Towards a modular decision support system for radiomics: A case study on rectal cancer

Gatta, Roberto; Vallati, Mauro; Dinapoli, N.; Masciocchi, C.; Lenkowicz, Jacopo; Cusumano, D.; Casà, Calogero; Farchione, Alessandra; Damiani, Andrea; Soest, Johan van; Dekker, André; Valentini, Vincenzo

doi:10.1016/j.artmed.2018.09.003

Cited by 35 publications

(41 citation statements)

References 26 publications

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“…The extraction of dosiomic features was centralised and carried out by a specific routine in the MODDICOM library, a free software package developed in R language optimised for automatic loading of DICOM images and radiomic analysis [28]. A specific routine for dose distribution texture analysis was realised for the purpose of this study, loading and processing the required DICOM dataset (planning CT, RT-Structure and RT-Dose).…”

Section: Extraction Of Dosiomic Featuresmentioning

confidence: 99%

A Multicentre Evaluation of Dosiomics Features Reproducibility, Stability and Sensitivity

Placidi

Gioscio

Garibaldi

et al. 2021

Cancers

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Dosiomics is a texture analysis method to produce dose features that encode the spatial 3D distribution of radiotherapy dose. Dosiomic studies, in a multicentre setting, require assessing the features’ stability to dose calculation settings and the features’ capability in distinguishing different dose distributions. Dose distributions were generated by eight Italian centres on a shared image dataset acquired on a dedicated phantom. Treatment planning protocols, in terms of planning target volume coverage and dose–volume constraints to the organs at risk, were shared among the centres to produce comparable dose distributions for measuring reproducibility/stability and sensitivity of dosiomic features. In addition, coefficient of variation (CV) was employed to evaluate the dosiomic features’ variation. We extracted 38,160 features from 30 different dose distributions from six regions of interest, grouped by four features’ families. A selected group of features (CV < 3 for the reproducibility/stability studies, CV > 1 for the sensitivity studies) were identified to support future multicentre studies, assuring both stable features when dose distributions variation is minimal and sensitive features when dose distribution variations need to be clearly identified. Dosiomic is a promising tool that could support multicentre studies, especially for predictive models, and encode the spatial and statistical characteristics of the 3D dose distribution.

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Section: Extraction Of Dosiomic Featuresmentioning

confidence: 99%

A Multicentre Evaluation of Dosiomics Features Reproducibility, Stability and Sensitivity

Placidi

Gioscio

Garibaldi

et al. 2021

Cancers

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“…The DICOM files were imported in Moddicom, an R package (R Core Team, Vienna, Austria) designed for radiomics analyses of biomedical images [27,28]. All the images were resampled to a spatial planar resolution of 0.7 × 0.7 mm 2 prior to their quantitative analysis.…”

Section: Image Analysismentioning

confidence: 99%

A field strength independent MR radiomics model to predict pathological complete response in locally advanced rectal cancer

et al. 2020

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Purpose Aim of this study was to develop a generalised radiomics model for predicting pathological complete response after neoadjuvant chemo-radiotherapy in locally advanced rectal cancer patients using pre-CRT T2-weighted images acquired at a 1.5 T and a 3 T scanner. Methods In two institutions, 195 patients were scanned: 136 patients were scanned on a 1.5 T MR scanner, 59 patients on a 3 T MR scanner. Gross tumour volumes were delineated on the MR images and 496 radiomic features were extracted, applying the intensity-based (IB) filter. Features were standardised with Z-score normalisation and an initial feature selection was carried out using Wilcoxon-Mann-Whitney test: The most significant features at 1.5 T and 3 T were selected as main features. Several logistic regression models combining the main features with a third one selected by those resulting significant were elaborated and evaluated in terms of area under curve (AUC). A tenfold cross-validation was repeated 300 times to evaluate the model robustness. Results Three features were selected: maximum fractal dimension with IB = 0-50, energy and grey-level non-uniformity calculated on the run-length matrix with IB = 0-50. The AUC of the model applied to the whole dataset after cross-validation was 0.72, while values of 0.70 and 0.83 were obtained when 1.5 T and 3 T patients were considered, respectively. Conclusions The model elaborated showed good performance, even when data from patients scanned on 1.5 T and 3 T were merged. This shows that magnetic field intensity variability can be overcome by means of selecting appropriate image features.

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“…Secondly, we plan to extend our analysis to different departments, in order to evaluate how general the presented results are. Thirdly, we are interested in evaluating whether sharing information between departments of different hospitals can help improving the performance of predictors, by leveraging on privacy-preserving approaches [6].Finally, we will focus on approaches aimed at integrating the strengths of machine learning with the capabilities of human experts, possibly using an overarching framework that encompasses all the relevant steps of the process [8].…”

Section: Discussionmentioning

confidence: 99%

An Empirical Analysis of Predictors for Workload Estimation in Healthcare

Gatta

Vallati

Pirola

et al. 2020

Lecture Notes in Computer Science

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The limited availability of resources makes the resource allocation strategy a pivotal aspect for every clinical department. Allocation is usually done on the basis of a workload estimation, which is performed by human experts. Experts have to dedicate a significant amount of time to the workload estimation, and the usefulness of estimations depends on the expert's ability to understand very different conditions and situations. Machine learning-based predictors can help in reduce the burden on human experts, and can provide some guarantees at least in terms of repeatability of the delivered performance. However, it is unclear how good their estimations would be, compared to those of experts.In this paper we address this question by exploiting 6 algorithms for estimating the workload of future activities of a real-world department. Results suggest that this is a promising avenue for future investigations aimed to optimising the use of resources of clinical departments.

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Towards a modular decision support system for radiomics: A case study on rectal cancer

Cited by 35 publications

References 26 publications

A Multicentre Evaluation of Dosiomics Features Reproducibility, Stability and Sensitivity

A Multicentre Evaluation of Dosiomics Features Reproducibility, Stability and Sensitivity

A field strength independent MR radiomics model to predict pathological complete response in locally advanced rectal cancer

An Empirical Analysis of Predictors for Workload Estimation in Healthcare

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