Prediction of chemotherapy response in primary osteosarcoma by use of the multifractal analysis of magnetic resonance images

Background: Due to the high level of cytogenetic heterogeneity in osteosarcoma, personalized treatment is the promising strategy
for the improvement in outcomes. This is currently not possible due to the absence of targeted therapies and reliable predictors for
response to induction chemotherapy.
Objectives: To investigate the predictive value of computational analysis of osteosarcoma magnetic resonance (MR) images.
Methods: Multifractal analysis was performed on MR images of primary osteosarcoma of long tubular bones prior to OsteoSa induction chemotherapy. A total of 900 images derived from 67 good and poor responder patients were classified and compared to
the actual retrospective outcome.
Results: Among the six calculated multifractal features Dqmax exerted the highest predictive value with the prediction accuracy
of 74.3%, sensitivity of 72.4% and specificity of 76.2%. The obtained classification accuracy was validated by a ten V-fold split sample cross validation. The area under the curve (AUC) value for the best-performing multifractal Dqmax feature was 0.82 (CI95%, 0.70 -0.91).
Conclusions: These results suggest for the first time that measuring tumor structure by using multifractal geometry can predict an
individual patient response to neoadjuvant cytotoxic therapy. Therefore, it potentially allows precise implementation of alternative
treatment options. This predictive approach made use of digital data that is routinely collected but currently still underexploited.