Optimized cervical spinal cord perfusion MRI after traumatic injury in the rat.
Briana P MeyerLydiane HirschlerSeongtaek LeeShekar N KurpadJan M WarnkingEmmanuel L BarbierMatthew D BuddePublished in: Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism (2021)
Despite the potential to guide clinical management of spinal cord injury and disease, noninvasive methods of monitoring perfusion status of the spinal cord clinically remain an unmet need. In this study, we optimized pseudo-continuous arterial spin labeling (pCASL) for the rodent cervical spinal cord and demonstrate its utility in identifying perfusion deficits in an acute contusion injury model. High-resolution perfusion sagittal images with reduced imaging artifacts were obtained with optimized background suppression and imaging readout. Following moderate contusion injury, perfusion was clearly and reliably decreased at the site of injury. Implementation of time-encoded pCASL confirmed injury site perfusion deficits with blood flow measurements corrected for variability in arterial transit times. The noninvasive protocol of pCASL in the spinal cord can be utilized in future applications to examine perfusion changes after therapeutic interventions in the rat and translation to patients may offer critical implications for patient management.
Keyphrases
- spinal cord
- spinal cord injury
- contrast enhanced
- high resolution
- neuropathic pain
- blood flow
- magnetic resonance imaging
- randomized controlled trial
- healthcare
- computed tomography
- ejection fraction
- primary care
- physical activity
- oxidative stress
- magnetic resonance
- prognostic factors
- intensive care unit
- deep learning
- end stage renal disease
- hepatitis b virus
- fluorescence imaging
- climate change
- drug induced
- tandem mass spectrometry