STUDY DESIGN: Normal cervical sagittal length patterns were measured by magnetic resonance imaging (MRI). PURPOSE: The aim of this study was to evaluate the relationship of sagittal length patterns between the cervical cord and the cervical canal in flexion-extension kinematics. OVERVIEW OF LITERATURE: Cervical dynamic factors sometimes cause a cervical spondylotic myelopathy in elderly subjects and an overstretching myelopathy in juvenile subjects. Previous studies showed the length changing of the cervical cord in flexion and extension. However, there is no detailed literature about the relationship between cervical vertebral motion and cord distortion yet. METHODS: Sixty-two normal subjects (28 male and 34 female, 42.1±8.5 years old) without neck motion disturbances and abnormalities on cervical X-ray and MRI were enrolled in this study. RESULTS: The cervical cord length was significantly longer in flexion and significantly shorter in extension in all cervical cord sagittal lines. The cervical canal length pattern was also the same as the cervical cord. The elongation of the cervical cord and canal was the largest at the site of the posterior cervical canal and the shortest at the anterior canal site. The positions of the cerebellar tonsils were verified at each neck position. CONCLUSIONS: The posterior elements of the cervical canal were most affected by neck motion. Movement directions of the upper cervical cord were verified among the various neck positions.
STUDY DESIGN: Normal cervical sagittal length patterns were measured by magnetic resonance imaging (MRI). PURPOSE: The aim of this study was to evaluate the relationship of sagittal length patterns between the cervical cord and the cervical canal in flexion-extension kinematics. OVERVIEW OF LITERATURE: Cervical dynamic factors sometimes cause a cervical spondylotic myelopathy in elderly subjects and an overstretching myelopathy in juvenile subjects. Previous studies showed the length changing of the cervical cord in flexion and extension. However, there is no detailed literature about the relationship between cervical vertebral motion and cord distortion yet. METHODS: Sixty-two normal subjects (28 male and 34 female, 42.1±8.5 years old) without neck motion disturbances and abnormalities on cervical X-ray and MRI were enrolled in this study. RESULTS: The cervical cord length was significantly longer in flexion and significantly shorter in extension in all cervical cord sagittal lines. The cervical canal length pattern was also the same as the cervical cord. The elongation of the cervical cord and canal was the largest at the site of the posterior cervical canal and the shortest at the anterior canal site. The positions of the cerebellar tonsils were verified at each neck position. CONCLUSIONS: The posterior elements of the cervical canal were most affected by neck motion. Movement directions of the upper cervical cord were verified among the various neck positions.
Entities:
Keywords:
Biomechanics; Cervical spine; Magnetic resonance imaging
Authors: Yasuyuki Kuwazawa; Malcolm H Pope; Waseem Bashir; Keisuke Takahashi; Francis W Smith Journal: Spine (Phila Pa 1976) Date: 2006-08-01 Impact factor: 3.468
Authors: Benjamin M Davies; Oliver Mowforth; Aref-Ali Gharooni; Lindsay Tetreault; Aria Nouri; Rana S Dhillon; Josef Bednarik; Allan R Martin; Adam Young; Hitoshi Takahashi; Timothy F Boerger; Virginia Fj Newcombe; Carl Moritz Zipser; Patrick Freund; Paul Aarne Koljonen; Ricardo Rodrigues-Pinto; Vafa Rahimi-Movaghar; Jefferson R Wilson; Shekar N Kurpad; Michael G Fehlings; Brian K Kwon; James S Harrop; James D Guest; Armin Curt; Mark R N Kotter Journal: Global Spine J Date: 2022-02