Chelsea M Lohman1, Kerry K Gilbert, Stéphane Sobczak, Jean-Michel Brismée, C Roger James, Miles Day, Michael P Smith, LesLee Taylor, Pierre-Michel Dugailly, Timothy Pendergrass, Phillip J Sizer. 1. *Department of Interdisciplinary Health Sciences, Arizona School of Health Sciences, A.T. Still University, Mesa, AZ †Center for Rehabilitation Research and Department of Rehabilitation Sciences, School of Allied Health Sciences, Texas Tech University Health Sciences Center, Lubbock, TX ‡Laboratory of Anatomy, Biomechanics and Organogenesis (LABO), Universite Libre de Bruxelles, Bruxelles, Belgium §Department of Medical Education, Albany Medical College, Albany, NY; and ¶Research Unit in Osteopathy, Universite Libre de Bruxelles, Bruxelles, Belgium.
Abstract
STUDY DESIGN: A cross-sectional cadaveric examination of the mechanical effect of foraminal ligaments on cervical nerve root displacement and strain. OBJECTIVE: To determine the role of foraminal ligaments by examining differences in cervical nerve root displacement and strain during upper limb neural tension testing (ULNTT) before and after selective cutting of foraminal ligaments. SUMMARY OF BACKGROUND DATA: Although investigators have determined that lumbar spine foraminal ligaments limit displacement and strain of lumbosacral nerve roots, similar studies have not been conducted to prove that it is true for the cervical region. Because the size, shape, and orientation of cervical spine foraminal ligaments are similar to those in the lumbar spine, it is hypothesized that foraminal ligaments in the cervical spine will function in a similar fashion. METHODS: Radiolucent markers were implanted into cervical nerve roots C5-C8 of 9 unembalmed cadavers. Posteroanterior fluoroscopic images were captured at resting and upper limb neural tension testing positioning before and after selective cutting of foraminal ligaments. RESULTS: Selective cutting of foraminal ligaments resulted in significant increases in inferolateral displacement (average, 2.94 mm [ligaments intact]-3.87 mm [ligaments cut], P < 0.05) and strain (average, 9.33% [ligaments intact]-16.31% [ligaments cut], P < 0.03) of cervical nerve roots C5-C8 during upper limb neural tension testing. CONCLUSION: Foraminal ligaments in the cervical spine limited cervical nerve root displacement and strain during upper limb neural tension testing. Foraminal ligaments seem to have a protective role, reducing displacement and strain to cervical nerve roots during tension events. LEVEL OF EVIDENCE: 2.
STUDY DESIGN: A cross-sectional cadaveric examination of the mechanical effect of foraminal ligaments on cervical nerve root displacement and strain. OBJECTIVE: To determine the role of foraminal ligaments by examining differences in cervical nerve root displacement and strain during upper limb neural tension testing (ULNTT) before and after selective cutting of foraminal ligaments. SUMMARY OF BACKGROUND DATA: Although investigators have determined that lumbar spine foraminal ligaments limit displacement and strain of lumbosacral nerve roots, similar studies have not been conducted to prove that it is true for the cervical region. Because the size, shape, and orientation of cervical spine foraminal ligaments are similar to those in the lumbar spine, it is hypothesized that foraminal ligaments in the cervical spine will function in a similar fashion. METHODS: Radiolucent markers were implanted into cervical nerve roots C5-C8 of 9 unembalmed cadavers. Posteroanterior fluoroscopic images were captured at resting and upper limb neural tension testing positioning before and after selective cutting of foraminal ligaments. RESULTS: Selective cutting of foraminal ligaments resulted in significant increases in inferolateral displacement (average, 2.94 mm [ligaments intact]-3.87 mm [ligaments cut], P < 0.05) and strain (average, 9.33% [ligaments intact]-16.31% [ligaments cut], P < 0.03) of cervical nerve roots C5-C8 during upper limb neural tension testing. CONCLUSION: Foraminal ligaments in the cervical spine limited cervical nerve root displacement and strain during upper limb neural tension testing. Foraminal ligaments seem to have a protective role, reducing displacement and strain to cervical nerve roots during tension events. LEVEL OF EVIDENCE: 2.
Authors: Gesine H Seeber; Marc P Wilhelm; Gunther Windisch; Hans-Joachim Appell Coriolano; Omer C Matthijs; Philip S Sizer Journal: Int J Sports Phys Ther Date: 2017-08
Authors: Susan Lilly; Gesine H Seeber; Michael P Smith; Janna M McGaugh; C Roger James; Jean-Michel Brismxsée; Phillip S Sizer Journal: Int J Sports Phys Ther Date: 2019-02
Authors: Andrew S Jack; Brooks R Osburn; Zane A Tymchak; Wyatt L Ramey; Rod J Oskouian; Robert A Hart; Jens R Chapman; Line G Jacques; R Shane Tubbs Journal: J Brachial Plex Peripher Nerve Inj Date: 2020-07-24