Abstract WMP40: Intra-arterial Mesenchymal Stem Cells in a Large Animal Endovascular Canine Stroke Model: Findings on Serial Diffusion Tensor Imaging

Background: Cell therapy is promising in rodent pre-clinical studies. Confirmation of efficacy of this novel approach in large animals is recommended. Diffusion Tensor Imaging (DTI) assesses white matter microstructure in the CNS using Fractional anisotropy (FA) and apparent diffusion coefficient (ADC). Diffusion Tensor Tractography (DTT) DTT produces a 3D representation of the white matter tracts (WMT) in which data are displayed on a colored map that helps to identify the integrity of the tracts selected under the region of Interest (ROI). The purpose of this study was to use DTI-DTT analysis, and correlate it with the neuro-assessment of dogs over one month after ipsilateral intra-arterial (IA) Mesenchymal Stem Cell (MSCs) 48 hours after a brain-stroke was reversible middle cerebral artery occlusion (rMCAo) Methods: Mongrel Hounds (n=5), aged 12-36 months, were included in this pilot study. rMCAo was induced via endovascular approach using a detachable helical ultra-coil over 35-80 min. MSCs (1-20 millions) were infused intra-arterially 48hrs post stroke in the ipsilesional cervical internal carotid. DTI-T images were obtained at 48h post rMCAo pre-IA cell delivery, 15 & 30 days. DTT was also generated. FA-ADC values of the right & left hemisphere and CST were determined. Weekly neuro-evaluations were performed using our canine neuro-scale Results: Our data suggest a correlation between the neurological recovery and improvement in the FA-ADC values (see figure). An increase in the caliber of corticospinal tracts ipsilateral to the stroke by day 30 compared to pre-injection was observed on the DTT reconstruction for two canines that showed neurological improvement ( see figure) Conclusions: Serial DTI-DTT imaging after IA cell therapy shows improvement in white matter tracts correlating with neurologic recovery. This supports further development of DTI-DTT biomarkers to measure neurologic recovery in experimental models as well as early clinical trials. ![][1] [1]: /embed/graphic-1.gif