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2	2	(((
3	3	(% class="container" %)
4	4	(((
5		-= From MRI to Functional and Structural Connectivity =
	5	+= TVB Image Processing Pipeline With MINDS annotated Outputs =
6	6
7		-Neuroimaging data preprocessing pipeline
	7	+== [[Pipeline Video Tutorial>>https://drive.google.com/file/d/1VcXf3GX3KoihF4UzJQXzuGL4XWoqj5Jr/view||rel="noopener noreferrer" target="_blank"]] ==
8	8
9		-(% style="text-align:center" %)
10		-[[image:8d975cf4-13ec-4a6d-9fd9-064bd1fac7b0.jpeg]]
	9	+== [[Direct link to notebook>>https://drive.ebrains.eu/#my-libs/lib/42ac27a5-981e-4cf6-8ec5-d67b0c24bf09/notebooks||rel="noopener noreferrer" target="_blank"]] ==
11	11
12		-== [[Pipeline Video Tutorial>>https://drive.google.com/file/d/1VcXf3GX3KoihF4UzJQXzuGL4XWoqj5Jr/view||target="_blank"]] ==
	11	+[[image:8677353.png||style="float:left"]]
	12	+
	13	+
13	13	)))
14	14	)))
15	15
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20	20	== What can I find here? ==
21	21
22	22	* an IPython notebook that describes how to
23		-** use the TVB pipeline on one of the associated supercomputers using PyUnicore
24		-** upload model data to the supercomputer
	24	+** use the TVB processing pipeline on one of the associated supercomputers using PyUnicore
	25	+** upload MRI data to the supercomputer
25	25	** set up and run the pipeline
26	26	** download processing results
27	27
	29	+== What does the TVB processing pipeline do? ==
	30	+
	31	+After uploading MRI data to the supercomputer, the pipeline runs the three containers
	32	+
	33	+* [[bids/mrtrix3_connectome>>https://hub.docker.com/r/bids/mrtrix3_connectome||rel="noopener noreferrer" target="_blank"]]
	34	+* [[poldracklab/fmriprep>>https://hub.docker.com/r/poldracklab/fmriprep||rel="noopener noreferrer" target="_blank"]], and
	35	+* [[thevirtualbrain/tvb_converter>>https://hub.docker.com/r/thevirtualbrain/tvb_converter||rel="noopener noreferrer" target="_blank"]]
	36	+
	37	+The TVB Processing Pipeline takes multimodal MRI data sets (anatomical, functional and diffusion-weighted MRI) as input and generates SCs, region-average fMRI time series, FCs, brain surfaces, electrode positions, lead field matrices, and atlas parcellations as output. The pipeline performs preprocessing and distortion-correction on MRI data as well as white matter fiber bundle tractography on diffusion data. Outputs are formatted according to two data standards: a TVB-ready data set that can be directly used to simulate brain network models and the same output in BIDS format.
	38	+
28	28	== How do I use it? ==
29	29
30	30	* the pipeline is implemented by three Docker containers (mrtrix3_connectome, fmriprep and tvb_converter)
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34	34	* To use the notebook, download it onto your local filesystem, create a new Collab and upload it there.
35	35	* Then, head over to [[https:~~/~~/lab.ebrains.eu/>>url:https://lab.ebrains.eu/||rel="noopener noreferrer" target="_blank"]] to edit and run your notebook.
36	36	* Depending on whether you created a public or a private notebook it will be accessible in either "drive/Shared with all" or "drive/Shared with groups'"
	48	+
	49	+== Metadata ==
	50	+
	51	+|=Category|tool
	52	+|=Tags|(((
	53	+* [[Simulaton>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	54	+* [[TVB>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	55	+* [[visualization>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	56	+* [[open-source>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	57	+* [[analysis>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	58	+* [[supercomputers>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	59	+* [[brain-model>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	60	+* [[neuroinformatics>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	61	+* [[image-segmentation>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	62	+* [[simulation>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	63	+* [[The-Virtual-Brain>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
37	37	)))
	65	+|=Partners|(((
	66	+* Charité Universitätsmedizin Berlin [[CHARITE>>url:https://services.humanbrainproject.eu/software-catalog/catalog/?ctx=97d59245-adce-42c4-8b50-d22587071fcd&ctxstate=search%2Ctvb]]
	67	+)))
	68	+|=Maintainers|(((
	69	+* [[Petra Ritter>>path:mailto:petra.ritter@charite.de]]
	70	+* [[Michael Schirner>>path:mailto:michael.schirner@charite.de]]
	71	+* [[Paul Triebkorn>>path:mailto:jan-paul.triebkorn@charite.de]]
	72	+)))
	73	+|=Contributors|(((
	74	+* [[Petra Ritter>>path:mailto:petra.ritter@charite.de]]
	75	+* [[Michael Schirner>>path:mailto:michael.schirner@charite.de]]
	76	+* [[Paul Triebkorn>>path:mailto:jan-paul.triebkorn@charite.de]]
	77	+)))
	78	+|=Homepage|[[https:~~/~~/www.brainsimulation.org>>url:https://www.brainsimulation.org/]]
	79	+|=Documentation|[[https:~~/~~/drive.google.com/file/d/1VcXf3GX3KoihF4UzJQXzuGL4XWoqj5Jr/view>>url:https://drive.google.com/file/d/1VcXf3GX3KoihF4UzJQXzuGL4XWoqj5Jr/view]]
	80	+|=Support|[[petra.ritter@charite.de>>path:mailto:petra.ritter@charite.de]]
	81	+|=Source Code|[[https:~~/~~/hub.docker.com/r/thevirtualbrain/tvb_converter>>url:https://hub.docker.com/r/thevirtualbrain/tvb_converter]]
	82	+|=Download Page|[[https:~~/~~/hub.docker.com/r/thevirtualbrain/tvb_converter>>url:https://hub.docker.com/r/thevirtualbrain/tvb_converter]]
	83	+|=License|GPLv3
	84	+|=Current Version|1.0
	85	+|=All Versions|(((
	86	+* 1.0
	87	+)))
38	38
	89	+=== ===
39	39
	91	+== Publications on TVB/brain model preprocessing ==
	92	+
	93	+* [[https:~~/~~/www.ncbi.nlm.nih.gov/pubmed/25837600>>url:https://www.ncbi.nlm.nih.gov/pubmed/25837600]]
	94	+* [[https:~~/~~/www.ncbi.nlm.nih.gov/pubmed/27480624>>url:https://www.ncbi.nlm.nih.gov/pubmed/27480624]]
	95	+
	96	+== Citing this work ==
	97	+
	98	+
	99	+When using this pipeline for published work, please acknowledge MRtrix3, MRtrix3_connectome (R. Smith & Connelly, 2019; Tournier et al., 2019) and fmriprep (Esteban et al., 2019).
	100	+
	101	+
	102	+Esteban, O., Markiewicz, C. J., Blair, R. W., Moodie, C. A., Isik, A. I., Erramuzpe, A., Kent, J. D., Goncalves, M., DuPre, E., Snyder, M., Oya, H., Ghosh, S. S., Wright, J., Durnez, J., Poldrack, R. A., & Gorgolewski, K. J. (2019). fMRIPrep: a robust preprocessing pipeline for functional MRI. //Nature Methods//. [[https:~~/~~/doi.org/10.1038/s41592-018-0235-4>>https://doi.org/10.1038/s41592-018-0235-4]]
	103	+
	104	+
	105	+Schirner, M., Rothmeier, S., Jirsa, V. K., McIntosh, A. R., & Ritter, P. (2015). An automated pipeline for constructing personalized virtual brains from multimodal neuroimaging data. NeuroImage, 117, 343-357.
	106	+
	107	+
	108	+Smith, R., & Connelly, A. (2019). MRtrix3_connectome: A BIDS Application for quantitative structural connectome construction. //OHBM//, W610.
	109	+
	110	+
	111	+Tournier, J. D., Smith, R., Raffelt, D., Tabbara, R., Dhollander, T., Pietsch, M., Christiaens, D., Jeurissen, B., Yeh, C. H., & Connelly, A. (2019). MRtrix3: A fast, flexible and open software framework for medical image processing and visualisation. In //NeuroImage//. https:~/~/doi.org/10.1016/j.neuroimage.2019.116137
	112	+)))
	113	+
	114	+== ==
	115	+
40	40	(% class="col-xs-12 col-sm-4" %)
41	41	(((
42	42	{{box title="**Contents**"}}

Collaboratory.Apps.Collab.Code.CollabClass[0]

Description

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1		-Construct brain network models from empirical MRI data.
	1	+TVB Image Processing Pipeline With MINDS annotated Outputs