Algorithm:Utah - Revision history

JChris.FillionR: Fix MediaWiki table formatting issue discovered while converting to GitHub Flavored Markdown using pandoc (via https://github.com/outofcontrol/mediawiki-to-gfm)

2023-04-11T06:22:57Z

Fix MediaWiki table formatting issue discovered while converting to GitHub Flavored Markdown using pandoc (via https://github.com/outofcontrol/mediawiki-to-gfm)

Manasi: /* Mixed-Effects Shape Models for Longitudinal Analysis */

2012-11-26T17:53:14Z

Mixed-Effects Shape Models for Longitudinal Analysis

Manasi: /* Geometric Correspondence for Nonregular Surfaces */

2012-11-26T17:52:56Z

Geometric Correspondence for Nonregular Surfaces

Manasi: /* Geometric Correspondence for Nonregular Surfaces */

2012-11-26T17:51:43Z

Geometric Correspondence for Nonregular Surfaces

Manasi: /* Mixed-Effects Shape Models for Longitudinal Analysis */

2012-11-26T17:50:57Z

Mixed-Effects Shape Models for Longitudinal Analysis

Manasi: /* Understanding Short Bone Phenotype in Multiple Osteochondromas */

2012-11-16T20:51:42Z

Understanding Short Bone Phenotype in Multiple Osteochondromas

Manasi: /* Understanding Short Bone Phenotype in Multiple Osteochondromas */

2012-11-16T20:49:15Z

Understanding Short Bone Phenotype in Multiple Osteochondromas

Manasi: /* Statistical Shape Analysis of Cam-FAI */

2012-11-16T20:48:47Z

Statistical Shape Analysis of Cam-FAI

Manasi: /* Statistical Shape Analysis of Cam-FAI */

2012-11-16T20:48:30Z

Statistical Shape Analysis of Cam-FAI

Manasi: /* Geometric Correspondence for Nonregular Surfaces */

2012-11-16T20:47:45Z

Geometric Correspondence for Nonregular Surfaces

← Older revision		Revision as of 06:22, 11 April 2023
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@@ Line 115: / Line 115: @@
 Longitudinal shape changes in anatomy are characterized using a new method that combines point correspondences across shapes with the statistical modeling of individual and population trends via the linear mixed-effects model. This method helps us examine and contrast population trends with individual growth trajectories.
-<font color="red">'''New: '''</font>  M Datar, P Muralidharan, A Kumar, S Gouttard, J Piven, G Gerig, RT Whitaker, PT Fletcher, [http://www.cs.utah.edu/~manasi/pubs/MixedEffectsSTIA2012.pdf|Mixed-Effects Shape Models for Estimating Longitudinal Changes in Anatomy], STIA 2012
+<font color="red">'''New: '''</font>  M Datar, P Muralidharan, A Kumar, S Gouttard, J Piven, G Gerig, RT Whitaker, PT Fletcher,Mixed-Effects Shape Models for Estimating Longitudinal Changes in Anatomy, STIA 2012
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@@ Line 104: / Line 104: @@
 To resolve the challenges posed by highly nonregular surfaces, we have proposed an efficient method which incorporates Geodesic distances and an entropy based on surface normals to improve correspondences.
-M Datar, Y Gur, B Paniagua, M Styner, R Whitaker, [http://www.cs.utah.edu/~manasi/pubs/ShapeWorksMICCAI2011.pdf|Geometric Correspondence for Ensembles of Nonregular Shapes], MICCAI 2011.
+M Datar, Y Gur, B Paniagua, M Styner, R Whitaker,Geometric Correspondence for Ensembles of Nonregular Shapes, MICCAI 2011.
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@@ Line 104: / Line 104: @@
 To resolve the challenges posed by highly nonregular surfaces, we have proposed an efficient method which incorporates Geodesic distances and an entropy based on surface normals to improve correspondences.
-M Datar, Y Gur, B Paniagua, M Styner, R Whitaker, Geometric Correspondence for Ensembles of Nonregular Shapes, MICCAI 2011.
+M Datar, Y Gur, B Paniagua, M Styner, R Whitaker, [http://www.cs.utah.edu/~manasi/pubs/ShapeWorksMICCAI2011.pdf|Geometric Correspondence for Ensembles of Nonregular Shapes], MICCAI 2011.
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@@ Line 115: / Line 115: @@
 Longitudinal shape changes in anatomy are characterized using a new method that combines point correspondences across shapes with the statistical modeling of individual and population trends via the linear mixed-effects model. This method helps us examine and contrast population trends with individual growth trajectories.
-<font color="red">'''New: '''</font>  M Datar, P Muralidharan, A Kumar, S Gouttard, J Piven, G Gerig, RT Whitaker, PT Fletcher, Mixed-Effects Shape Models for Estimating Longitudinal Changes in Anatomy, STIA 2012
+<font color="red">'''New: '''</font>  M Datar, P Muralidharan, A Kumar, S Gouttard, J Piven, G Gerig, RT Whitaker, PT Fletcher, [http://www.cs.utah.edu/~manasi/pubs/MixedEffectsSTIA2012.pdf|Mixed-Effects Shape Models for Estimating Longitudinal Changes in Anatomy], STIA 2012
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@@ Line 137: / Line 137: @@
 Novel statistical methods were developed to study the 'steal phenomenon' caused by multiple osteochondromas in mouse models. Bone lengths and volumes were compared. Metaphyseal volume deviations from normal, as a measure of osteochondroma volumetric growth, were correlated with length deviations.
-<font color="red">New:</font>  KB Jones, M Datar, S Ravichandran, H Jin, E Jurrus, RT Whitaker, MR Capecchi, Toward an Understanding of the Short Bone Phenotype Associated with Multiple Osteochondromas, JOR 2012 (to appear)
+<font color="red">'''New: '''</font>  KB Jones, M Datar, S Ravichandran, H Jin, E Jurrus, RT Whitaker, MR Capecchi, Toward an Understanding of the Short Bone Phenotype Associated with Multiple Osteochondromas, JOR 2012 (to appear)
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@@ Line 126: / Line 126: @@
 Cam femoroacetabular impingement (FAI) is characterized by a malformed femoral head that may lead to early hip osteoarthritis. Radiographic measurements are used to diagnose cam FAI and often assume the femur shape to be spherical. Statistical shape modeling (SSM) can be used to compare complex 3D morphology without the need to assume ideal geometry and quantify morphologic differences between control and FAI femurs.
-<font color="red">'''New: '''</font> MD Harris, M Datar, E Jurrus, CL Peters, RT Whitaker, AE Anderson, [http://www.cs.utah.edu/~manasi/pubs/CM165P.pdf|Statistical Shape Modeling of CAM-type Femoroacetabular Impingement, CMBBE 2012
+<font color="red">'''New: '''</font> MD Harris, M Datar, E Jurrus, CL Peters, RT Whitaker, AE Anderson, [http://www.cs.utah.edu/~manasi/pubs/CM165P.pdf|Statistical Shape Modeling of CAM-type Femoroacetabular Impingement], CMBBE 2012
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