Spinal cord perfusion MR imaging implicates both ischemia and hypoxia in the pathogenesis of cervical spondylosis

Abstract Objectives Although a number of studies have implicated ischemia and hypoxia in the pathogenesis of cervical spondylosis (CS), quantification remains difficult and the role of ischemia and hypoxia on disease progression and disease severity in human CS remains largely unknown. Therefore, the objective of this study was to assess spinal cord perfusion and oxygenation in human CS and examine the relationship between perfusion, degree of spinal cord compression, and neurological status. Methods Twenty-two patients with cervical spondylosis with or without myelopathy received a dynamic susceptibility contrast (DSC) perfusion MRI exam consisting of a novel spin-and-gradient echo echoplanar (SAGE-EPI) acquisition before, during, and following gadolinium-based contrast injection. Estimation of relative spinal cord blood volume (rSCBV), the reversible relaxation rate ( R 2 ’ ), and relative oxygen extraction fraction (rOEF=R 2 ’/rSCBV) was performed at the site of compression and compared with anterior-posterior spinal cord diameter and mJOA, a measure of neurological impairment. Results: rSCBV was linearly correlated with both anterior-posterior cord diameter ( R 2 =0.4667, P=0.0005 ) and mJOA ( R 2 =0.2274, P=0.0248 ). R 2 ’ was linearly correlated with mJOA ( R 2 =0.3998, P=0.0016 ) but not cord diameter ( R 2 =0.055; P=0.2950 ). Also, rOEF was correlated with both cord diameter ( R 2 = 0.3440, P=0.0041 ) and mJOA ( R 2 =0.4699, P=0.0004 ). Conclusions Results support the hypothesis that spinal cord compression results in ischemia and hypoxia, and the degree of ischemia and hypoxia is proportional to the degree of neurological impairment.