Esha Datta scite author profile

An important image processing step in spinal cord magnetic resonance imaging is the ability to reliably and accurately segment grey and white matter for tissue specific analysis. There are several semi- or fully-automated segmentation methods for cervical cord cross-sectional area measurement with an excellent performance close or equal to the manual segmentation. However, grey matter segmentation is still challenging due to small cross-sectional size and shape, and active research is being conducted by several groups around the world in this field. Therefore a grey matter spinal cord segmentation challenge was organised to test different capabilities of various methods using the same multi-centre and multi-vendor dataset acquired with distinct 3D gradient-echo sequences. This challenge aimed to characterize the state-of-the-art in the field as well as identifying new opportunities for future improvements. Six different spinal cord grey matter segmentation methods developed independently by various research groups across the world and their performance were compared to manual segmentation outcomes, the present gold-standard. All algorithms provided good overall results for detecting the grey matter butterfly, albeit with variable performance in certain quality-of-segmentation metrics. The data have been made publicly available and the challenge web site remains open to new submissions. No modifications were introduced to any of the presented methods as a result of this challenge for the purposes of this publication.

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Association of HLA Genetic Risk Burden With Disease Phenotypes in Multiple Sclerosis

Isobe

Keshavan

Gourraud

et al. 2016

JAMA Neurol

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Precision medicine in chronic disease management: The multiple sclerosis BioScreen

Gourraud

Henry

Cree

et al. 2014

Annals of Neurology

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We present a precision medicine application developed for multiple sclerosis (MS): the MS BioScreen. This new tool addresses the challenges of dynamic management of a complex chronic disease; the interaction of clinicians and patients with such a tool illustrates the extent to which translational digital medicine – i.e. the application of information technology to medicine—has the potential to radically transform medical practice. We introduce three key evolutionary phases in displaying data to health care providers, patients, and researchers: visualization (accessing data), contextualization (understanding the data), and actionable interpretation (real-time use of the data to assist decision-making). Together these form the stepping-stones that are expected to accelerate standardization of data across platforms, promote evidence-based medicine, support shared decision-making, and ultimately lead to improved outcomes.

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Gradient nonlinearity effects on upper cervical spinal cord area measurement from 3D T₁‐weighted brain MRI acquisitions

Papinutto

Bakshi

Bischof

et al. 2017

Magnetic Resonance in Med

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Mindcontrol: A web application for brain segmentation quality control

et al. 2018

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Tissue classification plays a crucial role in the investigation of normal neural development, brain-behavior relationships, and the disease mechanisms of many psychiatric and neurological illnesses. Ensuring the accuracy of tissue classification is important for quality research and, in particular, the translation of imaging biomarkers to clinical practice. Assessment with the human eye is vital to correct various errors inherent to all currently available segmentation algorithms. Manual quality assurance becomes methodologically difficult at a large scale - a problem of increasing importance as the number of data sets is on the rise. To make this process more efficient, we have developed Mindcontrol, an open-source web application for the collaborative quality control of neuroimaging processing outputs. The Mindcontrol platform consists of a dashboard to organize data, descriptive visualizations to explore the data, an imaging viewer, and an in-browser annotation and editing toolbox for data curation and quality control. Mindcontrol is flexible and can be configured for the outputs of any software package in any data organization structure. Example configurations for three large, open-source datasets are presented: the 1000 Functional Connectomes Project (FCP), the Consortium for Reliability and Reproducibility (CoRR), and the Autism Brain Imaging Data Exchange (ABIDE) Collection. These demo applications link descriptive quality control metrics, regional brain volumes, and thickness scalars to a 3D imaging viewer and editing module, resulting in an easy-to-implement quality control protocol that can be scaled for any size and complexity of study.

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Esha Datta

Spinal cord grey matter segmentation challenge

Association of HLA Genetic Risk Burden With Disease Phenotypes in Multiple Sclerosis

Precision medicine in chronic disease management: The multiple sclerosis BioScreen

Gradient nonlinearity effects on upper cervical spinal cord area measurement from 3D T₁‐weighted brain MRI acquisitions

Mindcontrol: A web application for brain segmentation quality control

Contact Info

Product

Resources

About

Esha Datta

Spinal cord grey matter segmentation challenge

Association of HLA Genetic Risk Burden With Disease Phenotypes in Multiple Sclerosis

Precision medicine in chronic disease management: The multiple sclerosis BioScreen

Gradient nonlinearity effects on upper cervical spinal cord area measurement from 3D T1‐weighted brain MRI acquisitions

Mindcontrol: A web application for brain segmentation quality control

Contact Info

Product

Resources

About

Gradient nonlinearity effects on upper cervical spinal cord area measurement from 3D T₁‐weighted brain MRI acquisitions