Last modified by puchades on 2022/11/02 10:16
From version 63.1
edited by puchades
on 2021/10/18 09:38
Change comment: There is no comment for this version
To version 60.1
edited by evanhancock
on 2020/12/03 12:18
Change comment: There is no comment for this version

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2 -(((
3 -Online documentation: - [[https:~~/~~/quicknii.readthedocs.io/en/latest/index.html>>https://quicknii.readthedocs.io/en/latest/index.html]] [[-https:~~/~~/visualign.readthedocs.io/en/latest/index.html#>>https://visualign.readthedocs.io/en/latest/index.html#]][[ -https:~~/~~/nutil.readthedocs.io/en/latest/index.html>>https://nutil.readthedocs.io/en/latest/index.html]]
4 -)))
5 -
6 -Please, address your questions about our tools and workflows to [[https:~~/~~/ebrains.eu/support/>>https://ebrains.eu/support/]].
7 -
8 -[[image:User_support_Ebrains.png]]
9 -
10 -
11 11  [[image:QUINT_workflow_Plaques.png||style="float:left"]]
12 12  
13 13  == (% style="color:#c0392b" %)**Description**(%%) ==
14 14  
15 -**The QUINT workflow enables an atlas-based analysis of extracted features from histological image sections from the rodent brain by using 3D reference atlases. **
5 +**The QUINT workflow enables an atlas based analysis of extracted features from histological image sections from the rodent brain using 3D reference atlases. **
16 16  
17 -**Examples of use are cell counting and spatial distributions, determination of projection areas in connectivity experiments, and exploration of pathological hallmarks in brain-disease models. Integration of various data to the same reference space enables new exploration strategies and reuse of experimental data.**
7 +**Examples of use are: cell counting and spatial distributions; determination of projection areas in connectivity experiments; exploration of pathological hallmarks in brain disease models. Integration of various data to the same reference space enables new exploration strategies and re-use of experimental data.**
18 18  
19 -The workflow is built on the following open-access software.
9 +The workflow is built on the following open access software:
20 20  
21 -* [[(% style="color:#2980b9" %)//ilastik//>>doc:.3\. Image segmentation with ilastik.WebHome]](%%) allows the extraction of labelled features such as cells, by using machine-learning image segmentation.
11 +* [[(% style="color:#2980b9" %)//ilastik//>>doc:.3\. Image segmentation with ilastik.WebHome]](%%) allows the extraction of labelled features such as cells, using machine learning image segmentation.
22 22  * [[(% style="color:#2980b9" %)//QuickNII//>>doc:.Image registration to reference atlas using QuickNII.WebHome]](%%) generates custom-angle slices from volumetric brain atlases to match the proportions and cutting plane of histological sections.
23 -* //[[(% style="color:#3498db" %)VisuAlign>>doc:.Image registration to reference atlas using QuickNII.WebHome]]//(%%) is then used for non-linear alignment of the reference-atlas slice to the section image.
13 +* //[[(% style="color:#3498db" %)VisuAlign>>doc:.Image registration to reference atlas using QuickNII.WebHome]]//(%%) is then used for nonlinear alignment of the reference atlas slice to the section image..
24 24  * (% style="color:#2980b9" %)//Nutil//(%%) enables image [[transformations>>doc:.1\. Preparing the images.WebHome]], in addition to [[quantification and spatial analysis>>doc:.4\. Quantification and spatial analysis with Nutil.WebHome]] of features by drawing on the output of //ilastik// and //QuickNII//.
25 25  
26 -In combination, the tools facilitate semi-automated quantification, eliminating the need for more time-consuming methods such as stereological analysis with manual delineation of brain regions.
16 +In combination, the tools facilitate semi-automated quantification, eliminating the need for more time consuming methods such as stereological analysis with manual delineation of brain regions.
27 27  
28 28  [[[[image:Youtube_QUINT.PNG||height="282" style="float:left" width="500"]]>>https://www.youtube.com/watch?v=8oeg3qTzLnE]]
29 29  
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47 47  
48 48  (% class="box successmessage" %)
49 49  (((
50 -The semi-automated QUINT workflow uses open-access software that can be operated without any scripting knowledge.
40 +The semi-automated QUINT workflow uses open access software that can be operated without any scripting knowledge.
51 51  )))
52 52  
53 53  (((
54 54  (% class="box successmessage" %)
55 55  (((
56 -Because the quantifications are performed in regions defined by a reference atlas, the region definitions are standardised, allowing comparisons of data from different laboratories.
46 +As the quantifications are performed in regions defined by a reference atlas, the region definitions are standardized, allowing comparisons of data from different laboratories.
57 57  )))
58 58  
59 59  ==== (% style="color:#c0392b" %)**References**(%%) ====
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