Meghan G. Lubner scite author profile

This review discusses potential oncologic and nononcologic applications of CT texture analysis ( CTTA CT texture analysis ), an emerging area of "radiomics" that extracts, analyzes, and interprets quantitative imaging features. CTTA CT texture analysis allows objective assessment of lesion and organ heterogeneity beyond what is possible with subjective visual interpretation and may reflect information about the tissue microenvironment. CTTA CT texture analysis has shown promise in lesion characterization, such as differentiating benign from malignant or more biologically aggressive lesions. Pretreatment CT texture features are associated with histopathologic correlates such as tumor grade, tumor cellular processes such as hypoxia or angiogenesis, and genetic features such as KRAS or epidermal growth factor receptor (EGFR) mutation status. In addition, and likely as a result, these CT texture features have been linked to prognosis and clinical outcomes in some tumor types. CTTA CT texture analysis has also been used to assess response to therapy, with decreases in tumor heterogeneity generally associated with pathologic response and improved outcomes. A variety of nononcologic applications of CTTA CT texture analysis are emerging, particularly quantifying fibrosis in the liver and lung. Although CTTA CT texture analysis seems to be a promising imaging biomarker, there is marked variability in methods, parameters reported, and strength of associations with biologic correlates. Before CTTA CT texture analysis can be considered for widespread clinical implementation, standardization of tumor segmentation and measurement techniques, image filtration and postprocessing techniques, and methods for mathematically handling multiple tumors and time points is needed, in addition to identification of key texture parameters among hundreds of potential candidates, continued investigation and external validation of histopathologic correlates, and structured reporting of findings. RSNA, 2017.

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Inflammatory Pseudotumor: The Great Mimicker

Patnana

Sevrukov

Elsayes

et al. 2012

American Journal of Roentgenology

315

379

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Microwave Tumor Ablation: Mechanism of Action, Clinical Results, and Devices

Lubner

Brace

Hinshaw

et al. 2010

Journal of Vascular and Interventional Radiology

619

383

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Meghan G. Lubner

CT Texture Analysis: Definitions, Applications, Biologic Correlates, and Challenges

Inflammatory Pseudotumor: The Great Mimicker

Microwave Tumor Ablation: Mechanism of Action, Clinical Results, and Devices

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