Matthew R Cooperberg1, Gary D Grossfeld, Deborah P Lubeck, Peter R Carroll. 1. Department of Urology, Program in Urologic Oncology, Urologic Outcomes Research Group, University of California, San Francisco (UCSF)/Mt. Zion Comprehensive Cancer Center, UCSF, San Francisco 941150-1711, USA.
Abstract
BACKGROUND: Recent reports have suggested that growing numbers of patients with localized prostate cancer are receiving androgen deprivation therapy as primary or neoadjuvant treatment, yet sparse clinical evidence supports the use of such treatment except among patients with high-risk or locally advanced disease receiving external beam radiotherapy. We describe national trends in the use of androgen deprivation therapy for localized disease. METHODS: CaPSURE is an observational database of 7195 patients with prostate cancer. This study included 3439 of these patients who were diagnosed since 1989, had clinical staging information available, and were treated with radical prostatectomy, radiation therapy, or primary androgen deprivation therapy (PADT). High-, intermediate-, and low-risk groups were defined by serum prostate-specific antigen level, Gleason score, and clinical tumor stage. Time trends in the use of PADT and neoadjuvant androgen deprivation therapy (NADT) were analyzed. All statistical tests were two-sided. RESULTS: Rates of PADT use rose sharply between 1989 and 2001, from 4.6% (95% confidence interval [CI] = 3.4% to 5.8%) to 14.2% (95% CI = 12.2% to 16.2%), from 8.9% (95% CI = 7.3% to 10.5%) to 19.7% (95% CI = 17.5% to 21.9%), and from 32.8% (95% CI = 29.9% to 35.7%) to 48.2% (95% CI = 45.1% to 51.3%) (all P<.001) in low-, intermediate-, and high-risk groups, respectively. NADT use also increased in association with radical prostatectomy (2.9% [95% CI = 2.1% to 3.7%] to 7.8% [95% CI = 6.5% to 9.1%] of patients, P =.003) and external beam radiotherapy (9.8% [95% CI = 7.5% to 12.1%] to 74.6% [95% CI = 70.8% to 78.4%], P<.001) across all risk levels combined. Rates of NADT use among patients treated with brachytherapy also increased but not statistically significantly (7.4% [95% CI = 3.5% to 11.3%] to 24.6% [95% CI = 18.2% to 31.0%], P =.100). CONCLUSIONS: Rates of both PADT and NADT are increasing across risk groups and treatment types. Future clinical trials must define more clearly the appropriate role of hormonal therapy in localized prostate cancer, and their results should shape updated practice guidelines.
BACKGROUND: Recent reports have suggested that growing numbers of patients with localized prostate cancer are receiving androgen deprivation therapy as primary or neoadjuvant treatment, yet sparse clinical evidence supports the use of such treatment except among patients with high-risk or locally advanced disease receiving external beam radiotherapy. We describe national trends in the use of androgen deprivation therapy for localized disease. METHODS: CaPSURE is an observational database of 7195 patients with prostate cancer. This study included 3439 of these patients who were diagnosed since 1989, had clinical staging information available, and were treated with radical prostatectomy, radiation therapy, or primary androgen deprivation therapy (PADT). High-, intermediate-, and low-risk groups were defined by serum prostate-specific antigen level, Gleason score, and clinical tumor stage. Time trends in the use of PADT and neoadjuvant androgen deprivation therapy (NADT) were analyzed. All statistical tests were two-sided. RESULTS: Rates of PADT use rose sharply between 1989 and 2001, from 4.6% (95% confidence interval [CI] = 3.4% to 5.8%) to 14.2% (95% CI = 12.2% to 16.2%), from 8.9% (95% CI = 7.3% to 10.5%) to 19.7% (95% CI = 17.5% to 21.9%), and from 32.8% (95% CI = 29.9% to 35.7%) to 48.2% (95% CI = 45.1% to 51.3%) (all P<.001) in low-, intermediate-, and high-risk groups, respectively. NADT use also increased in association with radical prostatectomy (2.9% [95% CI = 2.1% to 3.7%] to 7.8% [95% CI = 6.5% to 9.1%] of patients, P =.003) and external beam radiotherapy (9.8% [95% CI = 7.5% to 12.1%] to 74.6% [95% CI = 70.8% to 78.4%], P<.001) across all risk levels combined. Rates of NADT use among patients treated with brachytherapy also increased but not statistically significantly (7.4% [95% CI = 3.5% to 11.3%] to 24.6% [95% CI = 18.2% to 31.0%], P =.100). CONCLUSIONS: Rates of both PADT and NADT are increasing across risk groups and treatment types. Future clinical trials must define more clearly the appropriate role of hormonal therapy in localized prostate cancer, and their results should shape updated practice guidelines.
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