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  • Micapipe: A pipeline for mu...
    Cruces, Raúl R.; Royer, Jessica; Herholz, Peer; Larivière, Sara; Vos de Wael, Reinder; Paquola, Casey; Benkarim, Oualid; Park, Bo-yong; Degré-Pelletier, Janie; Nelson, Mark C.; DeKraker, Jordan; Leppert, Ilana R.; Tardif, Christine; Poline, Jean-Baptiste; Concha, Luis; Bernhardt, Boris C.

    NeuroImage, 11/2022, Letnik: 263
    Journal Article

    •Micapipe is a comprehensive pipeline to process multimodal MRI data.•Micapipe generates matrices describing cortico-cortical microstructural similarity, functional connectivity, structural connectivity, and spatial proximity.•The pipeline provides easy-to-verify outputs and visualizations for quality control.•Outputs are hierarchically organized with BIDS-conform naming.•Our evaluations show reproducible processing across several 3T and 7T datasets. Multimodal magnetic resonance imaging (MRI) has accelerated human neuroscience by fostering the analysis of brain microstructure, geometry, function, and connectivity across multiple scales and in living brains. The richness and complexity of multimodal neuroimaging, however, demands processing methods to integrate information across modalities and to consolidate findings across different spatial scales. Here, we present micapipe, an open processing pipeline for multimodal MRI datasets. Based on BIDS-conform input data, micapipe can generate i) structural connectomes derived from diffusion tractography, ii) functional connectomes derived from resting-state signal correlations, iii) geodesic distance matrices that quantify cortico-cortical proximity, and iv) microstructural profile covariance matrices that assess inter-regional similarity in cortical myelin proxies. The above matrices can be automatically generated across established 18 cortical parcellations (100–1000 parcels), in addition to subcortical and cerebellar parcellations, allowing researchers to replicate findings easily across different spatial scales. Results are represented on three different surface spaces (native, conte69, fsaverage5), and outputs are BIDS-conform. Processed outputs can be quality controlled at the individual and group level. micapipe was tested on several datasets and is available at https://github.com/MICA-MNI/micapipe, documented at https://micapipe.readthedocs.io/, and containerized as a BIDS App http://bids-apps.neuroimaging.io/apps/. We hope that micapipe will foster robust and integrative studies of human brain microstructure, morphology, function, cand connectivity.