs RS, Spinner RJ. Expanding what is known of the anatomy of the spinal accessory nerve. Clin Anat 2015; 28: 467-71.   DOI
6 Bremner-Smith AT, Unwin AJ, Williams WW. Sensory pathways in the spinal accessory nerve. J Bone Joint Surg Br 1999; 81: 226-8.   DOI
7 Canella C, Demondion X, Delebarre A, Moraux A, Cotten H, Cotten A. Anatomical study of phrenic nerve using ultrasound. Eur Radiol 2010; 20: 659-65.   DOI
8 Bodner G, Harpf C, Gardetto A, Kovacs P, Gruber H, Peer S, et al. Ultrasonography of the accessory nerve: normal and pathologic findings in cadavers and patients with iatrogenic accessory nerve palsy. J Ultrasound Med 2002; 21: 1159-63.   DOI
9 Kessler J, Gray AT. Course of the spinal accessory nerve relative to the brachial plexus. Reg Anesth Pain Med 2007; 32: 174-6.   DOI
10 Townsley P, Ravenscroft A, Bedforth N. Ultrasound-guided spinal accessory nerve blockade in the diagnosis and management of trapezius muscle-related myofascial pain. Anaesthesia 2011; 66: 386-9.   DOI
11 Li AE, Greditzer HG 4th, Melisaratos DP, Wolfe SW, Feinberg JH, Sneag DB. MRI findings of spinal accessory neuropathy. Clin Radiol 2016; 71: 316-20.   DOI
12 Cappiello J, Piazza C, Nicolai P. The spinal accessory nerve in head and neck surgery. Curr Opin Otolaryngol Head Neck Surg 2007; 15: 107-11.   DOI
13 Waldman SD. Atlas of interventional pain management. 3rd ed. Philadelphia, Saunders. 2009, p 103.
14 Choi CH, Choi JH, Sung CH. Positive effects of local anesthetic nerve blocks for a patient with newly developed left side spasmodic torticollis after surgical intervention of right side spasmodic torticollis - a case report. Korean J Pain 2007; 20: 246-50.   DOI
15 Ramamurthy S, Akkineni SR, Winnie AP. A simple technic for block of the spinal accessory nerve. Anesth Analg 1978; 57: 591-3.   DOI
16 Scott PV. Asystole from tetanic stimulation of the accessory nerve. Anaesthesia 1996; 51: 1148-50.   DOI
17 Ogawa R, Murakami M, Vinh VQ, Hyakusoku H. Clinical and anatomical study of superficial cervical artery flaps: retrospective study of reconstructions with 41 flaps and the feasibility of harvesting them as perforator flaps. Plast Reconstr Surg 2006; 118: 95-101.
18 Symes A, Ellis H. Variations in the surface anatomy of the spinal accessory nerve in the posterior triangle. Surg Radiol Anat 2005; 27: 404-8.   DOI
19 Hagert CG, Christenson JT. Hyperpressure in the trapezius muscle associated with fibrosis. Acta Orthop Scand 1990; 61: 263-5.   DOI
20 Jobe CM, Kropp WE, Wood VE. Spinal accessory nerve in a trapezius-splitting surgical approach. J Shoulder Elbow Surg 1996; 5: 206-8.   DOI