diffusion mri in traumatic brain injury: software tools & reference material
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Diffusion MRI in Traumatic Brain Injury: Software Tools & Reference Material. National Institute of Neurological Diseases and Stroke, National Institutes of Health. Workshop on Diffusion MRI in Traumatic Brain Injury: Software Tools and International Shared Data Repository - PowerPoint PPT PresentationTRANSCRIPT
Diffusion MRI in Traumatic Brain Injury: Software Tools & Reference Material
Workshop on Diffusion MRI in Traumatic Brain Injury: Software Tools and International Shared Data Repository
Heidelberg, Germany, June 26 2013
National Institute of Neurological Diseases and Stroke, National Institutes of Health
DTI Protocol• Number of diffusion gradient directions = 41• Number of b = 0 images: 5• b value = 1000• TR/TE = 8773 ms/52 ms• Flip angle = 90o
• FOV = 250 x 250 x 146 mm3
• Matrix size = 96 x 96• Slice number = 56• Slice gap = 0• Resolution = 2.6 x 2.6 x 2.6 mm3
• Sense factor = 2
• Total scan time = 7 min
High resolution 3D T1 weighted anatomical image
• FOV = 256 x 256 x 146 mm3
• Resolution = 1 x 1 x 1 mm3
• TR/TE = 10 ms/4.6 ms• Flip angle = 8o
• Total scan time = 5 min
1. Application fields2. Artifacts and data acquisition techniques3. Quality control and preprocessing4. Processing and visualization5. Quantitative analysis6. Multimodal studies7. Results interpretation
1-14
Anterior corona radiata L
Genu of corpus callosum
Anterior limb of internal capsule L
External capsule L
Posterior limb of internal capsule L
Retrolenticular part of internal capsule L
Superior longitudinal fasciculus L
Posterior thalamic radiation (include optic radiation) L
Splenium of corpus callosumCingulum (cingulate gyrus) L
index label FA Value1 Middle cerebellar peduncle 0.3484972 Pontine crossing tract (a part of MCP) 0.4148593 Genu of corpus callosum 0.4047614 Body of corpus callosum 0.3257665 Splenium of corpus callosum 0.521996 Fornix (column and body of fornix) 0.3731177 Corticospinal tract R 0.4893828 Corticospinal tract L 0.4676889 Medial lemniscus R 0.534683
10 Medial lemniscus L 0.54494211 Inferior cerebellar peduncle R 0.27776812 Inferior cerebellar peduncle L 0.28931713 Superior cerebellar peduncle R 0.3312214 Superior cerebellar peduncle L 0.35168415 Cerebral peduncle R 0.46803916 Cerebral peduncle L 0.45512717 Anterior limb of internal capsule R 0.44092718 Anterior limb of internal capsule L 0.4095319 Posterior limb of internal capsule R 0.47716520 Posterior limb of internal capsule L 0.48700321 Retrolenticular part of internal capsule R 0.49214922 Retrolenticular part of internal capsule L 0.50279423 Anterior corona radiata R 0.33659624 Anterior corona radiata L 0.37724125 Superior corona radiata R 0.4458926 Superior corona radiata L 0.39912227 Posterior corona radiata R 0.39384628 Posterior corona radiata L 0.385009
29 Posterior thalamic radiation (include optic radiation) R 0.462773
30 Posterior thalamic radiation (include optic radiation) L 0.492928
Index Label FA Value
31 Sagittal stratum (include inferior longitidinal fasciculus and inferior fronto-occipital fasciculus) R 0.447041
32 Sagittal stratum (include inferior longitidinal fasciculus and inferior fronto-occipital fasciculus) L 0.440027
33 External capsule R 0.32200134 External capsule L 0.33393235 Cingulum (cingulate gyrus) R 0.17729736 Cingulum (cingulate gyrus) L 0.15475437 Cingulum (hippocampus) R 0.22706438 Cingulum (hippocampus) L 0.226276
39 Fornix (cres) / Stria terminalis (can not be resolved with current resolution) R 0.45711
40 Fornix (cres) / Stria terminalis (can not be resolved with current resolution) L 0.432283
41 Superior longitudinal fasciculus R 0.34634942 Superior longitudinal fasciculus L 0.346567
43 Superior fronto-occipital fasciculus (could be a part of anterior internal capsule) R 0.333865
44 Superior fronto-occipital fasciculus (could be a part of anterior internal capsule) L 0.300206
45 Uncinate fasciculus R 0.43375146 Uncinate fasciculus L 0.46169847 Tapetum R 0.58898148 Tapetum L 0.610701
Automated FA measurements
The American College of Radiology (ACR) continues to support innovation along a variety of fronts. Recently, the ACR, in partnership with Siemens Corporate Research and Technology (SCR), has been working with the DOD’s Telemedicine and Advanced Technology Research Center on a project to explore unique solutions to diagnose Traumatic Brain Injury (TBI).
Globus Online and CI• Computation Institute
– Multi-discipline research institute – Aims to advance science through
innovative computational approaches
• Globus Online– Hosted Software-as-a-Service for
researchers– Provides high performance data
transfer, user and credential management, group management.
– Web, REST service, and CLI
Diffusion MRI in Traumatic Brain Injury: Software Tools & Reference Material
Workshop on Diffusion MRI in Traumatic Brain Injury: Software Tools and International Shared Data Repository
Heidelberg, Germany, June 26 2013