ESTRO 2022

Session Item

Imaging acquisition and processing

Session Code: 7000

Session Type: Poster (digital)

Track: Physics

Automated stability study on mpMRI prostate radiomics features to variations in segmentation

Sithin Thulasi Seetha, Italy

Presentation Number: PO-1595

Abstract

Abstract Title:

Automated stability study on mpMRI prostate radiomics features to variations in segmentation

Authors:

Sithin Thulasi Seetha^1,2, Enrico Garanzini³, Antonella Messina³, Chiara Tenconi⁴, Cristina Marenghi², Barbara Avuzzi⁵, Mario Catanzaro⁶, Silvia Stagni⁶, Sergio Villa⁵, Barbara Noris Chiorda⁵, Fabio Badenchini², Janarthan Panchakumar⁷, Elena Bertocchi², Emanuele Pignoli⁴, Riccardo Valdagni^2,5,8, Alessandra Casale³, Nicola Nicolai⁶, Tiziana Rancati²

¹GROW - School for Oncology and Developmental Biology, Maastricht University, Precision Medicine, Faculty of Health, Medicine and Life Sciences, Maastricht, The Netherlands; ²Fondazione IRCCS Istituto Nazionale dei Tumori, Prostate Cancer Program, Milan, Italy; ³Fondazione IRCCS Istituto Nazionale dei Tumori, Unit of Radiology, Milan, Italy; ⁴Fondazione IRCCS Istituto Nazionale dei Tumori, Unit of Medical Physics, Milan, Italy; ⁵Fondazione IRCCS Istituto Nazionale dei Tumori, Unit of Urology, Milan, Italy; ⁶Fondazione IRCCS Istituto Nazionale dei Tumori, Unit of Radiation Oncology 1, Milan, Italy; ⁷Politecnico di Milano, Dept. of Bioengineering, Milan, Italy; ⁸Università degli Studi di Milano, Dept. of Oncology and Hemato-oncology, Milan, Italy

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Purpose or Objective

To propose a novel method to evaluate the stability of radiomic features (RFs) extracted from multiparametric (mp)MRI sequences to variations in segmentation using in-silico contour generation. We applied the process to the whole prostate region. The stable RFs identified are then used to extract a robust subset of radiomic features.

Material and Methods

To evaluate the stability of RFs to variations in segmentation, we simulated various under- and/or over-segmentation scenarios commonly seen in clinical practice using the principle of data augmentation in deep learning. The overall workflow is illustrated in Figure 1.a. The manual delineation by a single radiologist was perturbed using geometric transformations such as rotation, scaling, and shifting to generate the synthetic segmentations. We considered 3 categories of augmentations (in-plane, out-plane, and in&out-plane) and 2 types of biases (random and systematic) as part of the study (see Fig. 2 for definitions). T2w, ADC, and DCE-SUB sequences with delineated whole prostate were considered as part of the investigation. We extracted 1595 RFs (using Pyradiomics) from each image sequence-segmentation pair. We used a wide range of filters such as LoG, wavelet, squared, square root, logarithm, and exponential filters to see the impact of various filtering strategies on the stability of RFs.

Fig. 1.b summarizes the datasets used in this study. We used the internal population to identify the stable RFs, while we used the external set to select the robust subset of RFs (by considering the overlap). We chose the intraclass correlation coefficient, ICC(1,1), to assess the stability of RFs, and we considered a feature as stable if the lower bound associated with the 95% CI of the ICC estimate had a value ≥ 0.90.

Results

Here, the results are simplified to present only the best filter (or non-filter) that led to the maximum number of stable and robust RFs (different filters for different RFs families). Table 2 summarizes the percentage of best-filtered stable & robust RFs derived from T2w, ADC, and DCE-SUB maps.

Augmentation Scenario	% of stable features (% of robust features)
Augmentation Scenario	T2w	ADC	SUBwash-in	SUBwash-out
in-plane-random	99.06 (81.31)	98.13 (98.13)	97.20 (95.33)	98.13 (96.26)
in-plane-systematic	98.13 (48.60)	98.13 (90.65)	97.20 (94.39)	98.13 (97.20)
out-plane	100 (97.20)	100 (86.91)	100 (98.13)	100 (98.13)
in&out-plane-random	98.13 (79.44)	98.13 (82.24)	97.20 (92.52)	98.13 (95.33)
in&out-plane-systematic	98.13 (50.47)	97.20 (73.83)	96.26 (90.65)	97.20 (90.65)

Conclusion

Variations in segmentation impact the stability of RFs. We propose a novel method that can be easily integrated into any pipeline, which can be used to identify RFs stable to such variability. Since this is a fully automated method, it avoids the need for multiple radiologists to annotate the dataset. The robust subset of features identified can be considered for further modeling or analysis.