Artificial intelligence to assess treatment response of brain tumors

Glioma
Glioma of the left parietal lobe. CT scan with contrast enhancement. Credit: Mikhail Kalinin/CC BY-SA 3.0

A team from Heidelberg University Hospital and the German Cancer Research Centre has developed a new method for the automated image analysis of brain tumors. In their recent publication, the authors show that machine learning methods carefully trained on standard magnetic resonance imaging (MRI) are more reliable and precise than established radiological methods in the treatment of brain tumors. Thus, they make a valuable contribution to the individualized treatment of tumors. In addition, the validated method is an important first step toward automated, high-throughput analysis of medical image data of brain tumors.

Gliomas are the most common and most malignant tumors in adults. In Germany, approximately 4,500 people are diagnosed with a glioma every year. The tumors often cannot be completely removed by surgery. Chemotherapy or radiotherapy are only effective to a limited extent because the tumors are highly resistant. New and precisely validated treatment approaches are therefore urgently needed.

One of the essential criteria for the precise assessment of the efficacy of a new therapy for brain tumors is the growth dynamic, which is determined by MRI. However, the manual measurement of tumor expansion in two planes in the contrast-enhanced MRI scans is prone to errors and leads to slightly different results. "This can have a negative effect on the assessment of therapy response and hence the reproducibility and precision of scientific statements based on imaging," explains Martin Bendszus, Medical Director of the Department of Neuroradiology at the University Hospital in Heidelberg.

In their current study, doctors and scientists from the University Hospital of Heidelberg and the German Cancer Research Center (DKFZ) describe the huge potential of machine learning methods in radiological diagnostics. The team has developed neuronal networks in order to assess and clinically validate the therapeutic response of brain tumors on the basis of MRI in a standardized and fully automated way.

Using a reference database with MRI scans of almost 500 brain tumor patients at Heidelberg University Hospital, the algorithms were able to automatically recognize and localize brain tumors using artificial neural networks. In addition, the algorithms were trained to volumetrically measure the individual areas (contrast medium-absorbing portion, peritumoral edema) and to precisely assess the response to therapy.

The results were validated in cooperation with the European Organization for Research and Treatment of Cancer (EORTC). "The evaluation of more than 2,000 MRI scans of 534 glioblastoma patients from all over Europe shows that our computer-based approach allows a more reliable assessment of therapy response than the conventional method of manual measurement. We were able to improve the reliability of the assessment by 36 percent. This can be crucial for the image-based assessment of therapy efficacy in . The prediction of overall survival was also more precise with our new method," explains Kickingereder.

The goal of the Heidelberg physicians and scientists is to use the promising technology for the standardized and fully automated assessment of the therapy response of brain tumors as quickly as possible in and, in future, also in clinical routine. In addition, the researchers designed and evaluated a software infrastructure that enables the complete integration of the new technique into existing radiological infrastructure. "In this way, we are creating the prerequisites for broad application and fully automated processing and analysis of MRI scans of brain tumors within a few minutes," explains Klaus Maier-Hein.

The new technology is currently being re-evaluated at the NCT Heidelberg as part of a clinical study to improve the treatment of glioblastoma patients. "For precision therapies, a standardized and reliable assessment of the effectiveness of the new treatment approaches is of outstanding importance. The technology we have developed may be able to make a decisive contribution here," explains Wolfgang Wick.

"With this study, we were able to demonstrate the great potential of artificial neural networks in radiological diagnostics," summarizes Philipp Kickingereder. "In the future, we want to advance the technology for automated high-throughput analysis of medical image data and transfer it not only to brain tumors but also to other diseases such as brain metastases or multiple sclerosis," adds Klaus Maier Hein.


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More information: Philipp Kickingereder et al, Automated quantitative tumour response assessment of MRI in neuro-oncology with artificial neural networks: a multicentre, retrospective study, The Lancet Oncology (2019). DOI: 10.1016/S1470-2045(19)30098-1
Journal information: Lancet Oncology

Citation: Artificial intelligence to assess treatment response of brain tumors (2019, April 3) retrieved 18 July 2019 from https://medicalxpress.com/news/2019-04-artificial-intelligence-treatment-response-brain.html
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