Cost function masking during normalization of brains with focal lesions: Still a necessity?

Andersen, Sarah; Rapcsak, Steven Z.; Beeson, Pélagie M.

doi:10.1016/j.neuroimage.2010.06.003

Cited by 196 publications

(165 citation statements)

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“…Unified segmentation (Ashburner and Friston, 2005) with medium regularization and CFM was applied to T1 images, segmenting them precisely into GM, WM, and CSF probability maps before normalizing them into the Montreal Neurological Institute (MNI) space. This technique has been widely used with stroke patients (Crinion et al, 2007;Andersen et al, 2010;Ripollés et al, 2012). To preserve the original signal strength during the normalization, GM and WM segmented images were modulated.…”

Section: Methodsmentioning

confidence: 99%

Neural Basis of Acquired Amusia and Its Recovery after Stroke

et al. 2016

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Although acquired amusia is a relatively common disorder after stroke, its precise neuroanatomical basis is still unknown. To evaluate which brain regions form the neural substrate for acquired amusia and its recovery, we performed a voxel-based lesion-symptom mapping (VLSM) and morphometry (VBM) study with 77 human stroke subjects. Structural MRIs were acquired at acute and 6 month poststroke stages. Amusia and aphasia were behaviorally assessed at acute and 3 month poststroke stages using the Scale and Rhythm subtests of the Montreal Battery of Evaluation of Amusia (MBEA) and language tests. VLSM analyses indicated that amusia was associated with a lesion area comprising the superior temporal gyrus, Heschl's gyrus, insula, and striatum in the right hemisphere, clearly different from the lesion pattern associated with aphasia. Parametric analyses of MBEA Pitch and Rhythm scores showed extensive lesion overlap in the right striatum, as well as in the right Heschl's gyrus and superior temporal gyrus. Lesions associated with Rhythm scores extended more superiorly and posterolaterally. VBM analysis of volume changes from the acute to the 6 month stage showed a clear decrease in gray matter volume in the right superior and middle temporal gyri in nonrecovered amusic patients compared with nonamusic patients. This increased atrophy was more evident in anterior temporal areas in rhythm amusia and in posterior temporal and temporoparietal areas in pitch amusia. Overall, the results implicate right temporal and subcortical regions as the crucial neural substrate for acquired amusia and highlight the importance of different temporal lobe regions for the recovery of amusia after stroke.

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Section: Methodsmentioning

confidence: 99%

Neural Basis of Acquired Amusia and Its Recovery after Stroke

et al. 2016

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“…All subjects were then re-registered onto the template images, using constrained cost-function masking (CCFM) of the lesions, which were manually traced (DSG) for each case. CCFM has been shown to substantially improve the mapping of lesioned brain data (Andersen et al 2010), particularly when used with ANTS-SyN (Ripolles et al 2012). Regional and voxelwise morphometric analyses were conducted on the 12-year dataset to facilitate comparison with the DWI analyses.…”

Section: Study-specific Template Constructionmentioning

confidence: 99%

Neural Reorganization Due to Neonatal Amygdala Lesions in the Rhesus Monkey: Changes in Morphology and Network Structure

et al. 2017

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It is generally believed that neural damage that occurs early in development is associated with greater adaptive capacity relative to similar damage in an older individual. However, few studies have surveyed whole brain changes following early focal damage. In this report, we employed multimodal magnetic resonance imaging analyses of adult rhesus macaque monkeys who had previously undergone bilateral, neurotoxic lesions of the amygdala at about 2 weeks of age. A deformation-based morphometric approach demonstrated reduction of the volumes of the anterior temporal lobe, anterior commissure, basal ganglia, and pulvinar in animals with early amygdala lesions compared to controls. In contrast, animals with early amygdala lesions had an enlarged cingulate cortex, medial superior frontal gyrus, and medial parietal cortex. Diffusion-weighted imaging tractography and network analysis were also used to compare connectivity patterns and higher-level measures of communication across the brain. Using the communicability metric, which integrates direct and indirect paths between regions, lesioned animals showed extensive degradation of network integrity in the temporal and orbitofrontal cortices. This work demonstrates both degenerative as well as progressive large-scale neural changes following long-term recovery from neonatal focal brain damage.

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“…Because the presence of the lesion can induce distortions during the normalization process, we used cost function masking (Brett, Leff, Rorden, & Ashburner, 2001;Andersen, Rapcsak, & Beeson, 2010). In a first step, individual resection cavities were manually drawn using MRIcron software (http://www.mccauslandcenter.sc.edu/ mricro/mricron).…”

Section: Brain Imaging and Lesion Analysismentioning

confidence: 99%