Cancer Detection Rate and Abnormal Interpretation Rate of Prostate MRI in Patients With Low-Grade Cancer

Hirotsugu Nakai; Hiroki Nagayama; Hiroaki Takahashi; Adam T. Froemming; Akira Kawashima; Candice W. Bolan; Daniel A. Adamo; Rickey E. Carter; Robert T. Fazzio; Shintaro Tsuji; Derek J. Lomas; Lance A. Mynderse; Mitchell R. Humphreys; Chandler Dora; Naoki Takahashi

doi:10.1016/j.jacr.2023.07.030

Cancer Detection Rate and Abnormal Interpretation Rate of Prostate MRI in Patients With Low-Grade Cancer

Hirotsugu Nakai, Hiroki Nagayama, Hiroaki Takahashi, Adam T. Froemming, Akira Kawashima, Candice W. Bolan, Daniel A. Adamo, Rickey E. Carter, Robert T. Fazzio, Shintaro Tsuji, Derek J. Lomas, Lance A. Mynderse, Mitchell R. Humphreys, Chandler Dora, Naoki Takahashi

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

Abstract

Purpose: The aim of this study was to evaluate the utility of cancer detection rate (CDR) and abnormal interpretation rate (AIR) in prostate MRI for patients with low-grade prostate cancer (PCa). Methods: This three-center retrospective study included patients who underwent prostate MRI from 2017 to 2021 with known low-grade PCa (Gleason score 6) without prior treatment. Patient-level highest Prostate Imaging Reporting & Data System (PI-RADS®) score and pathologic diagnosis within 1 year after MRI were used to evaluate the diagnostic performance of prostate MRI in detecting clinically significant PCa (csPCa; Gleason score ≥ 7). The metrics AIR, CDR, and CDR adjusted for pathologic confirmation rate were calculated. Radiologist-level AIR-CDR plots were shown. Simulation AIR-CDR lines were created to assess the effects of different diagnostic performances of prostate MRI and the prevalence of csPCa. Results: A total of 3,207 examinations were interpreted by 33 radiologists. Overall AIR, CDR, and CDR adjusted for pathologic confirmation rate at PI-RADS 3 to 5 (PI-RADS 4 and 5) were 51.7% (36.5%), 22.1% (18.8%), and 30.7% (24.6%), respectively. Radiologist-level AIR and CDR at PI-RADS 3 to 5 (PI-RADS 4 and 5) were in the 36.8% to 75.6% (21.9%-57.5%) range and the 16.3%-28.7% (10.9%-26.5%) range, respectively. In the simulation, changing parameters of diagnostic performance or csPCa prevalence shifted the AIR-CDR line. Conclusions: The authors propose CDR and AIR as performance metrics in prostate MRI and report reference performance values in patients with known low-grade PCa. There was variability in radiologist-level AIR and CDR. Combined use of AIR and CDR could provide meaningful feedback for radiologists to improve their performance by showing relative performance to other radiologists.

Original language	English (US)
Pages (from-to)	387-397
Number of pages	11
Journal	Journal of the American College of Radiology
Volume	21
Issue number	3
DOIs	https://doi.org/10.1016/j.jacr.2023.07.030
State	Published - Mar 2024

Keywords

PI-RADS
abnormal interpretation rate
cancer detection rate
performance metric
prostate cancer

ASJC Scopus subject areas

Radiology Nuclear Medicine and imaging

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10.1016/j.jacr.2023.07.030

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Nakai, H., Nagayama, H., Takahashi, H., Froemming, A. T., Kawashima, A., Bolan, C. W., Adamo, D. A., Carter, R. E., Fazzio, R. T., Tsuji, S., Lomas, D. J., Mynderse, L. A., Humphreys, M. R., Dora, C., & Takahashi, N. (2024). Cancer Detection Rate and Abnormal Interpretation Rate of Prostate MRI in Patients With Low-Grade Cancer. Journal of the American College of Radiology, 21(3), 387-397. https://doi.org/10.1016/j.jacr.2023.07.030

Nakai, H, Nagayama, H, Takahashi, H, Froemming, AT, Kawashima, A, Bolan, CW, Adamo, DA, Carter, RE, Fazzio, RT, Tsuji, S, Lomas, DJ, Mynderse, LA, Humphreys, MR, Dora, C & Takahashi, N 2024, 'Cancer Detection Rate and Abnormal Interpretation Rate of Prostate MRI in Patients With Low-Grade Cancer', Journal of the American College of Radiology, vol. 21, no. 3, pp. 387-397. https://doi.org/10.1016/j.jacr.2023.07.030

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title = "Cancer Detection Rate and Abnormal Interpretation Rate of Prostate MRI in Patients With Low-Grade Cancer",

abstract = "Purpose: The aim of this study was to evaluate the utility of cancer detection rate (CDR) and abnormal interpretation rate (AIR) in prostate MRI for patients with low-grade prostate cancer (PCa). Methods: This three-center retrospective study included patients who underwent prostate MRI from 2017 to 2021 with known low-grade PCa (Gleason score 6) without prior treatment. Patient-level highest Prostate Imaging Reporting & Data System (PI-RADS{\textregistered}) score and pathologic diagnosis within 1 year after MRI were used to evaluate the diagnostic performance of prostate MRI in detecting clinically significant PCa (csPCa; Gleason score ≥ 7). The metrics AIR, CDR, and CDR adjusted for pathologic confirmation rate were calculated. Radiologist-level AIR-CDR plots were shown. Simulation AIR-CDR lines were created to assess the effects of different diagnostic performances of prostate MRI and the prevalence of csPCa. Results: A total of 3,207 examinations were interpreted by 33 radiologists. Overall AIR, CDR, and CDR adjusted for pathologic confirmation rate at PI-RADS 3 to 5 (PI-RADS 4 and 5) were 51.7% (36.5%), 22.1% (18.8%), and 30.7% (24.6%), respectively. Radiologist-level AIR and CDR at PI-RADS 3 to 5 (PI-RADS 4 and 5) were in the 36.8% to 75.6% (21.9%-57.5%) range and the 16.3%-28.7% (10.9%-26.5%) range, respectively. In the simulation, changing parameters of diagnostic performance or csPCa prevalence shifted the AIR-CDR line. Conclusions: The authors propose CDR and AIR as performance metrics in prostate MRI and report reference performance values in patients with known low-grade PCa. There was variability in radiologist-level AIR and CDR. Combined use of AIR and CDR could provide meaningful feedback for radiologists to improve their performance by showing relative performance to other radiologists.",

keywords = "PI-RADS, abnormal interpretation rate, cancer detection rate, performance metric, prostate cancer",

author = "Hirotsugu Nakai and Hiroki Nagayama and Hiroaki Takahashi and Froemming, {Adam T.} and Akira Kawashima and Bolan, {Candice W.} and Adamo, {Daniel A.} and Carter, {Rickey E.} and Fazzio, {Robert T.} and Shintaro Tsuji and Lomas, {Derek J.} and Mynderse, {Lance A.} and Humphreys, {Mitchell R.} and Chandler Dora and Naoki Takahashi",

note = "Publisher Copyright: {\textcopyright} 2023 American College of Radiology",

year = "2024",

month = mar,

doi = "10.1016/j.jacr.2023.07.030",

language = "English (US)",

volume = "21",

pages = "387--397",

journal = "Journal of the American College of Radiology",

issn = "1546-1440",

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T1 - Cancer Detection Rate and Abnormal Interpretation Rate of Prostate MRI in Patients With Low-Grade Cancer

AU - Nakai, Hirotsugu

AU - Nagayama, Hiroki

AU - Takahashi, Hiroaki

AU - Froemming, Adam T.

AU - Kawashima, Akira

AU - Bolan, Candice W.

AU - Adamo, Daniel A.

AU - Carter, Rickey E.

AU - Fazzio, Robert T.

AU - Tsuji, Shintaro

AU - Lomas, Derek J.

AU - Mynderse, Lance A.

AU - Humphreys, Mitchell R.

AU - Dora, Chandler

AU - Takahashi, Naoki

PY - 2024/3

Y1 - 2024/3

N2 - Purpose: The aim of this study was to evaluate the utility of cancer detection rate (CDR) and abnormal interpretation rate (AIR) in prostate MRI for patients with low-grade prostate cancer (PCa). Methods: This three-center retrospective study included patients who underwent prostate MRI from 2017 to 2021 with known low-grade PCa (Gleason score 6) without prior treatment. Patient-level highest Prostate Imaging Reporting & Data System (PI-RADS®) score and pathologic diagnosis within 1 year after MRI were used to evaluate the diagnostic performance of prostate MRI in detecting clinically significant PCa (csPCa; Gleason score ≥ 7). The metrics AIR, CDR, and CDR adjusted for pathologic confirmation rate were calculated. Radiologist-level AIR-CDR plots were shown. Simulation AIR-CDR lines were created to assess the effects of different diagnostic performances of prostate MRI and the prevalence of csPCa. Results: A total of 3,207 examinations were interpreted by 33 radiologists. Overall AIR, CDR, and CDR adjusted for pathologic confirmation rate at PI-RADS 3 to 5 (PI-RADS 4 and 5) were 51.7% (36.5%), 22.1% (18.8%), and 30.7% (24.6%), respectively. Radiologist-level AIR and CDR at PI-RADS 3 to 5 (PI-RADS 4 and 5) were in the 36.8% to 75.6% (21.9%-57.5%) range and the 16.3%-28.7% (10.9%-26.5%) range, respectively. In the simulation, changing parameters of diagnostic performance or csPCa prevalence shifted the AIR-CDR line. Conclusions: The authors propose CDR and AIR as performance metrics in prostate MRI and report reference performance values in patients with known low-grade PCa. There was variability in radiologist-level AIR and CDR. Combined use of AIR and CDR could provide meaningful feedback for radiologists to improve their performance by showing relative performance to other radiologists.

AB - Purpose: The aim of this study was to evaluate the utility of cancer detection rate (CDR) and abnormal interpretation rate (AIR) in prostate MRI for patients with low-grade prostate cancer (PCa). Methods: This three-center retrospective study included patients who underwent prostate MRI from 2017 to 2021 with known low-grade PCa (Gleason score 6) without prior treatment. Patient-level highest Prostate Imaging Reporting & Data System (PI-RADS®) score and pathologic diagnosis within 1 year after MRI were used to evaluate the diagnostic performance of prostate MRI in detecting clinically significant PCa (csPCa; Gleason score ≥ 7). The metrics AIR, CDR, and CDR adjusted for pathologic confirmation rate were calculated. Radiologist-level AIR-CDR plots were shown. Simulation AIR-CDR lines were created to assess the effects of different diagnostic performances of prostate MRI and the prevalence of csPCa. Results: A total of 3,207 examinations were interpreted by 33 radiologists. Overall AIR, CDR, and CDR adjusted for pathologic confirmation rate at PI-RADS 3 to 5 (PI-RADS 4 and 5) were 51.7% (36.5%), 22.1% (18.8%), and 30.7% (24.6%), respectively. Radiologist-level AIR and CDR at PI-RADS 3 to 5 (PI-RADS 4 and 5) were in the 36.8% to 75.6% (21.9%-57.5%) range and the 16.3%-28.7% (10.9%-26.5%) range, respectively. In the simulation, changing parameters of diagnostic performance or csPCa prevalence shifted the AIR-CDR line. Conclusions: The authors propose CDR and AIR as performance metrics in prostate MRI and report reference performance values in patients with known low-grade PCa. There was variability in radiologist-level AIR and CDR. Combined use of AIR and CDR could provide meaningful feedback for radiologists to improve their performance by showing relative performance to other radiologists.

KW - PI-RADS

KW - abnormal interpretation rate

KW - cancer detection rate

KW - performance metric

KW - prostate cancer

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Cancer Detection Rate and Abnormal Interpretation Rate of Prostate MRI in Patients With Low-Grade Cancer

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