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Traumatic brain injury

Quantify traumatic brain injury and track structural changes

icobrain tbi

icobrain tbi for CT can be used as part of the assessments of the acute impacts of brain trauma, reporting the mass effect - the volumes of hyperdensities, cisterns, and ventricles, as well as the midline shift. 


icobrain tbi for MRI can be used as part of the assessments of sub-acute and longitudinal impacts of brain trauma, especially traumatic axonal injuries, by reporting on subtle anomalies in brain volume and inflammation through longitudinal monitoring.

Image by Lino C.

Precision and personalized medicine are indeed becoming the standard of care quickly in neurology. As brain MRI scans are a crucial part of the diagnosis and monitoring in neurology, the quantitative analysis of the icometrix’ AI-software together with the radiological reading are needed for a data-driven clinical decision-making in neurology.

Precision and personalized medicine are indeed becoming the standard of care quickly in neurology. As brain MRI scans are a crucial part of the diagnosis and monitoring in neurology, the quantitative analysis of the icometrix’ AI-software together with the radiological reading are needed for a data-driven clinical decision-making in neurology.

Joseph Fritz, president American Society Neuroimaging

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91%

Correlation with experts for acute intracranial lesions
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94%

Correlation with experts for cistern
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93%

Correlation with experts for midline shift
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Image by Lino C.

Like icobrain, brain biomarker measurements need to be extremely reproducible and sensitive enough to detect relevant clinical changes.

Like icobrain, brain biomarker measurements need to be extremely reproducible and sensitive enough to detect relevant clinical changes.

Max Wintermark, Radiologist at Stanford University Medical Center

Key scientific publications

Whole brain and grey matter volume of Japanese patients with multiple sclerosis

Akaishi et al. (2017)

Morphometric evaluation of traumatic axonal injury and the correlation with post-traumatic cerebral atrophy and functional outcome

Bohyn et al. (2022)

Cost-Effectiveness Analysis of AI-Assisted Radiological Assessment in Patients With Relapsing Remitting Multiple Sclerosis in the UK

Esposito et al. (2022)

MRI Volumetric Measures of Outcome after Severe Adolescent TBI

Ferrazzano et al. (2021)

Intercontinental validation of brain volume measurements using MSmetrix

Finkelsztejn et al. (2017)

Correlation of clinical findings and brain volume data in multiple sclerosis

Fragoso et al. (2017)

Automatic Quantification of CT Features in Acute TBI

Jain et al. (2019)

Validation of a deep learning model for traumatic brain injury detection and NIRIS grading on non-contrast CT: a multi-reader study with promising results and opportunities for improvement

Jiang et al. (2023)

Evaluation of methods for volumetric analysis of pediatric brain data: The childmetrix pipeline versus adult-based approaches

Phan et al. (2018)

Neuroanatomical Substrates and Symptoms Associated With Magnetic Resonance Imaging of Patients With Mild Traumatic Brain Injury

Richter et al. (2021)

Health Economic Impact of Software-Assisted Brain MRI on Therapeutic Decision-Making and Outcomes of Relapsing-Remitting Multiple Sclerosis Patients—A Microsimulation Study

Sima et al. (2021)

A deep learning model for brain segmentation across pediatric and adult populations

Simarro et al. (2024)

Reliable measurements of brain atrophy in individual patientswith multiple sclerosis

Smeets et al. (2016)

Automated MRI volumetry as a diagnostic tool for Alzheimer's disease: validation of icobrain dm

Struyfs et al. (2020)

Imaging Findings in Acute TBI: Analysis of 4000+ CTs (CENTER-TBI).

Vande Vyvere et al. (2024)

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Latest news & press

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Other solutions

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Accurately visualize lesion and brain volume changes over time in multiple sclerosis

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Dementia and Alzheimer's

Supporting differential diagnosis and monitoring of atrophy in dementia

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Amyloid-related imaging abnormalities

Detect, measure and grade ARIA-E and ARIA-H

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Epilepsy

Supporting differential diagnosis of epilepsy through abnormality patterns

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Stroke

Measure stroke lesion volumes and perfusion abnormalities

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Parkinson’s disease

Quantifies volumes of basal ganglia, brainstem, cerebellum, cortex, and ventricles.

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Brain tumors

Track changes in tumor resection cavity, core, and edema

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