MR Imaging Findings in Brachial Plexopathy with Thoracic Outlet Syndrome

Abstract: SUMMARY:The BPL is a part of the peripheral nervous system. Many disease processes affect the BPL. In this article, on the basis of 60 patients, we reviewed MR imaging findings of subjects with brachial plexopathy. Different varieties of BPL lesions are discussed.ABBREVIATIONS: AA ϭ axillary artery; ABD ϭ abduction; ADs ϭ anterior divisions; AS ϭ anterior scalene muscle; AV ϭ axillary vein; BPL ϭ brachial plexus; CC ϭ costoclavicular space; CL ϭ clavicula; EMG, electromyelography; I ϭ inferior trunk; IS ϭ inte… Show more

“…Although uncommon, involvement of the middle trunk or kinking of the nerve roots by a fibrous band or flattening due to an intramuscular course of the nerve roots, impingement by anomalous vessels, narrowing of the interscalene space by a hypertrophied muscle, or cervical ribs or costocostal pseudoarthrosis impinging the nerves may be seen as abnormal findings (Fig 9). 4,18,[20][21][22][23] Simultaneous depiction of the causative lesion, such as a cervical rib and associated displacement of the nerve with signal abnormality, is possible on curved reconstructions generated from isotropic 3D imaging (Fig 9). The treatment of TOS may be rehabilitation or surgery by anterior scalenectomy and anomalous rib resection.…”

High-Resolution 3T MR Neurography of the Brachial Plexus and Its Branches, with Emphasis on 3D Imaging

“…Although uncommon, involvement of the middle trunk or kinking of the nerve roots by a fibrous band or flattening due to an intramuscular course of the nerve roots, impingement by anomalous vessels, narrowing of the interscalene space by a hypertrophied muscle, or cervical ribs or costocostal pseudoarthrosis impinging the nerves may be seen as abnormal findings (Fig 9). 4,18,[20][21][22][23] Simultaneous depiction of the causative lesion, such as a cervical rib and associated displacement of the nerve with signal abnormality, is possible on curved reconstructions generated from isotropic 3D imaging (Fig 9). The treatment of TOS may be rehabilitation or surgery by anterior scalenectomy and anomalous rib resection.…”

High-Resolution 3T MR Neurography of the Brachial Plexus and Its Branches, with Emphasis on 3D Imaging

“…Rarely, patients present with ''classic neurogenic TOS'' with muscle weakness and atrophy in the thenar and hypothenar muscles, usually with concomitant involvement of muscles in the medial forearm and with abnormal C8 and T1 nerve innervations patterns on electrophysiologic exams. [1][2][3][4][5][6]8,9 Previous reports in the literature have supported the use of conventional radiographs, ultrasound, angiography, MRI, and CT in diagnosing brachial plexus compression at the thoracic inlet. 1,6,10,11 These modalities are useful for demonstrating the anatomy of the thoracic inlet and possible compressive pathologies, such as anomalous cervical ribs, elongated C7 transverse processes, tumors, and hypertrophied bone or muscles.…”

“…[1][2][3][4][5][6]8,9 Previous reports in the literature have supported the use of conventional radiographs, ultrasound, angiography, MRI, and CT in diagnosing brachial plexus compression at the thoracic inlet. 1,6,10,11 These modalities are useful for demonstrating the anatomy of the thoracic inlet and possible compressive pathologies, such as anomalous cervical ribs, elongated C7 transverse processes, tumors, and hypertrophied bone or muscles. However, these methods are insufficient for detecting subtle changes in morphology and signal intensity characteristics of the fine neural structures and the exact topographical relationship between neural structures and the adjacent compressive pathology.…”

Magnetic resonance neurography‐surgical correlation of neurologic thoracic outlet syndrome

“…The Recent advances in nerve MR imaging (ie, neurography) include isotropic three-dimensional image acquisition and diffusion-weighted imaging (8)(9)(10), which have permitted improved visualization of small nerves, greater sensitivity to changes in nerve signal, and better delineation of the perineural soft tissues. The use of MR neurography in a wide range of anatomic locations has been described; these locations include the brachial plexus (11)(12)(13)(14), lumbosacral plexus (15)(16)(17), and sites along the upper (6,18,19) and lower (7,16,(20)(21)(22) extremities. Furthermore, surgical techniques for the repair of peripheral nerve injury have improved (23), and the use of postsurgical nerve imaging has been reported (24).…”

Ontology-based Image Navigation: Exploring 3.0-T MR Neurography of the Brachial Plexus Using AIM and RadLex