q-Space high b value diffusion MRI of hemi-crush in rat spinal cord: evidence for spontaneous regeneration

Abstract 

The development of the damage following hemi-crush trauma in rat spinal cord was studied ex vivo using high b value (b_max = 1 × 10⁷ s cm⁻²) q-space diffusion weighted MRI (DWI) at five days, ten days and six weeks post-trauma. Rat spinal cord trauma, produced by hemi-crush of 15s and 60s duration, was studied. The water signal decay in these diffusion experiments was found to be non mono-exponential and was analyzed using the q-space approach. The q-space MRI parameters were compared with T1 and T2 MR images, behavioral tests and histopathological osmium staining. A very good anatomical correlation was found between the q-space MRI parameters and the osmium staining. Interestingly, we found that in the 15s hemi-crush model significant recovery was observed in both the q-space MR images and the osmium staining six weeks post-trauma. However, in the 60s hemi-crush trauma model very little recovery was observed. These results paralleled those obtained from behavioral tests demonstrating that partial spontaneous recovery seems to occur in the 15s hemi-crush spinal cord model, which should be taken in consideration when using it to evaluate new therapies.

Keywords:  q-Space diffusion, Spinal cord, Trauma, Hemi-crush, MRI, DWI