2011
DOI: 10.1016/j.neuroimage.2010.12.010
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The average pathlength map: A diffusion MRI tractography-derived index for studying brain pathology

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Cited by 58 publications
(45 citation statements)
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“…TWI is a recently developed DWI technique that uses properties of tractography streamlines, such as density, curvature, and length, to provide additional measures that may be sensitive to white matter pathology 55, 56. TWI measures have previously been shown to be altered in preclinical mTBI23, 24 and repeated mTBI25 models that involved the use of anesthetic and/or craniotomy.…”
Section: Discussionmentioning
confidence: 99%
“…TWI is a recently developed DWI technique that uses properties of tractography streamlines, such as density, curvature, and length, to provide additional measures that may be sensitive to white matter pathology 55, 56. TWI measures have previously been shown to be altered in preclinical mTBI23, 24 and repeated mTBI25 models that involved the use of anesthetic and/or craniotomy.…”
Section: Discussionmentioning
confidence: 99%
“…14 Given these limitations, it could be argued that the power of super-resolution TDI is not as a quantitative tool but rather in the high anatomic contrast and detail it provides (as illustrated by the results from Hoch et al, 1 and other related studies 3,4,15,16 ). Quantification is therefore better performed on the basis of, for example, other complementary track-based parameters, such as track-weighted apparent diffusion coefficient (TW-ADC), trackweighted fractional anisotropy (TW-FA), and track-weighted fiber-orientation distribution (TW-FOD), 12,17 or even on the basis of other properties of the streamlines themselves (such as their lengths in the average pathlength map [APM] method) 13 or on measures of the voxelwise fiber-orientation distribution (such as those related to the apparent fiber density [AFD] method). 14,18 While these maps have reduced anatomic contrast relative to that seen in TDI maps, they have more reliable quantitative properties 12,13 and are therefore more suitable for quantitative analysis in clinical applications.…”
Section: -14mentioning
confidence: 99%
“…In another interesting use of tractography to infer connectivity changes, Pannek et al (2011) compared average path length maps in normal and severe TBI cases. The present work builds on our own previous work on WM connectivity importance maps, which demonstrated the use of network-centric methods applied to WM lesion maps (Kuceyeski et al, 2011), as well as another recent work that modeled disease propagation as a diffusion process on the normal brain connectivity network (Raj et al, 2012).…”
Section: Previous Workmentioning
confidence: 99%