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Introduction

Introduction. Diffusion Tensor Imaging (DTI) Effective technique in magnetic resonance imaging (MRI) for measuring anisotropic (directional) water diffusion in-vivo Can reveal useful information about tissue microstructure, particularly highly-anisotropic structures, e.g. white matter.

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Introduction

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  1. Introduction • Diffusion Tensor Imaging (DTI) • Effective technique in magnetic resonance imaging (MRI) for measuring anisotropic (directional) water diffusion in-vivo • Can reveal useful information about tissue microstructure, particularly highly-anisotropic structures, e.g. white matter

  2. DTI of the Spinal Cord • Spinal cord (SC) DTI is an expanding area in MRI research, including evaluation of acute and chronic injury and degenerative conditions • The SC lends itself well to DTI since it is an inherently anisotropic structure largely comprising long, myelinated axons • DTI of the cervical spinal cord has shown good correlation between DTI indices and clinical examination results

  3. What do we measure?? • Fractional Anisotropy (FA) • Tells you how anisotropic (in a straight line) diffusion is

  4. Diffusion in white matter • Myelinated axons in white matter restrict the direction of water diffusion • Water molecules effectively “probe” the microstructure – Le Bihan, et al. 2001

  5. Diffusion in White Matter Intact Axons

  6. Diffusion in White Matter Acute Injury WallerianDegneration

  7. Diffusion in White Matter Loss of Anisotropic Diffusion

  8. Images

  9. Images

  10. Images Injury Level TD Subject SCI Subject

  11. Thoracic Spine DTI Preliminary Results

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