Ryan Chevalier
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View article: afids-data: Magnetic resonance imaging datasets with anatomical fiducials for quality control and registration
afids-data: Magnetic resonance imaging datasets with anatomical fiducials for quality control and registration Open
Curated anatomical landmarks placements for common neuroimaging templates and datasets.
View article: afids-data: Magnetic resonance imaging datasets with anatomical fiducials for quality control and registration
afids-data: Magnetic resonance imaging datasets with anatomical fiducials for quality control and registration Open
Curated anatomical landmarks placements for common neuroimaging templates and datasets.
View article: afids-data: Magnetic resonance imaging datasets with anatomical fiducials for quality control and registration
afids-data: Magnetic resonance imaging datasets with anatomical fiducials for quality control and registration Open
Curated anatomical landmarks placements for common neuroimaging templates and datasets.
View article: Magnetic resonance imaging datasets with anatomical fiducials for quality control and registration
Magnetic resonance imaging datasets with anatomical fiducials for quality control and registration Open
Tools available for reproducible, quantitative assessment of brain correspondence have been limited. We previously validated the anatomical fiducial (AFID) placement protocol for point-based assessment of image registration with millimetri…
View article: Application of the anatomical fiducials framework to a clinical dataset of patients with Parkinson’s disease
Application of the anatomical fiducials framework to a clinical dataset of patients with Parkinson’s disease Open
Establishing spatial correspondence between subject and template images is necessary in neuroimaging research and clinical applications such as brain mapping and stereotactic neurosurgery. Our anatomical fiducial (AFID) framework has recen…
View article: Application of the anatomical fiducials framework to a clinical dataset of patients with Parkinson’s disease
Application of the anatomical fiducials framework to a clinical dataset of patients with Parkinson’s disease Open
Establishing spatial correspondence between subject and template images is necessary in neuroimaging research and clinical applications such as brain mapping and stereotactic neurosurgery. Our anatomical fiducials (AFIDs) framework has rec…
View article: Using genetic buffering relationships identified in fission yeast to reveal susceptibilities in cells lacking hamartin or tuberin function
Using genetic buffering relationships identified in fission yeast to reveal susceptibilities in cells lacking hamartin or tuberin function Open
Tuberous sclerosis complex is an autosomal dominant disorder characterized by benign tumors arising from the abnormal activation of mTOR signaling in cells lacking TSC1 (hamartin) or TSC2 (tuberin) activity. To expand the genetic framework…