Independent real-world application of a clinical-grade automated prostate cancer detection system

Leonard M. da Silva; Emilio M. Pereira; Paulo G.O. Salles; Ran Godrich; Rodrigo Ceballos; Jeremy D. Kunz; Adam Casson; Julian Viret; Sarat Chandarlapaty; Carlos Gil Ferreira; Bruno Ferrari; Brandon Rothrock; Patricia Raciti; Victor Reuter; Belma Dogdas; George DeMuth; Jillian Sue; Christopher Kanan; Leo Grady; Thomas J. Fuchs; Jorge S. Reis-Filho

doi:10.1002/path.5662

Independent real-world application of a clinical-grade automated prostate cancer detection system

Leonard M. da Silva, Emilio M. Pereira, Paulo G.O. Salles, Ran Godrich, Rodrigo Ceballos, Jeremy D. Kunz, Adam Casson, Julian Viret, Sarat Chandarlapaty, Carlos Gil Ferreira, Bruno Ferrari, Brandon Rothrock, Patricia Raciti, Victor Reuter, Belma Dogdas, George DeMuth, Jillian Sue, Christopher Kanan, Leo Grady, Thomas J. FuchsJorge S. Reis-Filho

Research output: Contribution to journal › Article › peer-review

101 Scopus citations

Abstract

Artificial intelligence (AI)-based systems applied to histopathology whole-slide images have the potential to improve patient care through mitigation of challenges posed by diagnostic variability, histopathology caseload, and shortage of pathologists. We sought to define the performance of an AI-based automated prostate cancer detection system, Paige Prostate, when applied to independent real-world data. The algorithm was employed to classify slides into two categories: benign (no further review needed) or suspicious (additional histologic and/or immunohistochemical analysis required). We assessed the sensitivity, specificity, positive predictive values (PPVs), and negative predictive values (NPVs) of a local pathologist, two central pathologists, and Paige Prostate in the diagnosis of 600 transrectal ultrasound-guided prostate needle core biopsy regions (‘part-specimens’) from 100 consecutive patients, and to ascertain the impact of Paige Prostate on diagnostic accuracy and efficiency. Paige Prostate displayed high sensitivity (0.99; CI 0.96–1.0), NPV (1.0; CI 0.98–1.0), and specificity (0.93; CI 0.90–0.96) at the part-specimen level. At the patient level, Paige Prostate displayed optimal sensitivity (1.0; CI 0.93–1.0) and NPV (1.0; CI 0.91–1.0) at a specificity of 0.78 (CI 0.64–0.89). The 27 part-specimens considered by Paige Prostate as suspicious, whose final diagnosis was benign, were found to comprise atrophy (n = 14), atrophy and apical prostate tissue (n = 1), apical/benign prostate tissue (n = 9), adenosis (n = 2), and post-atrophic hyperplasia (n = 1). Paige Prostate resulted in the identification of four additional patients whose diagnoses were upgraded from benign/suspicious to malignant. Additionally, this AI-based test provided an estimated 65.5% reduction of the diagnostic time for the material analyzed. Given its optimal sensitivity and NPV, Paige Prostate has the potential to be employed for the automated identification of patients whose histologic slides could forgo full histopathologic review. In addition to providing incremental improvements in diagnostic accuracy and efficiency, this AI-based system identified patients whose prostate cancers were not initially diagnosed by three experienced histopathologists.

Original language	English
Pages (from-to)	147-158
Number of pages	12
Journal	Journal of Pathology
Volume	254
Issue number	2
DOIs	https://doi.org/10.1002/path.5662
State	Published - Jun 2021
Externally published	Yes

Keywords

artificial intelligence
deep learning
diagnosis
diagnosis
histopathology
machine learning
prostate cancer
screening

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10.1002/path.5662

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da Silva, L. M., Pereira, E. M., Salles, P. G. O., Godrich, R., Ceballos, R., Kunz, J. D., Casson, A., Viret, J., Chandarlapaty, S., Ferreira, C. G., Ferrari, B., Rothrock, B., Raciti, P., Reuter, V., Dogdas, B., DeMuth, G., Sue, J., Kanan, C., Grady, L., ... Reis-Filho, J. S. (2021). Independent real-world application of a clinical-grade automated prostate cancer detection system. Journal of Pathology, 254(2), 147-158. https://doi.org/10.1002/path.5662

@article{911a3b085a044d019cd92df133b652e5,

title = "Independent real-world application of a clinical-grade automated prostate cancer detection system",

abstract = "Artificial intelligence (AI)-based systems applied to histopathology whole-slide images have the potential to improve patient care through mitigation of challenges posed by diagnostic variability, histopathology caseload, and shortage of pathologists. We sought to define the performance of an AI-based automated prostate cancer detection system, Paige Prostate, when applied to independent real-world data. The algorithm was employed to classify slides into two categories: benign (no further review needed) or suspicious (additional histologic and/or immunohistochemical analysis required). We assessed the sensitivity, specificity, positive predictive values (PPVs), and negative predictive values (NPVs) of a local pathologist, two central pathologists, and Paige Prostate in the diagnosis of 600 transrectal ultrasound-guided prostate needle core biopsy regions ({\textquoteleft}part-specimens{\textquoteright}) from 100 consecutive patients, and to ascertain the impact of Paige Prostate on diagnostic accuracy and efficiency. Paige Prostate displayed high sensitivity (0.99; CI 0.96–1.0), NPV (1.0; CI 0.98–1.0), and specificity (0.93; CI 0.90–0.96) at the part-specimen level. At the patient level, Paige Prostate displayed optimal sensitivity (1.0; CI 0.93–1.0) and NPV (1.0; CI 0.91–1.0) at a specificity of 0.78 (CI 0.64–0.89). The 27 part-specimens considered by Paige Prostate as suspicious, whose final diagnosis was benign, were found to comprise atrophy (n = 14), atrophy and apical prostate tissue (n = 1), apical/benign prostate tissue (n = 9), adenosis (n = 2), and post-atrophic hyperplasia (n = 1). Paige Prostate resulted in the identification of four additional patients whose diagnoses were upgraded from benign/suspicious to malignant. Additionally, this AI-based test provided an estimated 65.5% reduction of the diagnostic time for the material analyzed. Given its optimal sensitivity and NPV, Paige Prostate has the potential to be employed for the automated identification of patients whose histologic slides could forgo full histopathologic review. In addition to providing incremental improvements in diagnostic accuracy and efficiency, this AI-based system identified patients whose prostate cancers were not initially diagnosed by three experienced histopathologists.",

keywords = "artificial intelligence, deep learning, diagnosis, diagnosis, histopathology, machine learning, prostate cancer, screening",

author = "{da Silva}, {Leonard M.} and Pereira, {Emilio M.} and Salles, {Paulo G.O.} and Ran Godrich and Rodrigo Ceballos and Kunz, {Jeremy D.} and Adam Casson and Julian Viret and Sarat Chandarlapaty and Ferreira, {Carlos Gil} and Bruno Ferrari and Brandon Rothrock and Patricia Raciti and Victor Reuter and Belma Dogdas and George DeMuth and Jillian Sue and Christopher Kanan and Leo Grady and Fuchs, {Thomas J.} and Reis-Filho, {Jorge S.}",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors. The Journal of Pathology published by John Wiley & Sons, Ltd. on behalf of The Pathological Society of Great Britain and Ireland.",

year = "2021",

month = jun,

doi = "10.1002/path.5662",

language = "English",

volume = "254",

pages = "147--158",

journal = "Journal of Pathology",

issn = "0022-3417",

publisher = "John Wiley and Sons Ltd",

number = "2",

}

da Silva, LM, Pereira, EM, Salles, PGO, Godrich, R, Ceballos, R, Kunz, JD, Casson, A, Viret, J, Chandarlapaty, S, Ferreira, CG, Ferrari, B, Rothrock, B, Raciti, P, Reuter, V, Dogdas, B, DeMuth, G, Sue, J, Kanan, C, Grady, L, Fuchs, TJ & Reis-Filho, JS 2021, 'Independent real-world application of a clinical-grade automated prostate cancer detection system', Journal of Pathology, vol. 254, no. 2, pp. 147-158. https://doi.org/10.1002/path.5662

TY - JOUR

T1 - Independent real-world application of a clinical-grade automated prostate cancer detection system

AU - da Silva, Leonard M.

AU - Pereira, Emilio M.

AU - Salles, Paulo G.O.

AU - Godrich, Ran

AU - Ceballos, Rodrigo

AU - Kunz, Jeremy D.

AU - Casson, Adam

AU - Viret, Julian

AU - Chandarlapaty, Sarat

AU - Ferreira, Carlos Gil

AU - Ferrari, Bruno

AU - Rothrock, Brandon

AU - Raciti, Patricia

AU - Reuter, Victor

AU - Dogdas, Belma

AU - DeMuth, George

AU - Sue, Jillian

AU - Kanan, Christopher

AU - Grady, Leo

AU - Fuchs, Thomas J.

AU - Reis-Filho, Jorge S.

PY - 2021/6

Y1 - 2021/6

N2 - Artificial intelligence (AI)-based systems applied to histopathology whole-slide images have the potential to improve patient care through mitigation of challenges posed by diagnostic variability, histopathology caseload, and shortage of pathologists. We sought to define the performance of an AI-based automated prostate cancer detection system, Paige Prostate, when applied to independent real-world data. The algorithm was employed to classify slides into two categories: benign (no further review needed) or suspicious (additional histologic and/or immunohistochemical analysis required). We assessed the sensitivity, specificity, positive predictive values (PPVs), and negative predictive values (NPVs) of a local pathologist, two central pathologists, and Paige Prostate in the diagnosis of 600 transrectal ultrasound-guided prostate needle core biopsy regions (‘part-specimens’) from 100 consecutive patients, and to ascertain the impact of Paige Prostate on diagnostic accuracy and efficiency. Paige Prostate displayed high sensitivity (0.99; CI 0.96–1.0), NPV (1.0; CI 0.98–1.0), and specificity (0.93; CI 0.90–0.96) at the part-specimen level. At the patient level, Paige Prostate displayed optimal sensitivity (1.0; CI 0.93–1.0) and NPV (1.0; CI 0.91–1.0) at a specificity of 0.78 (CI 0.64–0.89). The 27 part-specimens considered by Paige Prostate as suspicious, whose final diagnosis was benign, were found to comprise atrophy (n = 14), atrophy and apical prostate tissue (n = 1), apical/benign prostate tissue (n = 9), adenosis (n = 2), and post-atrophic hyperplasia (n = 1). Paige Prostate resulted in the identification of four additional patients whose diagnoses were upgraded from benign/suspicious to malignant. Additionally, this AI-based test provided an estimated 65.5% reduction of the diagnostic time for the material analyzed. Given its optimal sensitivity and NPV, Paige Prostate has the potential to be employed for the automated identification of patients whose histologic slides could forgo full histopathologic review. In addition to providing incremental improvements in diagnostic accuracy and efficiency, this AI-based system identified patients whose prostate cancers were not initially diagnosed by three experienced histopathologists.

AB - Artificial intelligence (AI)-based systems applied to histopathology whole-slide images have the potential to improve patient care through mitigation of challenges posed by diagnostic variability, histopathology caseload, and shortage of pathologists. We sought to define the performance of an AI-based automated prostate cancer detection system, Paige Prostate, when applied to independent real-world data. The algorithm was employed to classify slides into two categories: benign (no further review needed) or suspicious (additional histologic and/or immunohistochemical analysis required). We assessed the sensitivity, specificity, positive predictive values (PPVs), and negative predictive values (NPVs) of a local pathologist, two central pathologists, and Paige Prostate in the diagnosis of 600 transrectal ultrasound-guided prostate needle core biopsy regions (‘part-specimens’) from 100 consecutive patients, and to ascertain the impact of Paige Prostate on diagnostic accuracy and efficiency. Paige Prostate displayed high sensitivity (0.99; CI 0.96–1.0), NPV (1.0; CI 0.98–1.0), and specificity (0.93; CI 0.90–0.96) at the part-specimen level. At the patient level, Paige Prostate displayed optimal sensitivity (1.0; CI 0.93–1.0) and NPV (1.0; CI 0.91–1.0) at a specificity of 0.78 (CI 0.64–0.89). The 27 part-specimens considered by Paige Prostate as suspicious, whose final diagnosis was benign, were found to comprise atrophy (n = 14), atrophy and apical prostate tissue (n = 1), apical/benign prostate tissue (n = 9), adenosis (n = 2), and post-atrophic hyperplasia (n = 1). Paige Prostate resulted in the identification of four additional patients whose diagnoses were upgraded from benign/suspicious to malignant. Additionally, this AI-based test provided an estimated 65.5% reduction of the diagnostic time for the material analyzed. Given its optimal sensitivity and NPV, Paige Prostate has the potential to be employed for the automated identification of patients whose histologic slides could forgo full histopathologic review. In addition to providing incremental improvements in diagnostic accuracy and efficiency, this AI-based system identified patients whose prostate cancers were not initially diagnosed by three experienced histopathologists.

KW - artificial intelligence

KW - deep learning

KW - diagnosis

KW - histopathology

KW - machine learning

KW - prostate cancer

KW - screening

UR - http://www.scopus.com/inward/record.url?scp=85104836872&partnerID=8YFLogxK

U2 - 10.1002/path.5662

DO - 10.1002/path.5662

M3 - Article

C2 - 33904171

AN - SCOPUS:85104836872

SN - 0022-3417

VL - 254

SP - 147

EP - 158

JO - Journal of Pathology

JF - Journal of Pathology

IS - 2

ER -

Independent real-world application of a clinical-grade automated prostate cancer detection system

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Keywords

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