Dorsal scapular and long thoracic nerves during ultrasound-guided interscalene brachial plexus block

Dorsal scapular and long thoracic nerves during ultrasound-guided interscalene brachial plexus block

Asian Journal of Anesthesiology 55 (2017) 26e27 Contents lists available at ScienceDirect Asian Journal of Anesthesiology journal homepage: www.e-aa...

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Asian Journal of Anesthesiology 55 (2017) 26e27

Contents lists available at ScienceDirect

Asian Journal of Anesthesiology journal homepage: www.e-aat.com

Images in Anesthesiology

Dorsal scapular and long thoracic nerves during ultrasound-guided interscalene brachial plexus block Hyungtae Kim Department of Anesthesiology and Pain Medicine, Presbyterian Medical Center, Seonam University College of Medicine, 365, Seowon-ro, Wansan-gu, Republic of Korea

a r t i c l e i n f o Article history: Received 29 June 2016 Received in revised form 28 November 2016 Accepted 29 November 2016

Regional anesthesia has been widely used for intraoperative and postoperative pain management in shoulder, clavicle, and humerus surgery. Interscalene brachial plexus block (IBPB) is a common regional anesthesia method that is currently performed under ultrasound guidance. Posterior approach is more commonly used because of the risk of phrenic nerve injury from the anterior approach.1 However, the operator needs to be cautious to avoid the dorsal scapular nerve (DSN) and long thoracic nerve (LTN), during this approach. DSN is mainly derived from the 5th cervical nerve root and supplies motor innervation of levator scapulae muscle and rhomboid muscle. DSN passes through the middle scalene muscle at an average of 3 cm (1.8e4.5 cm) from its origin.2 For identification of DSN, the transducer is positioned in the transverse plane (shortaxis view) to visualize the carotid artery. Subsequently, sliding the transducer slightly laterally across the neck, and then scanning craniocaudally from 5th cervical root to 7th or 8th cervical root. DSN is identified within or superficial to the middle scalene muscle, usually found in the cross-sectional image between the levels where 5th and 6th cervical roots come out. DSN appears as an ovalshaped hyperechoic line, with small areas of hypoechoic fascicles within (Video 1). While scanning caudally, DSN is more easily identified within middle scalene muscle at the 6th cervical root level. Supplementary video related to this article can be found at http://dx.doi.org/10.1016/j.aja.2017.07.001. Twitching of levator scapulae muscle is seen (Video 2) and a twitching of rhomboid muscle is palpable using nerve stimulator.

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Occasionally, the needle is right beside the DSN even when the nerve is not visible on ultrasound (Video 3). Thus, if muscle twitching occurs, the needle should not be inserted without reexamining the surrounding needle site with ultrasound; and if DSN is identified, the needle should be inserted at a different angle. Supplementary video related to this article can be found at http://dx.doi.org/10.1016/j.aja.2017.07.001. Twitching can occasionally be caused by contact of the stimulating needle with the skin (Video 4), since DSN is located superficially and runs posteriorly. In order to avoid risk of DSN injury, another needle insertion site that is more posterior to ultrasoundDSN imaging using posterior approach is required. Supplementary video related to this article can be found at http://dx.doi.org/10.1016/j.aja.2017.07.001. DSN syndrome is a chronic pain syndrome that occurs due to injury by the needle approach. It is characterized by pain along the medial border of scapula that radiates to the lateral surface of upper extremities and causes weakness of the rhomboid and/or levator scapulae muscles.3 Patients with DSN syndrome usually complain of a not-well-defined shoulder pain and dysfunction with different degrees of functional impairment. LTN is reportedly derived from the 5th and 6th cervical roots, which innervates the serratus anterior muscle. It runs within or next to the middle scalene muscle often in proximity to DSN (Video 1). LTN can be identified with the same method used for DSN. However, LTN is located deeper to the DSN, usually between 6th and 7th cervical root level. LTN appears as an oval-shaped hyperechoic line, with small areas of hypoechoic fascicles within (Video 1). While scanning caudally, LTN is easy to be identified at the level of 7th cervical root. Twitching of serratus anterior muscle is seen using nerve stimulator (Video 5). Supplementary video related to this article can be found at http://dx.doi.org/10.1016/j.aja.2017.07.001. LTN can be encountered during IBPB by the posterior approach, causing risk of nerve injury.4 LTN syndrome is a chronic pain syndrome of the shoulder associated with different degree of serratus anterior muscle palsy, impairment of shoulder elevation, and characteristic scapula winging with medial translation and rotation of the inferior angle towards the midline.

http://dx.doi.org/10.1016/j.aja.2017.07.001 2468-824X/© 2017 Taiwan Society of Anesthesiologists. Published by Elsevier Taiwan LLC. This is an open access article under the CC BY-NC-ND license (http:// creativecommons.org/licenses/by-nc-nd/4.0/).

Dorsal scapular and long thoracic nerves

Kim et al reported that in total 70 cases who underwent ultrasound-guided IBPB with nerve stimulator, DSN was encountered in 44 cases (62.8%), LTN in 15 cases (21.4%), both nerves in 10 cases (14.3%), and neither was encountered in 21 cases (30.4%); moreover, the average current measured immediately before the disappearance of muscle twitches was 0.44 mA and 0.50 mA at DSN and LTN, respectively.5 The risk of encountering nerves is avoidable if the stimulation currents are started at 1.5 mA. In conclusion, careful examination of anatomical structures, including DSN and LTN, is essential to safe procedure. Nerve stimulator is recommended for ultrasound-guided IBPB with posterior approach. In the presence of motor response, it is considerably safer to deflect the needle and find an alternate path. If performed under general anesthesia, it is recommended to avoid oval-shaped hyperechoic line containing small areas of hypoechoic fascicles in the needle plane.

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Conflict of interest There is no conflict of interest. References 1. Mian A, Chaudhry I, Huang R, Rizk E, Tubbs RS, Loukas M. Brachial plexus anesthesia: a review of the relevant anatomy, complications, and anatomical variations. Clin Anat. 2014;27:210e221. 2. Tubbs RS, Tyler-Kabara EC, Aikens AC, et al. Surgical anatomy of the dorsal scapular nerve. J Neurosurg. 2005;102:910e911. 3. Saporito A. Dorsal scapular nerve injury: a complication of ultrasound-guided interscalene block. Br J Anaesth. 2013;111:840e841. 4. Thomas SE, Winchester JB, Hickman G, DeBusk E. A confirmed case of injury to long thoracic nerve following a posterior approach to an interscalene nerve block. Reg Anesth Pain Med. 2013;38:370. 5. Kim YD, Yu JY, Shim J, Heo HJ, Kim H. Risk of encountering dorsal scapular and long thoracic nerves during ultrasound-guided IBPB with nerve stimulator. Korean J Pain. 2016;29:179e184.