Combined Neurophysiologic and Neuroimaging Approach to Reveal the Structure-Function Paradox in Cervical Myelopathy.
-
Correction
-
Source
-
Cite
-
Save
15; N=13). 71% of individuals presented with structural damage within spinal nociceptive pathways on MRI. Yet, 50% of these individuals presented with complete functional sparing (i.e., normal contact heat-, cold-, and pinprick- evoked potentials). The extent of structural damage within spinal nociceptive pathways was neither associated with functional integrity of thermal (heat: p=0.57; cold: p=0.49) and mechano-nociceptive pathways (p=0.83) nor with the clinical somatosensory phenotype (heat: p=0.16; cold: p=0.37; mechanical: p=0.73). The amount of structural damage to the spinothalamic tract did not correlate with spinothalamic conduction velocity (p>0.05; rho=-0.11). CONCLUSIONS Our findings provide neurophysiological evidence to substantiate that structural damage in the spinal cord does not equate to functional somatosensory deficits. This study recognizes the pronounced structure-function paradox in cervical myelopathies and underlines the inevitable need for a multi-modal phenotyping approach to reveal the eloquence of lesions within somatosensory pathways., Acemap">