Morphometric Similarity Networks (MSNs) estimate structural 'connectivity' as a biologically meaningful set of statistical similarities between cyto-architectural features derived in-vivo from multiple MRI sequences. These networks have shown to be clinically relevant, predicting 40% variance in IQ. However, the sequences required (T1w and T2w 3D anatomical, DWI) to produce these networks typically have long acquisition times, which are less feasible in some populations. Thus, estimating MSNs using features from only a T1w MRI is attractive to both clinical and developmental neuroscience. We aimed to determine whether reduced-feature approaches approximate the original MSN model as a potential tool to investigate brain structure. Using Huma...
Structural brain networks estimated from diffusion MRI (dMRI) via tractography have been widely stud...
MRI connectomics methods treat the brain as a network and provide new information about its organiza...
The brain can be considered as an information processing network, where complex behavior manifests a...
Morphometric similarity networks (MSNs) estimate organization of the cortex as a biologically meanin...
Macroscopic cortical networks are important for cognitive function, but it remains challenging to co...
Macroscopic cortical networks are important for cognitive function, but it remains challenging to co...
There is an increasing expectation that advanced, computationally expensive machine learning (ML) te...
The morphology of anatomical brain regions can be affected by neurological disorders, including deme...
Brain development is regularly studied using structural MRI. Recently, studies have used a combinati...
Non-invasive neuroimaging methods, such as MRI, provide a window into the structure of the mammalian...
Open Access via the OUP Agreement Funding Information: The author received financial support for pub...
Owning to its clinical accessibility, T1-weighted MRI (Magnetic Resonance Imaging) has been extensiv...
Structural brain networks may be reconstructed from diffusion MRI tractography data and have great p...
Brain development is regularly studied using structural MRI. Recently, studies have used a combinati...
Structural brain networks estimated from diffusion MRI (dMRI) via tractography have been widely stud...
MRI connectomics methods treat the brain as a network and provide new information about its organiza...
The brain can be considered as an information processing network, where complex behavior manifests a...
Morphometric similarity networks (MSNs) estimate organization of the cortex as a biologically meanin...
Macroscopic cortical networks are important for cognitive function, but it remains challenging to co...
Macroscopic cortical networks are important for cognitive function, but it remains challenging to co...
There is an increasing expectation that advanced, computationally expensive machine learning (ML) te...
The morphology of anatomical brain regions can be affected by neurological disorders, including deme...
Brain development is regularly studied using structural MRI. Recently, studies have used a combinati...
Non-invasive neuroimaging methods, such as MRI, provide a window into the structure of the mammalian...
Open Access via the OUP Agreement Funding Information: The author received financial support for pub...
Owning to its clinical accessibility, T1-weighted MRI (Magnetic Resonance Imaging) has been extensiv...
Structural brain networks may be reconstructed from diffusion MRI tractography data and have great p...
Brain development is regularly studied using structural MRI. Recently, studies have used a combinati...
Structural brain networks estimated from diffusion MRI (dMRI) via tractography have been widely stud...
MRI connectomics methods treat the brain as a network and provide new information about its organiza...
The brain can be considered as an information processing network, where complex behavior manifests a...