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conn functional connectivity toolbox with matlab  (MathWorks Inc)


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    MathWorks Inc conn functional connectivity toolbox with matlab
    Fig. 2. Resting-state functional connections across olfactory regions in the dog brain. Twenty-six significant connections across all 14 ROIs among all subjects, calculated by <t>CONN.</t> Calculated connections were Fisher- transformed Pearson correlation coefficients. The maximum value (8.67) is the highest correlation coefficient among found connections. The 3D brain image with ROIs and connections was created using Blender (Version 4.1, Blender Foundation, <t>2023)</t> <t>(https://www.blender.org)</t> based on a publicly available template MRI image of a dog32 (https://figshare.com/s/628cbf7d4210271ffe70).
    Conn Functional Connectivity Toolbox With Matlab, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 96/100, based on 627 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    1) Product Images from "Dogs' olfactory resting-state functional connectivity is modulated by age and brain shape."

    Article Title: Dogs' olfactory resting-state functional connectivity is modulated by age and brain shape.

    Journal: Scientific reports

    doi: 10.1038/s41598-025-95123-6

    Fig. 2. Resting-state functional connections across olfactory regions in the dog brain. Twenty-six significant connections across all 14 ROIs among all subjects, calculated by CONN. Calculated connections were Fisher- transformed Pearson correlation coefficients. The maximum value (8.67) is the highest correlation coefficient among found connections. The 3D brain image with ROIs and connections was created using Blender (Version 4.1, Blender Foundation, 2023) (https://www.blender.org) based on a publicly available template MRI image of a dog32 (https://figshare.com/s/628cbf7d4210271ffe70).
    Figure Legend Snippet: Fig. 2. Resting-state functional connections across olfactory regions in the dog brain. Twenty-six significant connections across all 14 ROIs among all subjects, calculated by CONN. Calculated connections were Fisher- transformed Pearson correlation coefficients. The maximum value (8.67) is the highest correlation coefficient among found connections. The 3D brain image with ROIs and connections was created using Blender (Version 4.1, Blender Foundation, 2023) (https://www.blender.org) based on a publicly available template MRI image of a dog32 (https://figshare.com/s/628cbf7d4210271ffe70).

    Techniques Used: Functional Assay, Transformation Assay



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    Fig. 2. Resting-state functional connections across olfactory regions in the dog brain. Twenty-six significant connections across all 14 ROIs among all subjects, calculated by <t>CONN.</t> Calculated connections were Fisher- transformed Pearson correlation coefficients. The maximum value (8.67) is the highest correlation coefficient among found connections. The 3D brain image with ROIs and connections was created using Blender (Version 4.1, Blender Foundation, <t>2023)</t> <t>(https://www.blender.org)</t> based on a publicly available template MRI image of a dog32 (https://figshare.com/s/628cbf7d4210271ffe70).
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    Image Search Results


    Fig. 2. Resting-state functional connections across olfactory regions in the dog brain. Twenty-six significant connections across all 14 ROIs among all subjects, calculated by CONN. Calculated connections were Fisher- transformed Pearson correlation coefficients. The maximum value (8.67) is the highest correlation coefficient among found connections. The 3D brain image with ROIs and connections was created using Blender (Version 4.1, Blender Foundation, 2023) (https://www.blender.org) based on a publicly available template MRI image of a dog32 (https://figshare.com/s/628cbf7d4210271ffe70).

    Journal: Scientific reports

    Article Title: Dogs' olfactory resting-state functional connectivity is modulated by age and brain shape.

    doi: 10.1038/s41598-025-95123-6

    Figure Lengend Snippet: Fig. 2. Resting-state functional connections across olfactory regions in the dog brain. Twenty-six significant connections across all 14 ROIs among all subjects, calculated by CONN. Calculated connections were Fisher- transformed Pearson correlation coefficients. The maximum value (8.67) is the highest correlation coefficient among found connections. The 3D brain image with ROIs and connections was created using Blender (Version 4.1, Blender Foundation, 2023) (https://www.blender.org) based on a publicly available template MRI image of a dog32 (https://figshare.com/s/628cbf7d4210271ffe70).

    Article Snippet: For these processes, MATLAB (version R2023b, MathWorks, Natick, MA, USA) (for steps 6–7), Statistical Parametric Mapping 12 (SPM12) software with MATLAB (Wellcome Centre for Human Neuroimaging, UCL, London, UK) (for steps 1–5), and the CONN functional connectivity toolbox with MATLAB (version 22.a, www.nitrc.org/projects/ conn) (for steps 8–9) were applied.

    Techniques: Functional Assay, Transformation Assay

    Illustration of applied methods. (A) Data collection: pain anticipation paradigm; high pain (red, N = 7), low pain (green, N = 7), and uncertain pain (yellow, N = 14) visual cues, followed by pain stimulation. (B) Model verification: fMRI preprocessing with CONN toolbox ( www.nitrc.org/projects/conn , RRID:SCR_009550) and task-based regression (including least squares sum model) completed in AFNI. Activation maps extracted in 26 a priori–chosen ROIs depicted in glass brain on the right side only for each high and low pain anticipation event (see supplemental digital content 3, http://links.lww.com/PAIN/C20 for further details). Elastic net regression is used to train and test classifier to separate low and high pain anticipation neural patterns (c.f. Methods for more details) (C) Uncertainty prediction: Each uncertain anticipation trial is compared with the certain activation maps and a probabilistic prediction is determined by LASSO. Predictions ≥0.5 are classified as “high,” and predictions <0.5 as “low.” (D) Group classification: Predictions across all 14 uncertain trials for each subject are provided to mixAK cluster analysis in R, and each subject is clustered based on individual anticipation profile.

    Journal: Pain

    Article Title: Identification of group differences in predictive anticipatory biasing of pain during uncertainty: preparing for the worst but hoping for the best

    doi: 10.1097/j.pain.0000000000003207

    Figure Lengend Snippet: Illustration of applied methods. (A) Data collection: pain anticipation paradigm; high pain (red, N = 7), low pain (green, N = 7), and uncertain pain (yellow, N = 14) visual cues, followed by pain stimulation. (B) Model verification: fMRI preprocessing with CONN toolbox ( www.nitrc.org/projects/conn , RRID:SCR_009550) and task-based regression (including least squares sum model) completed in AFNI. Activation maps extracted in 26 a priori–chosen ROIs depicted in glass brain on the right side only for each high and low pain anticipation event (see supplemental digital content 3, http://links.lww.com/PAIN/C20 for further details). Elastic net regression is used to train and test classifier to separate low and high pain anticipation neural patterns (c.f. Methods for more details) (C) Uncertainty prediction: Each uncertain anticipation trial is compared with the certain activation maps and a probabilistic prediction is determined by LASSO. Predictions ≥0.5 are classified as “high,” and predictions <0.5 as “low.” (D) Group classification: Predictions across all 14 uncertain trials for each subject are provided to mixAK cluster analysis in R, and each subject is clustered based on individual anticipation profile.

    Article Snippet: All fMRI data were preprocessed using a MatLab-based functional connectivity toolbox, CONN, to denoise and align the images for analysis (Fig. B).

    Techniques: Activation Assay