Validation of deep learning techniques for quality augmentation in diffusion MRI for clinical studies
[Display omitted] •14 different AI methods were analyzed: 4 did not show any improvement; 6 methods improved over 25%.•Most methods showed a constant growth rate of false positives proportional to the new true positives.•Metrics based on visual quality or errors are inadequate for evaluating AI reco...
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Veröffentlicht in: | NeuroImage clinical 2023-01, Vol.39, p.103483, Article 103483 |
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•14 different AI methods were analyzed: 4 did not show any improvement; 6 methods improved over 25%.•Most methods showed a constant growth rate of false positives proportional to the new true positives.•Metrics based on visual quality or errors are inadequate for evaluating AI reconstructed data.•Caution is recommended when using DL for quality augmentation on clinical studies with MRI.
The objective of this study is to evaluate the efficacy of deep learning (DL) techniques in improving the quality of diffusion MRI (dMRI) data in clinical applications. The study aims to determine whether the use of artificial intelligence (AI) methods in medical images may result in the loss of critical clinical information and/or the appearance of false information. To assess this, the focus was on the angular resolution of dMRI and a clinical trial was conducted on migraine, specifically between episodic and chronic migraine patients. The number of gradient directions had an impact on white matter analysis results, with statistically significant differences between groups being drastically reduced when using 21 gradient directions instead of the original 61. Fourteen teams from different institutions were tasked to use DL to enhance three diffusion metrics (FA, AD and MD) calculated from data acquired with 21 gradient directions and a b-value of 1000 s/mm2. The goal was to produce results that were comparable to those calculated from 61 gradient directions. The results were evaluated using both standard image quality metrics and Tract-Based Spatial Statistics (TBSS) to compare episodic and chronic migraine patients. The study results suggest that while most DL techniques improved the ability to detect statistical differences between groups, they also led to an increase in false positive. The results showed that there was a constant growth rate of false positives linearly proportional to the new true positives, which highlights the risk of generalization of AI-based tasks when assessing diverse clinical cohorts and training using data from a single group. The methods also showed divergent performance when replicating the original distribution of the data and some exhibited significant bias. In conclusion, extreme caution should be exercised when using AI methods for harmonization or synthesis in clinical studies when processing heterogeneous data in clinical studies, as important information may be altered, even when global metrics such as structural sim |
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ISSN: | 2213-1582 2213-1582 |
DOI: | 10.1016/j.nicl.2023.103483 |