Comparison of Multimodal Therapies and Outcomes among Patients with High-Risk Prostate Cancer with Adverse Clinicopathologic Features

Amar U. Kishan; R. Jeffrey Karnes; Tahmineh Romero; Jessica K. Wong; Giovanni Motterle; Jeffrey J. Tosoian; Bruce J. Trock; Eric A. Klein; Bradley J. Stish; Robert T. Dess; Daniel E. Spratt; Avinash Pilar; Chandana Reddy; Rebecca Levin-Epstein; Trude B. Wedde; Wolfgang A. Lilleby; Ryan Fiano; Gregory S. Merrick; Richard G. Stock; D. Jeffrey Demanes; Brian J. Moran; Michelle Braccioforte; Hartwig Huland; Phuoc T. Tran; Santiago Martin; Rafael Martínez-Monge; Daniel J. Krauss; Eyad I. Abu-Isa; Ridwan Alam; Zeyad Schwen; Albert J. Chang; Thomas M. Pisansky; Richard Choo; Daniel Y. Song; Stephen Greco; Curtiland Deville; Todd McNutt; Theodore L. Deweese; Ashley E. Ross; Jay P. Ciezki; Paul C. Boutros; Nicholas G. Nickols; Prashant Bhat; David Shabsovich; Jesus E. Juarez; Natalie Chong; Patrick A. Kupelian; Anthony V. D'Amico; Matthew B. Rettig; Alejandro Berlin; Jonathan D. Tward; Brian J. Davis; Robert E. Reiter; Michael L. Steinberg; David Elashoff; Eric M. Horwitz; Rahul D. Tendulkar; Derya Tilki

doi:10.1001/jamanetworkopen.2021.15312

Comparison of Multimodal Therapies and Outcomes among Patients with High-Risk Prostate Cancer with Adverse Clinicopathologic Features

Amar U. Kishan, R. Jeffrey Karnes, Tahmineh Romero, Jessica K. Wong, Giovanni Motterle, Jeffrey J. Tosoian, Bruce J. Trock, Eric A. Klein, Bradley J. Stish, Robert T. Dess, Daniel E. Spratt, Avinash Pilar, Chandana Reddy, Rebecca Levin-Epstein, Trude B. Wedde, Wolfgang A. Lilleby, Ryan Fiano, Gregory S. Merrick, Richard G. Stock, D. Jeffrey DemanesBrian J. Moran, Michelle Braccioforte, Hartwig Huland, Phuoc T. Tran, Santiago Martin, Rafael Martínez-Monge, Daniel J. Krauss, Eyad I. Abu-Isa, Ridwan Alam, Zeyad Schwen, Albert J. Chang, Thomas M. Pisansky, Richard Choo, Daniel Y. Song, Stephen Greco, Curtiland Deville, Todd McNutt, Theodore L. Deweese, Ashley E. Ross, Jay P. Ciezki, Paul C. Boutros, Nicholas G. Nickols, Prashant Bhat, David Shabsovich, Jesus E. Juarez, Natalie Chong, Patrick A. Kupelian, Anthony V. D'Amico, Matthew B. Rettig, Alejandro Berlin, Jonathan D. Tward, Brian J. Davis, Robert E. Reiter, Michael L. Steinberg, David Elashoff, Eric M. Horwitz, Rahul D. Tendulkar, Derya Tilki

School of Medicine

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

Abstract

Importance: The optimal management strategy for high-risk prostate cancer and additional adverse clinicopathologic features remains unknown. Objective: To compare clinical outcomes among patients with high-risk prostate cancer after definitive treatment. Design, Setting, and Participants: This retrospective cohort study included patients with high-risk prostate cancer (as defined by the National Comprehensive Cancer Network [NCCN]) and at least 1 adverse clinicopathologic feature (defined as any primary Gleason pattern 5 on biopsy, clinical T3b-4 disease, ≥50% cores with biopsy results positive for prostate cancer, or NCCN ≥2 high-risk features) treated between 2000 and 2014 at 16 tertiary centers. Data were analyzed in November 2020. Exposures: Radical prostatectomy (RP), external beam radiotherapy (EBRT) with androgen deprivation therapy (ADT), or EBRT plus brachytherapy boost (BT) with ADT. Guideline-concordant multimodal treatment was defined as RP with appropriate use of multimodal therapy (optimal RP), EBRT with at least 2 years of ADT (optimal EBRT), or EBRT with BT with at least 1 year ADT (optimal EBRT with BT). Main Outcomes and Measures: The primary outcome was prostate cancer-specific mortality; distant metastasis was a secondary outcome. Differences were evaluated using inverse probability of treatment weight-adjusted Fine-Gray competing risk regression models. Results: A total of 6004 men (median [interquartile range] age, 66.4 [60.9-71.8] years) with high-risk prostate cancer were analyzed, including 3175 patients (52.9%) who underwent RP, 1830 patients (30.5%) who underwent EBRT alone, and 999 patients (16.6%) who underwent EBRT with BT. Compared with RP, treatment with EBRT with BT (subdistribution hazard ratio [sHR] 0.78, [95% CI, 0.63-0.97]; P =.03) or with EBRT alone (sHR, 0.70 [95% CI, 0.53-0.92]; P =.01) was associated with significantly improved prostate cancer-specific mortality; there was no difference in prostate cancer-specific mortality between EBRT with BT and EBRT alone (sHR, 0.89 [95% CI, 0.67-1.18]; P =.43). No significant differences in prostate cancer-specific mortality were found across treatment cohorts among 2940 patients who received guideline-concordant multimodality treatment (eg, optimal EBRT alone vs optimal RP: sHR, 0.76 [95% CI, 0.52-1.09]; P =.14). However, treatment with EBRT alone or EBRT with BT was consistently associated with lower rates of distant metastasis compared with treatment with RP (eg, EBRT vs RP: sHR, 0.50 [95% CI, 0.44-0.58]; P <.001). Conclusions and Relevance: These findings suggest that among patients with high-risk prostate cancer and additional unfavorable clinicopathologic features receiving guideline-concordant multimodal therapy, prostate cancer-specific mortality outcomes were equivalent among those treated with RP, EBRT, and EBRT with BT, although distant metastasis outcomes were more favorable among patients treated with EBRT and EBRT with BT. Optimal multimodality treatment is critical for improving outcomes in patients with high-risk prostate cancer.

Original language	English (US)
Article number	e2115312
Journal	JAMA Network Open
Volume	4
Issue number	7
DOIs	https://doi.org/10.1001/jamanetworkopen.2021.15312
State	Published - Jul 1 2021

ASJC Scopus subject areas

Medicine(all)

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10.1001/jamanetworkopen.2021.15312

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Kishan, A. U., Karnes, R. J., Romero, T., Wong, J. K., Motterle, G., Tosoian, J. J., Trock, B. J., Klein, E. A., Stish, B. J., Dess, R. T., Spratt, D. E., Pilar, A., Reddy, C., Levin-Epstein, R., Wedde, T. B., Lilleby, W. A., Fiano, R., Merrick, G. S., Stock, R. G., ... Tilki, D. (2021). Comparison of Multimodal Therapies and Outcomes among Patients with High-Risk Prostate Cancer with Adverse Clinicopathologic Features. JAMA Network Open, 4(7), [e2115312]. https://doi.org/10.1001/jamanetworkopen.2021.15312

Kishan, AU, Karnes, RJ, Romero, T, Wong, JK, Motterle, G, Tosoian, JJ, Trock, BJ, Klein, EA, Stish, BJ, Dess, RT, Spratt, DE, Pilar, A, Reddy, C, Levin-Epstein, R, Wedde, TB, Lilleby, WA, Fiano, R, Merrick, GS, Stock, RG, Demanes, DJ, Moran, BJ, Braccioforte, M, Huland, H, Tran, PT, Martin, S, Martínez-Monge, R, Krauss, DJ, Abu-Isa, EI, Alam, R, Schwen, Z, Chang, AJ, Pisansky, TM, Choo, R, Song, DY, Greco, S, Deville, C , McNutt, T , Deweese, TL, Ross, AE, Ciezki, JP, Boutros, PC, Nickols, NG, Bhat, P, Shabsovich, D, Juarez, JE, Chong, N, Kupelian, PA, D'Amico, AV, Rettig, MB, Berlin, A, Tward, JD, Davis, BJ, Reiter, RE, Steinberg, ML, Elashoff, D, Horwitz, EM, Tendulkar, RD & Tilki, D 2021, 'Comparison of Multimodal Therapies and Outcomes among Patients with High-Risk Prostate Cancer with Adverse Clinicopathologic Features', JAMA Network Open, vol. 4, no. 7, e2115312. https://doi.org/10.1001/jamanetworkopen.2021.15312

@article{f665977fec9a4c3dbd9e401a5a846a51,

title = "Comparison of Multimodal Therapies and Outcomes among Patients with High-Risk Prostate Cancer with Adverse Clinicopathologic Features",

abstract = "Importance: The optimal management strategy for high-risk prostate cancer and additional adverse clinicopathologic features remains unknown. Objective: To compare clinical outcomes among patients with high-risk prostate cancer after definitive treatment. Design, Setting, and Participants: This retrospective cohort study included patients with high-risk prostate cancer (as defined by the National Comprehensive Cancer Network [NCCN]) and at least 1 adverse clinicopathologic feature (defined as any primary Gleason pattern 5 on biopsy, clinical T3b-4 disease, ≥50% cores with biopsy results positive for prostate cancer, or NCCN ≥2 high-risk features) treated between 2000 and 2014 at 16 tertiary centers. Data were analyzed in November 2020. Exposures: Radical prostatectomy (RP), external beam radiotherapy (EBRT) with androgen deprivation therapy (ADT), or EBRT plus brachytherapy boost (BT) with ADT. Guideline-concordant multimodal treatment was defined as RP with appropriate use of multimodal therapy (optimal RP), EBRT with at least 2 years of ADT (optimal EBRT), or EBRT with BT with at least 1 year ADT (optimal EBRT with BT). Main Outcomes and Measures: The primary outcome was prostate cancer-specific mortality; distant metastasis was a secondary outcome. Differences were evaluated using inverse probability of treatment weight-adjusted Fine-Gray competing risk regression models. Results: A total of 6004 men (median [interquartile range] age, 66.4 [60.9-71.8] years) with high-risk prostate cancer were analyzed, including 3175 patients (52.9%) who underwent RP, 1830 patients (30.5%) who underwent EBRT alone, and 999 patients (16.6%) who underwent EBRT with BT. Compared with RP, treatment with EBRT with BT (subdistribution hazard ratio [sHR] 0.78, [95% CI, 0.63-0.97]; P =.03) or with EBRT alone (sHR, 0.70 [95% CI, 0.53-0.92]; P =.01) was associated with significantly improved prostate cancer-specific mortality; there was no difference in prostate cancer-specific mortality between EBRT with BT and EBRT alone (sHR, 0.89 [95% CI, 0.67-1.18]; P =.43). No significant differences in prostate cancer-specific mortality were found across treatment cohorts among 2940 patients who received guideline-concordant multimodality treatment (eg, optimal EBRT alone vs optimal RP: sHR, 0.76 [95% CI, 0.52-1.09]; P =.14). However, treatment with EBRT alone or EBRT with BT was consistently associated with lower rates of distant metastasis compared with treatment with RP (eg, EBRT vs RP: sHR, 0.50 [95% CI, 0.44-0.58]; P <.001). Conclusions and Relevance: These findings suggest that among patients with high-risk prostate cancer and additional unfavorable clinicopathologic features receiving guideline-concordant multimodal therapy, prostate cancer-specific mortality outcomes were equivalent among those treated with RP, EBRT, and EBRT with BT, although distant metastasis outcomes were more favorable among patients treated with EBRT and EBRT with BT. Optimal multimodality treatment is critical for improving outcomes in patients with high-risk prostate cancer.",

author = "Kishan, {Amar U.} and Karnes, {R. Jeffrey} and Tahmineh Romero and Wong, {Jessica K.} and Giovanni Motterle and Tosoian, {Jeffrey J.} and Trock, {Bruce J.} and Klein, {Eric A.} and Stish, {Bradley J.} and Dess, {Robert T.} and Spratt, {Daniel E.} and Avinash Pilar and Chandana Reddy and Rebecca Levin-Epstein and Wedde, {Trude B.} and Lilleby, {Wolfgang A.} and Ryan Fiano and Merrick, {Gregory S.} and Stock, {Richard G.} and Demanes, {D. Jeffrey} and Moran, {Brian J.} and Michelle Braccioforte and Hartwig Huland and Tran, {Phuoc T.} and Santiago Martin and Rafael Mart{\'i}nez-Monge and Krauss, {Daniel J.} and Abu-Isa, {Eyad I.} and Ridwan Alam and Zeyad Schwen and Chang, {Albert J.} and Pisansky, {Thomas M.} and Richard Choo and Song, {Daniel Y.} and Stephen Greco and Curtiland Deville and Todd McNutt and Deweese, {Theodore L.} and Ross, {Ashley E.} and Ciezki, {Jay P.} and Boutros, {Paul C.} and Nickols, {Nicholas G.} and Prashant Bhat and David Shabsovich and Juarez, {Jesus E.} and Natalie Chong and Kupelian, {Patrick A.} and D'Amico, {Anthony V.} and Rettig, {Matthew B.} and Alejandro Berlin and Tward, {Jonathan D.} and Davis, {Brian J.} and Reiter, {Robert E.} and Steinberg, {Michael L.} and David Elashoff and Horwitz, {Eric M.} and Tendulkar, {Rahul D.} and Derya Tilki",

note = "Funding Information: Funding/Support: This study was supported by grant No. P50CA09213 (Dr Kishan) and P50CA186786 (Dr Spratt) from the Prostate Cancer National Institutes of Health Specialized Programs of Research Excellence, grant No. RSD1836 from the Radiological Society of North America (Dr Kishan), the STOP Cancer organization (Dr Kishan), grant No. PC151068 (Dr Spratt) from the Department of Defense, and the Prostate Cancer Foundation (Drs Kishan, Spratt, and Nickols). Funding Information: Conflict of Interest Disclosures: Dr Kishan reported receiving personal fees from Varian Medical Systems, ViewRay, Intelligent Automation, and Janssen Pharmaceuticals and grants from ViewRay outside the submitted work. Dr Karnes reported personal fees from Decipher Biosciences outside the submitted work. Dr Tosoian reported serving as a cofounder and own equity in LynxDx outside the submitted work. Dr Spratt reported receiving personal fees from Janssen, Blue Earth, Boston Scientific, and AstraZeneca outside the submitted work. Dr Tran reported receiving grants from RefleXion Medical, the Prostate Cancer Foundation, and Movember Foundation during the conduct of the study; personal fees from Noxopharm, Janssen-Taris Biomedical, Myovant, AstraZeneca, and RefleXion; grants from Astellas and Bayer Healthcare; and owning patent No. 9114158 (with royalties from Natsar Pharmaceuticals) outside the submitted work. Dr McNutt reported other from Oncospace Inc founder outside the submitted work. Dr Ross reported receiving personal fees from GenomeDx, Astellas, Janssen, Bayer, Blue Earth, and Myovant outside the submitted work. Dr Boutros reported serving on scientific advisory boards for BioSymetrics and Intersect Diagnostics. Dr Nickols reported receiving grants from Janssen, Progenics, and Bayer outside the submitted work. Dr Kupelian reported serving on an advisory board for and being employed by Varian Medical Systems. Dr Rettig reported receiving personal fees from Amgen, Ambrx, Astella, Johnson & Johnson, and Bayer; grants from Novartis; and nonfinancial research support from Astellas and Novartis, and Merck outside the submitted work. Dr Tendulkar reported personal fees from Varian Medical Systems outside the submitted work. Dr Tilki reported receiving personal fees from Janssen, Ipsen, and Exact Sciences; grants from Janssen; and serving on advisory boards for Tolero Pharmaceuticals and mIR Scientific outside the submitted work. No other disclosures were reported. Publisher Copyright: {\textcopyright} 2021 EDP Sciences. All rights reserved.",

year = "2021",

month = jul,

day = "1",

doi = "10.1001/jamanetworkopen.2021.15312",

language = "English (US)",

volume = "4",

journal = "JAMA network open",

issn = "2574-3805",

publisher = "American Medical Association",

number = "7",

}

TY - JOUR

T1 - Comparison of Multimodal Therapies and Outcomes among Patients with High-Risk Prostate Cancer with Adverse Clinicopathologic Features

AU - Kishan, Amar U.

AU - Karnes, R. Jeffrey

AU - Romero, Tahmineh

AU - Wong, Jessica K.

AU - Motterle, Giovanni

AU - Tosoian, Jeffrey J.

AU - Trock, Bruce J.

AU - Klein, Eric A.

AU - Stish, Bradley J.

AU - Dess, Robert T.

AU - Spratt, Daniel E.

AU - Pilar, Avinash

AU - Reddy, Chandana

AU - Levin-Epstein, Rebecca

AU - Wedde, Trude B.

AU - Lilleby, Wolfgang A.

AU - Fiano, Ryan

AU - Merrick, Gregory S.

AU - Stock, Richard G.

AU - Demanes, D. Jeffrey

AU - Moran, Brian J.

AU - Braccioforte, Michelle

AU - Huland, Hartwig

AU - Tran, Phuoc T.

AU - Martin, Santiago

AU - Martínez-Monge, Rafael

AU - Krauss, Daniel J.

AU - Abu-Isa, Eyad I.

AU - Alam, Ridwan

AU - Schwen, Zeyad

AU - Chang, Albert J.

AU - Pisansky, Thomas M.

AU - Choo, Richard

AU - Song, Daniel Y.

AU - Greco, Stephen

AU - Deville, Curtiland

AU - McNutt, Todd

AU - Deweese, Theodore L.

AU - Ross, Ashley E.

AU - Ciezki, Jay P.

AU - Boutros, Paul C.

AU - Nickols, Nicholas G.

AU - Bhat, Prashant

AU - Shabsovich, David

AU - Juarez, Jesus E.

AU - Chong, Natalie

AU - Kupelian, Patrick A.

AU - D'Amico, Anthony V.

AU - Rettig, Matthew B.

AU - Berlin, Alejandro

AU - Tward, Jonathan D.

AU - Davis, Brian J.

AU - Reiter, Robert E.

AU - Steinberg, Michael L.

AU - Elashoff, David

AU - Horwitz, Eric M.

AU - Tendulkar, Rahul D.

AU - Tilki, Derya

N1 - Funding Information: Funding/Support: This study was supported by grant No. P50CA09213 (Dr Kishan) and P50CA186786 (Dr Spratt) from the Prostate Cancer National Institutes of Health Specialized Programs of Research Excellence, grant No. RSD1836 from the Radiological Society of North America (Dr Kishan), the STOP Cancer organization (Dr Kishan), grant No. PC151068 (Dr Spratt) from the Department of Defense, and the Prostate Cancer Foundation (Drs Kishan, Spratt, and Nickols). Funding Information: Conflict of Interest Disclosures: Dr Kishan reported receiving personal fees from Varian Medical Systems, ViewRay, Intelligent Automation, and Janssen Pharmaceuticals and grants from ViewRay outside the submitted work. Dr Karnes reported personal fees from Decipher Biosciences outside the submitted work. Dr Tosoian reported serving as a cofounder and own equity in LynxDx outside the submitted work. Dr Spratt reported receiving personal fees from Janssen, Blue Earth, Boston Scientific, and AstraZeneca outside the submitted work. Dr Tran reported receiving grants from RefleXion Medical, the Prostate Cancer Foundation, and Movember Foundation during the conduct of the study; personal fees from Noxopharm, Janssen-Taris Biomedical, Myovant, AstraZeneca, and RefleXion; grants from Astellas and Bayer Healthcare; and owning patent No. 9114158 (with royalties from Natsar Pharmaceuticals) outside the submitted work. Dr McNutt reported other from Oncospace Inc founder outside the submitted work. Dr Ross reported receiving personal fees from GenomeDx, Astellas, Janssen, Bayer, Blue Earth, and Myovant outside the submitted work. Dr Boutros reported serving on scientific advisory boards for BioSymetrics and Intersect Diagnostics. Dr Nickols reported receiving grants from Janssen, Progenics, and Bayer outside the submitted work. Dr Kupelian reported serving on an advisory board for and being employed by Varian Medical Systems. Dr Rettig reported receiving personal fees from Amgen, Ambrx, Astella, Johnson & Johnson, and Bayer; grants from Novartis; and nonfinancial research support from Astellas and Novartis, and Merck outside the submitted work. Dr Tendulkar reported personal fees from Varian Medical Systems outside the submitted work. Dr Tilki reported receiving personal fees from Janssen, Ipsen, and Exact Sciences; grants from Janssen; and serving on advisory boards for Tolero Pharmaceuticals and mIR Scientific outside the submitted work. No other disclosures were reported. Publisher Copyright: © 2021 EDP Sciences. All rights reserved.

PY - 2021/7/1

Y1 - 2021/7/1

N2 - Importance: The optimal management strategy for high-risk prostate cancer and additional adverse clinicopathologic features remains unknown. Objective: To compare clinical outcomes among patients with high-risk prostate cancer after definitive treatment. Design, Setting, and Participants: This retrospective cohort study included patients with high-risk prostate cancer (as defined by the National Comprehensive Cancer Network [NCCN]) and at least 1 adverse clinicopathologic feature (defined as any primary Gleason pattern 5 on biopsy, clinical T3b-4 disease, ≥50% cores with biopsy results positive for prostate cancer, or NCCN ≥2 high-risk features) treated between 2000 and 2014 at 16 tertiary centers. Data were analyzed in November 2020. Exposures: Radical prostatectomy (RP), external beam radiotherapy (EBRT) with androgen deprivation therapy (ADT), or EBRT plus brachytherapy boost (BT) with ADT. Guideline-concordant multimodal treatment was defined as RP with appropriate use of multimodal therapy (optimal RP), EBRT with at least 2 years of ADT (optimal EBRT), or EBRT with BT with at least 1 year ADT (optimal EBRT with BT). Main Outcomes and Measures: The primary outcome was prostate cancer-specific mortality; distant metastasis was a secondary outcome. Differences were evaluated using inverse probability of treatment weight-adjusted Fine-Gray competing risk regression models. Results: A total of 6004 men (median [interquartile range] age, 66.4 [60.9-71.8] years) with high-risk prostate cancer were analyzed, including 3175 patients (52.9%) who underwent RP, 1830 patients (30.5%) who underwent EBRT alone, and 999 patients (16.6%) who underwent EBRT with BT. Compared with RP, treatment with EBRT with BT (subdistribution hazard ratio [sHR] 0.78, [95% CI, 0.63-0.97]; P =.03) or with EBRT alone (sHR, 0.70 [95% CI, 0.53-0.92]; P =.01) was associated with significantly improved prostate cancer-specific mortality; there was no difference in prostate cancer-specific mortality between EBRT with BT and EBRT alone (sHR, 0.89 [95% CI, 0.67-1.18]; P =.43). No significant differences in prostate cancer-specific mortality were found across treatment cohorts among 2940 patients who received guideline-concordant multimodality treatment (eg, optimal EBRT alone vs optimal RP: sHR, 0.76 [95% CI, 0.52-1.09]; P =.14). However, treatment with EBRT alone or EBRT with BT was consistently associated with lower rates of distant metastasis compared with treatment with RP (eg, EBRT vs RP: sHR, 0.50 [95% CI, 0.44-0.58]; P <.001). Conclusions and Relevance: These findings suggest that among patients with high-risk prostate cancer and additional unfavorable clinicopathologic features receiving guideline-concordant multimodal therapy, prostate cancer-specific mortality outcomes were equivalent among those treated with RP, EBRT, and EBRT with BT, although distant metastasis outcomes were more favorable among patients treated with EBRT and EBRT with BT. Optimal multimodality treatment is critical for improving outcomes in patients with high-risk prostate cancer.

AB - Importance: The optimal management strategy for high-risk prostate cancer and additional adverse clinicopathologic features remains unknown. Objective: To compare clinical outcomes among patients with high-risk prostate cancer after definitive treatment. Design, Setting, and Participants: This retrospective cohort study included patients with high-risk prostate cancer (as defined by the National Comprehensive Cancer Network [NCCN]) and at least 1 adverse clinicopathologic feature (defined as any primary Gleason pattern 5 on biopsy, clinical T3b-4 disease, ≥50% cores with biopsy results positive for prostate cancer, or NCCN ≥2 high-risk features) treated between 2000 and 2014 at 16 tertiary centers. Data were analyzed in November 2020. Exposures: Radical prostatectomy (RP), external beam radiotherapy (EBRT) with androgen deprivation therapy (ADT), or EBRT plus brachytherapy boost (BT) with ADT. Guideline-concordant multimodal treatment was defined as RP with appropriate use of multimodal therapy (optimal RP), EBRT with at least 2 years of ADT (optimal EBRT), or EBRT with BT with at least 1 year ADT (optimal EBRT with BT). Main Outcomes and Measures: The primary outcome was prostate cancer-specific mortality; distant metastasis was a secondary outcome. Differences were evaluated using inverse probability of treatment weight-adjusted Fine-Gray competing risk regression models. Results: A total of 6004 men (median [interquartile range] age, 66.4 [60.9-71.8] years) with high-risk prostate cancer were analyzed, including 3175 patients (52.9%) who underwent RP, 1830 patients (30.5%) who underwent EBRT alone, and 999 patients (16.6%) who underwent EBRT with BT. Compared with RP, treatment with EBRT with BT (subdistribution hazard ratio [sHR] 0.78, [95% CI, 0.63-0.97]; P =.03) or with EBRT alone (sHR, 0.70 [95% CI, 0.53-0.92]; P =.01) was associated with significantly improved prostate cancer-specific mortality; there was no difference in prostate cancer-specific mortality between EBRT with BT and EBRT alone (sHR, 0.89 [95% CI, 0.67-1.18]; P =.43). No significant differences in prostate cancer-specific mortality were found across treatment cohorts among 2940 patients who received guideline-concordant multimodality treatment (eg, optimal EBRT alone vs optimal RP: sHR, 0.76 [95% CI, 0.52-1.09]; P =.14). However, treatment with EBRT alone or EBRT with BT was consistently associated with lower rates of distant metastasis compared with treatment with RP (eg, EBRT vs RP: sHR, 0.50 [95% CI, 0.44-0.58]; P <.001). Conclusions and Relevance: These findings suggest that among patients with high-risk prostate cancer and additional unfavorable clinicopathologic features receiving guideline-concordant multimodal therapy, prostate cancer-specific mortality outcomes were equivalent among those treated with RP, EBRT, and EBRT with BT, although distant metastasis outcomes were more favorable among patients treated with EBRT and EBRT with BT. Optimal multimodality treatment is critical for improving outcomes in patients with high-risk prostate cancer.

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UR - http://www.scopus.com/inward/citedby.url?scp=85109269949&partnerID=8YFLogxK

U2 - 10.1001/jamanetworkopen.2021.15312

DO - 10.1001/jamanetworkopen.2021.15312

M3 - Article

C2 - 34196715

AN - SCOPUS:85109269949

SN - 2574-3805

VL - 4

JO - JAMA network open

JF - JAMA network open

IS - 7

M1 - e2115312

ER -

Comparison of Multimodal Therapies and Outcomes among Patients with High-Risk Prostate Cancer with Adverse Clinicopathologic Features

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