Artificial intelligence and radiomics in evaluation of kidney lesions: a comprehensive literature review

Matteo Ferro; Felice Crocetto; Biagio Barone; Francesco del Giudice; Martina Maggi; Giuseppe Lucarelli; Gian Maria Busetto; Riccardo Autorino; Michele Marchioni; Francesco Cantiello; Fabio Crocerossa; Stefano Luzzago; Mattia Piccinelli; Francesco Alessandro Mistretta; Marco Tozzi; Luigi Schips; Ugo Giovanni Falagario; Alessandro Veccia; Mihai Dorin Vartolomei; Gennaro Musi; Ottavio de Cobelli; Emanuele Montanari; Octavian Sabin Tătaru

doi:10.1177/17562872231164803

Therapeutic Advances in Urology (Apr 2023)

Artificial intelligence and radiomics in evaluation of kidney lesions: a comprehensive literature review

Matteo Ferro,
Felice Crocetto,
Biagio Barone,
Francesco del Giudice,
Martina Maggi,
Giuseppe Lucarelli,
Gian Maria Busetto,
Riccardo Autorino,
Michele Marchioni,
Francesco Cantiello,
Fabio Crocerossa,
Stefano Luzzago,
Mattia Piccinelli,
Francesco Alessandro Mistretta,
Marco Tozzi,
Luigi Schips,
Ugo Giovanni Falagario,
Alessandro Veccia,
Mihai Dorin Vartolomei,
Gennaro Musi,
Ottavio de Cobelli,
Emanuele Montanari,
Octavian Sabin Tătaru

Affiliations

Matteo Ferro
Felice Crocetto
Biagio Barone
Francesco del Giudice
Martina Maggi
Giuseppe Lucarelli
Gian Maria Busetto
Riccardo Autorino
Michele Marchioni
Francesco Cantiello
Fabio Crocerossa
Stefano Luzzago
Mattia Piccinelli
Francesco Alessandro Mistretta
Marco Tozzi
Luigi Schips
Ugo Giovanni Falagario
Alessandro Veccia
Mihai Dorin Vartolomei
Gennaro Musi
Ottavio de Cobelli
Emanuele Montanari
Octavian Sabin Tătaru

DOI: https://doi.org/10.1177/17562872231164803
Journal volume & issue: Vol. 15

Abstract

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Radiomics and artificial intelligence (AI) may increase the differentiation of benign from malignant kidney lesions, differentiation of angiomyolipoma (AML) from renal cell carcinoma (RCC), differentiation of oncocytoma from RCC, differentiation of different subtypes of RCC, to predict Fuhrman grade, to predict gene mutation through molecular biomarkers and to predict treatment response in metastatic RCC undergoing immunotherapy. Neural networks analyze imaging data. Statistical, geometrical, textural features derived are giving quantitative data of contour, internal heterogeneity and gray zone features of lesions. A comprehensive literature review was performed, until July 2022. Studies investigating the diagnostic value of radiomics in differentiation of renal lesions, grade prediction, gene alterations, molecular biomarkers and ongoing clinical trials have been analyzed. The application of AI and radiomics could lead to improved sensitivity, specificity, accuracy in detecting and differentiating between renal lesions. Standardization of scanner protocols will improve preoperative differentiation between benign, low-risk cancers and clinically significant renal cancers and holds the premises to enhance the diagnostic ability of imaging tools to characterize renal lesions.

Published in Therapeutic Advances in Urology

ISSN: 1756-2872 (Print); 1756-2880 (Online)
Publisher: SAGE Publishing
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Diseases of the genitourinary system. Urology
Website: https://journals.sagepub.com/home/tau

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