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  • February 18th, 2021
  • Category: article

AI tool for the segmentation of the inner ear on MRI


Radiomics together with UZAntwerpen and UMaastricht, has developed a novel tool for the automatic identification of the inner ear on MRI

Scientific Reports

AI tool for the fully automated segmentation of the inner ear on MRI

Radiomics together with UZAntwerpen and UMaastricht, has developed a novel tool for the automatic identification of the inner ear on MRI

Inner Ear
The inner ear, also known as the labyrinth, is a complex structure located in the temporal bone. Understanding changes and variations within this anatomical structure can help to diagnose and predict several conditions, such as inflammatory and neoplastic processes. However, to analyze such a small structure there is the need to carefully define its borders and shape and the task is challenging given the dimensions. Up to know, radiologists had to undertake this task manually, which is time consuming and not entirely reproducible between different clinicians. To avoid these shortcomings, a novel tool for the automatic identification of the inner ear has been developed. This tool is based on Artificial Intelligence algorithms which allow to automatically identify and define the borders and 3D structure of the inner ear, also in the case of severe malformations.
This AI tool was used to study more than 1000 magnetic resonance scans (MRI) coming from different centers and hospitals in Belgium and the Netherlands. The performances of this software were found to be comparable to the one of an experienced radiologist with the added value of being faster and more precise. Each scan can be processed in a matter of seconds and the reproducibility of this automatic segmentation is 100%. This tool can be of invaluable help to clinicians for surgical planning, diagnosis, therapy follow up and training of young radiologist.

Read more: Deep learning for the fully automated segmentation of the inner ear on MRI – February 2021 – Scientific Reportshttps://www.nature.com/articles/s41598-021-82289-y