Automated Detection of Focal Bone Marrow Lesions From MRI: A Multi-center Feasibility Study in Patients with Monoclonal Plasma Cell Disorders.

Wennmann, Markus; Hoffmann, Martin; Martinez Mora, Andres; Nonnenmacher, Tobias; Mahnken, Andreas H; Riebl, Veronika; von Salomon, Arvin; Neher, Peter; Schlemmer, Heinz-Peter; Bujotzek, Markus; Mokry, Theresa; Weinhold, Niels; Ringelstein, Adrian; Mann, Christoph; Besemer, Britta; Fedders, Dieter; Maier-Hein, Klaus; Weber, Tim Frederik; Rotkopf, Lukas Thomas; Antoch, Gerald; Hielscher, Thomas; Hänel, Mathias; Grözinger, Martin; Raab, Marc-Steffen; Delorme, Stefan; Goldschmidt, Hartmut; Zhang, Kevin Sun; Fenk, Roland; Xiao, Shuhan; Bauer, Fabian; Hajiyianni, Marina; Kächele, Jessica; Graeven, Ullrich; Afat, Saif; Mai, Elias Karl; Menis, Ekaterina

doi:10.1016/j.acra.2025.06.034

%0 Journal Article
%A Wennmann, Markus
%A Kächele, Jessica
%A von Salomon, Arvin
%A Nonnenmacher, Tobias
%A Bujotzek, Markus
%A Xiao, Shuhan
%A Martinez Mora, Andres
%A Hielscher, Thomas
%A Hajiyianni, Marina
%A Menis, Ekaterina
%A Grözinger, Martin
%A Bauer, Fabian
%A Riebl, Veronika
%A Rotkopf, Lukas Thomas
%A Zhang, Kevin Sun
%A Afat, Saif
%A Besemer, Britta
%A Hoffmann, Martin
%A Ringelstein, Adrian
%A Graeven, Ullrich
%A Fedders, Dieter
%A Hänel, Mathias
%A Antoch, Gerald
%A Fenk, Roland
%A Mahnken, Andreas H
%A Mann, Christoph
%A Mokry, Theresa
%A Raab, Marc-Steffen
%A Weinhold, Niels
%A Mai, Elias Karl
%A Goldschmidt, Hartmut
%A Weber, Tim Frederik
%A Delorme, Stefan
%A Neher, Peter
%A Schlemmer, Heinz-Peter
%A Maier-Hein, Klaus
%T Automated Detection of Focal Bone Marrow Lesions From MRI: A Multi-center Feasibility Study in Patients with Monoclonal Plasma Cell Disorders.
%J Academic radiology
%V nn
%@ 1076-6332
%C Philadelphia, PA [u.a.]
%I Elsevier
%M DKFZ-2025-01372
%P nn
%D 2025
%Z #EA:E010#LA:E010#LA:E230# / epub
%X To train and test an AI-based algorithm for automated detection of focal bone marrow lesions (FL) from MRI.This retrospective feasibility study included 444 patients with monoclonal plasma cell disorders. For this feasibility study, only FLs in the left pelvis were included. Using the nnDetection framework, the algorithm was trained based on 334 patients with 494 FLs from center 1, and was tested on an internal test set (36 patients, 89 FLs, center 1) and a multicentric external test set (74 patients, 262 FLs, centers 2-11). Mean average precision (mAP), F1-score, sensitivity, positive predictive value (PPV), and Spearman correlation coefficient between automatically determined and actual number of FLs were calculated.On the internal/external test set, the algorithm achieved a mAP of 0.44/0.34, F1-Score of 0.54/0.44, sensitivity of 0.49/0.34, and a PPV of 0.61/0.61, respectively. In two subsets of the external multicentric test set with high imaging quality, the performance nearly matched that of the internal test set, with mAP of 0.45/0.41, F1-Score of 0.50/0.53, sensitivity of 0.44/0.43, and a PPV of 0.60/0.71, respectively. There was a significant correlation between the automatically determined and actual number of FLs on both the internal (r=0.51, p=0.001) and external multicentric test set (r=0.59, p<0.001).This study demonstrates that the automated detection of FLs from MRI, and thereby the automated assessment of the number of FLs, is feasible.
%K AI (Other)
%K Detection (Other)
%K Focal lesions (Other)
%K Monoclonal plasma cell disorders (Other)
%K Multicenter (Other)
%F PUB:(DE-HGF)16
%9 Journal Article
%$ pmid:40640054
%R 10.1016/j.acra.2025.06.034
%U https://inrepo02.dkfz.de/record/302832

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