Frank H. P. J. Raat scite author profile

Influence of gray level discretization on radiomic feature stability for different CT scanners, tube currents and slice thicknesses: a comprehensive phantom study, Acta Oncologica, 56:11, 1544-1553, DOI: 10.1080 Background: Radiomic analyses of CT images provide prognostic information that can potentially be used for personalized treatment. However, heterogeneity of acquisition-and reconstruction protocols influences robustness of radiomic analyses. The aim of this study was to investigate the influence of different CT-scanners, slice thicknesses, exposures and gray-level discretization on radiomic feature values and their stability. Material and methods: A texture phantom with ten different inserts was scanned on nine different CT-scanners with varying tube currents. Scans were reconstructed with 1.5 mm or 3 mm slice thickness. Image pre-processing comprised gray-level discretization in ten different bin widths ranging from 5 to 50 HU and different resampling methods (i.e., linear, cubic and nearest neighbor interpolation to 1 Â 1 Â 3 mm 3 voxels) were investigated. Subsequently, 114 textural radiomic features were extracted from a 2.1 cm 3 sphere in the center of each insert. The influence of slice thickness, exposure and bin width on feature values was investigated. Feature stability was assessed by calculating the concordance correlation coefficient (CCC) in a test-retest setting and for different combinations of scanners, tube currents and slice thicknesses. Results: Bin width influenced feature values, but this only had a marginal effect on the total number of stable features (CCC > 0.85) when comparing different scanners, slice thicknesses or exposures. Most radiomic features were affected by slice thickness, but this effect could be reduced by resampling the CT-images before feature extraction. Statistics feature 'energy' was the most dependent on slice thickness. No clear correlation between feature values and exposures was observed. Conclusions: CT-scanner, slice thickness and bin width affected radiomic feature values, whereas no effect of exposure was observed. Optimization of gray-level discretization to potentially improve prognostic value can be performed without compromising feature stability. Resampling images prior to feature extraction decreases the variability of radiomic features.

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The performance of contrast-enhanced mammography and breast MRI in local preoperative staging of invasive lobular breast cancer

Lobbes

Neeter

Raat

et al. 2023

European Journal of Radiology

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The Diagnostic Value of Contrast-enhanced 2D Mammography in Everyday Clinical use

Neeter

Raat

Meens-Koreman

et al. 2021

Preprint

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Contrast-enhanced mammography (CEM) has shown to be superior to full-field digital mammography (FFDM), but current results are dominated by studies performed on systems by one vendor. Information on diagnostic accuracy of other CEM systems is limited. Therefore, we aimed to evaluate the diagnostic performance of CEM on an alternative vendor’s system.We included all patients who underwent CEM in one hospital in 2019, except those with missing data or in whom CEM was used as response monitoring tool. Three experienced breast radiologists scored the low-energy images using the BI-RADS classification. Next, the complete CEM exams were scored similarly. Histopathological results or a minimum of one year follow-up were used as reference standard. Diagnostic performance and AUC were calculated and compared between low-energy images and the complete CEM examination , for all readers independently as well as combined. Breast cancer was diagnosed in 23% of the patients (35/152). Compared to low-energy images, overall CEM sensitivity increased from 74.3% to 87.6% (p<0.0001), specificity from 87.8% to 94.6% (p=0.0146). AUC increased from 0.872 to 0.957 (p=0.0001). Performing CEM on the system tested, showed that, similar to earlier studies mainly performed on another vendor’s systems, both sensitivity and specificity improved when compared to FFDM.

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Frank H. P. J. Raat

Influence of gray level discretization on radiomic feature stability for different CT scanners, tube currents and slice thicknesses: a comprehensive phantom study

The performance of contrast-enhanced mammography and breast MRI in local preoperative staging of invasive lobular breast cancer

The Diagnostic Value of Contrast-enhanced 2D Mammography in Everyday Clinical use

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