cNeuro® cMRI

cMRI provides fully automated brain MRI quantification for increased throughput, greater objectivity, and high-quality reporting for improved patient care.

cNeuro® cMRI, our cloud-based AI software, integrates with PACS, and results can be viewed in PACS or using the cNeuro browser-based viewer.

Radiologists benefit from increased accuracy and sensitivity, less time spent per read, and help managing complex patients in collaboration with referring clinicians.

Benefit from objective data

Objectively quantify disease-specific abnormalities and patterns and reduce the variability in radiological interpretation.
Fully automated, reliable, reproducible analysis of brain T1 and FLAIR MRI:
Statistical comparison of results to normative reference data adjusted for age, sex, and intracranial volume with results presented in tabular form or as age-corrected and gender-corrected plots
Interactive image review, with the ability to compare multiple timepoints and toggle overlays on/off for easy assessment of segmentation results

Watch a demo of cMRI

Increase sensitivity

Identify subtle, disease-specific changes and patterns in brain volume and/or lesions that are difficult to detect using visual assessment alone.

Reclaim time

Increase throughput by reducing the time spent per image read, without compromising on quality. cMRI automates the reporting of objective, clinically meaningful data that is ready to share with referring clinicians.

Improve collaboration and referrals

Improve collaboration, provide greater value, reduce image-related queries, and drive more referrals through streamlined, high-quality, consistent communication with referring clinicians.

Regulatory Compliance

CE marked, FDA 510(k) cleared, and ANVISA (Brazil)


Indications for Use

cNeuro cMRI is intended for automatic labeling, quantification and visualization of segmentable brain structures from a set of MR images. The software is intended to automate the current manual process of identifying, labeling, and quantifying the segmentable brain structures identified on MR images. The intended user profile covers medical professionals who work with medical imaging. The intended operational environment is an office-like environment with a computer.
The cMRI compute volumes of brain structures were validated for accuracy and reproducibility with