PURPOSE: To investigate, by means of MR phase imaging, the effects of compression on the velocity of craniocaudal motion in the spinal cord. MATERIAL AND METHODS: Spin-echo pulse sequences with velocity encoding gradients were used to examine 12 patients with cervical spondylosis and 6 normal volunteers. Oblique-axial phase images at 3 levels (cranial, middle and caudal), were obtained with prospective electrocardiogram gating. The middle level was set at the site where the spinal cord was most severely compressed, and the cranial and caudal sections were set where it was not compressed. Time-velocity curves were generated at these 3 levels and focal velocity change was correlated with motor function in the lower extremities. RESULTS AND CONCLUSION: The cord showed a higher motion velocity at the compression level than at noncompression levels. This paradoxical increase in velocity was observed in 7 out of 8 patients whose lower extremity motor function was impaired. Four patients with normal lower extremity motor function did not demonstrate this increase in velocity. An increase in motion velocity was therefore found to correlate with impaired lower extremity motor function.
PURPOSE: To investigate, by means of MR phase imaging, the effects of compression on the velocity of craniocaudal motion in the spinal cord. MATERIAL AND METHODS:Spin-echo pulse sequences with velocity encoding gradients were used to examine 12 patients with cervical spondylosis and 6 normal volunteers. Oblique-axial phase images at 3 levels (cranial, middle and caudal), were obtained with prospective electrocardiogram gating. The middle level was set at the site where the spinal cord was most severely compressed, and the cranial and caudal sections were set where it was not compressed. Time-velocity curves were generated at these 3 levels and focal velocity change was correlated with motor function in the lower extremities. RESULTS AND CONCLUSION: The cord showed a higher motion velocity at the compression level than at noncompression levels. This paradoxical increase in velocity was observed in 7 out of 8 patients whose lower extremity motor function was impaired. Four patients with normal lower extremity motor function did not demonstrate this increase in velocity. An increase in motion velocity was therefore found to correlate with impaired lower extremity motor function.
Authors: M Hupp; N Pfender; K Vallotton; J Rosner; S Friedl; C M Zipser; R Sutter; M Klarhöfer; J M Spirig; M Betz; M Schubert; P Freund; M Farshad; A Curt Journal: AJNR Am J Neuroradiol Date: 2021-02-04 Impact factor: 3.825
Authors: M Hupp; K Vallotton; C Brockmann; S Huwyler; J Rosner; R Sutter; M Klarhoefer; P Freund; M Farshad; A Curt Journal: Sci Rep Date: 2019-05-15 Impact factor: 4.379
Authors: Murat Alp Oztek; Nina A Mayr; Mahmud Mossa-Basha; Matthew Nyflot; Patricia A Sponseller; Wei Wu; Christoph P Hofstetter; Rajiv Saigal; Stephen R Bowen; Daniel S Hippe; William T C Yuh; Robert D Stewart; Simon S Lo Journal: Neurosurgery Date: 2020-11-16 Impact factor: 4.654
Authors: Carl M Zipser; Michael G Fehlings; Konstantinos Margetis; Armin Curt; Michael Betz; Iwan Sadler; Lindsay Tetreault; Benjamin M Davies Journal: Spine (Phila Pa 1976) Date: 2022-06-29 Impact factor: 3.241