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http://www.chimpanzeebrain.org/
Collection and distribution of chimpanzee neuroimaging data and postmortem brain tissue. Portal to access chimpanzee brain atlas tools, data repository, bibliography of publications, educational information, and links to other chimpanzee brain resources and datasets on the Internet. Serves as repository for in vivo structural MRI scans of chimpanzee brains, in vivo and postmortem diffusion tensor images (DTI), as well as postmortem fixed and frozen brain specimens.
Proper citation: National Chimpanzee Brain Resource (RRID:SCR_019183) Copy
Open source software package of Python modules for neuroscience, primarily focused on functional Magnetic Resonance Imaging (fMRI) analysis. Used for analyzing neuroimaging data.
Proper citation: Brain Imaging Analysis Kit (RRID:SCR_014824) Copy
http://caprica.genetics.kcl.ac.uk/BRAINEAC/
Database for the UK Brain Expression Consortium (UKBEC) dataset that comprises of brains from individuals free of neurodegenerative disorders. The aim of Braineac is to release to the scientific community a valid instrument to investigate the genes and SNPs associated with neurological disorders.
Proper citation: Braineac (RRID:SCR_015888) Copy
http://www.nitrc.org/projects/clsm/
Software package that performs several multivariate and mass univariate lesion symptom mapping analyses. Uses patient imaging lesion masks of brain insults and correlates them in multiple ways with patient behavioral and covariate data. Several permutation based SPMs are computed along with power, variance explained, and lesion coverage maps.
Proper citation: CLIMB Lesion Symptom Mapping Software (RRID:SCR_018298) Copy
http://www.uimcimes.es/contenidos/golink?p=1
Software toolbox for Statistical Parametric Mapping (SPM) to fit reference-region kinetic models (SRTM, SRTM2, Patlak Reference and Logan Reference Plot) are currently available in QModeling to dynamic PET studies. Used for the analysis of brain imaging data sequences.
Proper citation: QModeling (RRID:SCR_016358) Copy
http://brainarchitecture.org/allen-atlas-brain-toolbox
Software Matlab toolbox for quantitative analysis of digitized brain wide gene expression data from Allen Atlas of adult mouse brain.
Proper citation: Brain Gene Expression Analysis toolbox (RRID:SCR_017438) Copy
http://spot.colorado.edu/~dubin/talks/agnosia.html
Compilation terms with definitions that describe altered states that are associated with brain injury (e.g., trauma, stroke, tumor) or with developmental deficits. Although the list deals with primarily CNS-associated disorders, in some cases the term does not distinguish between a CNS cause or a peripheral or neuromuscular cause. Terms that are primarily psychiatric diagnoses (e.g., schizophrenia) are not included. AGNOSIA is a general term for a loss of ability to recognize objects, people, sounds, shapes, or smells; that is, the inability to attach appropriate meaning to objective sense-data. It usually is used when the primary sense organ involved is not impaired. APHASIA is a general term relating to a loss of language ability. APRAXIA is a general term for disorders of practice. These conditions are usually caused by brain injury due to trauma, stroke and/or tumor. Many of these terms have two synonymous forms that differ in whether the word starts with a- or with dys- such as alexia and dyslexia. Here the a- form is usually defined and the other is noted as syn:, except when the dys- form is the more common usage. (If you cannot find a term in one of these forms, look for it in the other. All other synonyms are defined in both forms.) Sources: These definitions are paraphrased from definitions in a large number or print and online dictionaries. Thus this list is not meant to be considered my own, but rather is a compilation. Note: When a word appears in italics, that indicates it is defined elsewhere in this list.
Proper citation: AGNOSIA APHASIA APRAXIA and Related Terms for Cognitive Behavioral and Neurological Disorders (RRID:SCR_005336) Copy
http://www.rad.upenn.edu/sbia/
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on June 2, 2023. A section of the Penn department of radiology, it is devoted to the development of computer-based image analysis methods and their application to clinical research studies. Image analysis methodologies include image registration, segmentation, population-based statistical analysis, biophysical modeling of anatomical deformations, and high-dimensional pattern classification. Clinical research studies spans a variety of clinical areas and organs, and they include brain diseases such as Alzheimer's disease and schizophrenia, evaluation of treatment effects in large clinical trials, diagnosis of cardiac diseases, and diagnosis prostate, breast and brain cancer. SBIA also performs small animal imaging research aiming to understand brain development in mouse models. It has multiple resources which can be accessed by researcher.
Proper citation: SBIA (RRID:SCR_013628) Copy
Center dedicated to understanding and treatment of neurological diseases by creating and using imaging methods to study human nervous system. Dedicated to research imaging of human brain. Brain structure is imaged using anatomical Magnetic Resonance Imaging (aMRI) while brain physiology is imaged using Positron Emission Tomography (PET), Magnetic Resonance Spectroscopy (MRS), functional MRI (fMRI) and magnetoencephalography (MEG). BIC maintains linkages with clinical, clinical research and basic research communities within Montreal Neurological Institute (MNI), McGill University and has collaborations across Quebec, Canada, USA and internationally.
Proper citation: McConnell Brain Imaging Center (RRID:SCR_008364) Copy
http://www.nitrc.org/projects/brainvox/
An interactive 3D rendering and neuroanatomical analysis package developed for analyzing focal brain lesions and functional brain imaging data (Damasio and Frank, 1991; Frank, Damasio and Grabowski, 1997).
Proper citation: Brainvox (RRID:SCR_009448) Copy
http://www.bic.mni.mcgill.ca/ServicesAtlases/Cyno
A reference atlas of cynomolgus macaque monkey magnetic resonance images. The template brain volume that offers a common stereotaxic reference frame to localize anatomical and functional information in an organized and reliable way for comparison across individual cynomolgus monkeys and studies. We have used MRI volumes from a group of 18 normal adult cynomulgus monkeys (Macaca fascicularis) to create the individual atlas. Thus, the atlas does not rely on the anatomy of a single subject, but instead depends on nonlinear normalization of numerous cynomolgus monkey brains mapped to an average template image that is faithful to the location of anatomical structures. Tools for registering a native MRI to the cynomolgus macaque atlas can be found in the Software section. Viewing the atlas and associated volumes online requires Java browser support. Additionally, you may download the atlas and associated files in your chosen format.
Proper citation: McConnell Brain Imaging Center MNI Cynomolgus Macaque Atlas (RRID:SCR_008793) Copy
http://www.bic.mni.mcgill.ca/ServicesAtlases/NIHPD-obj2
An unbiased magnetic resonance imaging template brain volume for pediatric data from birth to 4.5y age range. These volumes were created using 317 scans from 108 children enrolled in the NIH-funded MRI study of normal brain development (Almli et al., 2007, Evans and Group 2006). Templates are constructed for different age ranges. Each age range includes an average T1w, T2w, PDw maps normalized between 0 and 100. Also each age range includes a binary brain mask. Tools for using these atlases can be found in the Software section.
Proper citation: NIHPD Objective 2 atlases (birth - 4.5 years) (RRID:SCR_008795) Copy
http://www.bic.mni.mcgill.ca/ServicesAtlases/Rhesus
A reference atlas of rhesus macaque monkey magnetic resonance images that offers a common stereotaxic reference frame. The atlas can be used to localize anatomical and functional information in an organized and reliable way for comparison across individual rhesus monkeys and studies. We have used MRI volumes from a group of 7 normal adult rhesus monkeys (Macaca mulatta) to create the individual atlas. Thus, the atlas does not rely on the anatomy of a single subject, but instead depends on nonlinear normalization of numerous rhesus monkey brains mapped to an average template image that is faithful to the location of anatomical structures. Tools for registering a native MRI to the rhesus macaque atlas can be found in the Software section. Viewing the atlas and associated volumes online requires Java browser support. Additionally, you may download the atlas and associated files in your chosen format.
Proper citation: McConnell Brain Imaging Center MNI Rhesus Macaque Atlas (RRID:SCR_008790) Copy
http://www.nitrc.org/projects/broccoli/
A software package written in OpenCL (Open Computing Language) that can be used for parallel analysis of fMRI data on a large variety of hardware configurations. If BROCCOLI is running on a GPU, it can perform non-linear spatial normalization to a 1 mm brain template in 4-6 s and run a second level permutation test with 10,000 permutations.
Proper citation: BROCCOLI (RRID:SCR_014093) Copy
https://www.med.upenn.edu/sbia/brats2017.html
Organization that provides a conference about the methods for the segmentation of brain tumors in magnetic resonance imaging (MRI) scans. Its conferences utilize multi-institutional pre-operative MRI scans and focus on the segmentation of intrinsically heterogeneous (in appearance, shape, and histology) brain tumors, namely gliomas.
Proper citation: BraTS (RRID:SCR_016214) Copy
https://github.com/bids-standard/bids-validator
Software validation tool that checks submitted folder structure for compliance to BIDS data standard. Validates Brain Imaging Data Structure.
Proper citation: BIDS Validator (RRID:SCR_017255) Copy
https://github.com/nipy/heudiconv
Software tool as flexible DICOM converter for organizing brain imaging data into structured directory layouts.
Proper citation: HeuDiConv: a heuristic-centric DICOM converter (RRID:SCR_017427) Copy
Portal devoted to suite of MORF reporter mice labels of Cre positive neurons and glia distributed stochastically throughout brain and can be imaged with endogenous fluorescence (mNeonGreen in MORF1 and EGFP in TIGRE-MORF) or stained for multivalent immunoreporter (Spaghetti Monster fluorescent protein V5, or smFP-V5, in MORF3). MORF technology used to label and reconstruct thousands genetically defined cells per brain for large scale, unbiased classification and quantitative analyses of CNS cell types brainwide.
Proper citation: Mononucleotide Repeat Frameshift Portal (RRID:SCR_021125) Copy
https://github.com/Neural-Systems-at-UIO/MeshView-for-Brain-Atlases
Web application for real time 3D display of surface mesh data representing structural parcellations and generation of user defined cut planes from volumetric atlases.
Proper citation: MeshView (RRID:SCR_017222) Copy
Software application as image segmentation tool. Brain volumetry assessment software. Processes MRI scans and provides self explanatory patient report with total brain volume, hippocampal volume and volumetric data on key segments of brain measured against healthy database.
Proper citation: Neuroreader (RRID:SCR_017309) Copy
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