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http://www.nitrc.org/projects/cbfdap/
A web enabled data and workflow management system extended from the HID codebase on NITRC specialized for Arterial Spin Labeling data management and analysis (including group analysis) in a centralized manner.
Proper citation: Cerebral Blood Flow Database and Analysis Pipeline (RRID:SCR_009454) Copy
http://www.nitrc.org/projects/dentaltools/
Software package that provides 3D imaging resources such as multimodal imaging, volume and mesh processing or segmentation for Dental Research. DentalTools package intends to contribute to the free exchange of information and methods in the dentistry research community.
Proper citation: DentalTools (RRID:SCR_009463) Copy
https://wiki.nci.nih.gov/display/caGWAS/caGWAS
Too that allows researchers to integrate, query, report, and analyze significant associations between genetic variations and disease, drug response or other clinical outcomes. SNP array technologies make it possible to genotype hundreds of thousands of single nucleotide polymorphisms (SNPs) simultaneously, enabling whole genome association studies. Within the Clinical Genomic Object Model (CGOM), the caIntegrator team created a domain model for Whole Genome Association Study Analysis. CGOM-caGWAS is a A semantically annotated domain model that captures associations between Study, Study Participant, Disease, SNP Association Analysis, SNP Population Frequency and SNP annotations. caGWAS APIs and web portal provide: * a semantically annotated domain model, database schema with sample data, seasoned middleware, APIs, and web portal for GWAS data; * platform and disease agnostic CGOM-caGWAS model and associated APIs; * the opportunity for developers to customize the look and feel of their GWAS portal; * a foundation of open source technologies; * a well-tested and performance-enhanced platform, as the same software is being used to house the CGEMS data portal; * accelerated analysis of results from various biomedical studies; and * a single application through which researchers and bioinformaticians can access and analyze clinical and experimental data from a variety of data types, as caGWAS objects are part of the CGOM, which includes microarray, genomic, immunohistochemistry, imaging, and clinical data.
Proper citation: caGWAS (RRID:SCR_009617) Copy
http://www.nitrc.org/projects/neuroweb/
Infrastructure for data aggregation, processing, and management in multi-dimensional medical imaging research (i.e., MRI, CT, PET). NeuroWeb is designed for rapid deployment on a small/moderate scale with limited hardware.
Proper citation: NeuroWeb - NeuroImaging Database (RRID:SCR_009610) Copy
A complete line of non-invasive magnetic stimulation systems designed for clinical examinations and for research in the areas of neurophysiology, neurology, cognitive neuroscience, rehabilitation and psychiatry.
Proper citation: MagPro Magnetic Stimulator (RRID:SCR_009601) Copy
http://www.nitrc.org/projects/magdande
A variety of MEG- and fMRI-compatible hardware for research use including typical response collection devices such as joysticks, response pads, mice, as well as stimulation devices such as vibrotactile stimulators, olfactometers, and pressure/force generators. The company also offers custom design and production services for many different applications.
Proper citation: Mag Design and Engineering (RRID:SCR_009600) Copy
An open-source, open content-development project for exploring, discovering, navigating, learning, and computational utilization of diverse probability distributions.
Proper citation: Distributome (RRID:SCR_009564) Copy
http://www.nitrc.org/projects/probbiascor/
A multichannel capable tool for probabilistic inhomogeneity correction implemented as both a standalone command line tool and a Slicer3 module.
Proper citation: ProbabilisticBiasCorrection (RRID:SCR_009638) Copy
http://www.nitrc.org/projects/pobe/
Computer program that provides a graphical user interface for fMRI researchers to easily and efficiently design their blocked experiments. The computer program POBE calculates the optimal number of subjects and the optimal scanning time for user specified experimental factors and model parameters so that the statistical efficiency is maximised for a given study budget. POBE can also be used to determine the minimum budget for a given power. Furthermore, a maximin design can be determined as efficient design for a possible range of values for the unknown model parameters.
Proper citation: Program for optimal design of blocked fMRI experiments (RRID:SCR_009639) Copy
http://www.nitrc.org/projects/dl_dataset/
Script which points browser to Nathan Kline Institute (NKI) Rockland Sample.
Proper citation: Rockland Download Link Script (RRID:SCR_009513) Copy
http://www.nitrc.org/projects/cogicat/
While the traditional temporally concatenated Group ICA (TC-GICA) adopting three steps of PCA reduction, it could result in inconsistent and variable components when different subject orders were used, both for the group- and individual-level results. Such instability can further cause instable and thus unreliable statistical results. Subject Order-Independent Group ICA (SOI-GICA) aims to fix this problem by producing stable and reliable GICA results. For details please see the paper Subject Order-Independent Group ICA (SOI-GICA) for Functional MRI Data Analysis (Zhang et al., 2010, NeuroImage)(http://dx.doi.org/10.1016/j.neuroimage.2010.03.039). MICA is the toolbox inplemented SOI-GICA for convenience of usage.
Proper citation: Subject Order-Independent Group ICA (RRID:SCR_009514) Copy
http://www.nitrc.org/projects/pnve/
A self-contained virtual machine that can be executed on a common laptop or desktop, enabling the Pipeline to run virtually anywhere. Neophytes to the Pipeline can have their own private server running in minutes, software engineers and workflow designers can use the PNVE as a sandbox, and those without access to grid computing facilities can now take full advantage of the Pipeline processing environment.
Proper citation: Pipeline Neuroimaging VirtualEnvironment (RRID:SCR_009635) Copy
http://www.nitrc.org/projects/brainnet_2013/
Tool that associates localized white matter (WM) lesions with disruptions in gray matter connectivity as a step toward understanding the lesions? functional implications. A Tractogram Reference Set (TRS), i.e. collections of white matter fibers, is constructed from 73 normal healthy individuals and coregistered to a common space (MNI). The NeMo Tool uses the TRS to assess structural network disruption due to a particular WM lesion mask on a region and network-wise level. This tool is an easy way for researchers and clinicians to investigate changes in the structural brain network without having to perform tractography on their own normal data or on diseased/injured brains where the results may not represent the underlying physiology.
Proper citation: Network Modification Tool Lite (RRID:SCR_009511) Copy
http://www.unicog.org/pm/pmwiki.php/MEG/RemovingArtifactsWithADJUST
A completely automatic algorithm for artifact identification and removal in EEG data. ADJUST is based on Independent Component Analysis (ICA), a successful but unsupervised method for isolating artifacts from EEG recordings. ADJUST identifies artifacted ICA components by combining stereotyped artifact-specific spatial and temporal features. Features are optimised to capture blinks, eye movements and generic discontinuities. Once artifacted IC are identified, they can be simply removed from the data while leaving the activity due to neural sources almost unaffected.
Proper citation: ADJUST (RRID:SCR_009526) Copy
https://cran.r-project.org/src/contrib/Archive/brainwaver/
Characterization of small-world networks constructed from wavelet analysis of resting fMRI. This package is currently available as an R library. Futrure development will take place within the CamBA software repository
Proper citation: Brainwaver (RRID:SCR_009540) Copy
Software package, written in Matlab (Mathworks, Natick, MA), providing tools to automatically reconstruct neuronal branching from microscopy image stacks and to generate synthetic axonal and dendritic trees. It provides the basic tools to edit, visualize and analyze dendritic and axonal trees, methods for quantitatively comparing branching structures between neurons, and tools for exploring how dendritic and axonal branching depends on local optimization of total wiring and conduction distance.
Proper citation: TREES toolbox (RRID:SCR_010457) Copy
A database of digital reconstructions of the human brain arterial arborizations from 61 healthy adult subjects along with extracted morphological measurements. The arterial arborizations include the six major trees stemming from the circle of Willis, namely: the left and right Anterior Cerebral Arteries (ACAs), Middle Cerebral Arteries (MCAs), and Posterior Cerebral Arteries (PCAs).
Proper citation: BraVa (RRID:SCR_001407) Copy
http://miriad.drc.ion.ucl.ac.uk/
A database of volumetric MRI brain-scans of 46 Alzheimer's sufferers and 23 healthy elderly people. Many scans were collected of each participant at intervals from 2 weeks to 2 years, the study was designed to investigate the feasibility of using MRI as an outcome measure for clinical trials of Alzheimer's treatments. It includes a total of 708 scans and should be of particular interest for work on longitudinal biomarkers and image analysis.
Proper citation: MIRIAD (RRID:SCR_002422) Copy
http://www.nitrc.org/projects/cmind_2014/
A database that contains brain imaging data collected on 3T MRI scanners from over 200 normally developing healthy children from birth to 18 years. The imaging data stored in the C-MIND database are DTI, HARDI, 3DT1W, 3DT2W, concurrent ASL-BOLD scans during two language tasks (Stories and Sentence-Picture Matching), Resting State fMRI and Baseline ASL scans.
Proper citation: C-MIND Database (RRID:SCR_014094) Copy
http://www.nitrc.org/projects/reliability/
Data collected from subjects scanned 3 times (V1, V2, V3), with V1 and V2 on a scanner, V3 on another scanner in another site. Resting state blood oxygenation level dependent functional MRI (BOLD fMRI), pseudo continuous arterial spin labeling (pCASL), and high resolution 3D T1 imaging were performed under eyes open (EO) and eyes closed (EC) conditions.
Proper citation: Intra- and inter-scanner reliability of RS-fMRI BOLD and ASL with eyes closed vs. eyes open (RRID:SCR_016935) Copy
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