Stay Informed: Transforming Radiology with Structured Reporting and Data-Driven Approaches

Dive into our activities, projects, and product updates. Catch on the latest industry news and learn who we are as a company and as a team.

Doctors looking at MRI scans to evaluate a glioblastoma.

Optimizing Glioblastoma Imaging: Enhancing MRI Efficiency and Quality with Deep Learning

This study investigates the use of deep learning (DL) to optimize MRI protocols for glioblastoma patients, aiming to reduce scan time and improve image quality.

Glioblastomas are aggressive brain tumors requiring frequent MRI monitoring, which can be challenging due to lengthy scan times and motion artifacts. Traditional methods to shorten scan times, like parallel acquisition techniques (PAT) and compressed sensing (CS), have limitations such as reduced signal-to-noise ratio and overly smooth images.

The study, involving 33 patients, found that DL-optimized MRI sequences reduced scan time by 30% while enhancing image quality and maintaining diagnostic accuracy. These improvements are particularly beneficial for patients who struggle with lengthy MRI procedures, offering a promising advancement in glioblastoma care.

Read more about the study here.

Related Resources

Related Resources

mint Lesion™ 3.8. Release: What’s New?

The recent 3.8 release brings with it a multitude of new features and refinements that further facilitate reporting, interdisciplinary collaboration,…

Project „KoMed“: The cognitive medical assistant for risk and complication prevention

Funded by the Ministry of Science, Research and the Arts of Baden-Wuerttemberg, Mint Medical has been supporting the Heidelberg University Hospital as…

Structured reports for better patient care in oncology

“mint Lesion™ enables us to make better reports because it truly provides all the necessary data for patient care.”   Dr. Laurent Chapuis shares how…