Purpose: Biochemical failure-free survival stratified by the pretreatment prostate-specific antigen (PSA) and biopsy Gleason score (bGl) is determined for prostate cancer patients managed definitively with external beam radiation therapy or radical retropubic prostatectomy.
Methods and materials: A Cox regression multivariable analysis evaluating the variables of PSA, bGl, and clinical stage was used to evaluate the end point of time to PSA failure in 867 and 757 consecutive prostate cancer patients managed definitively with external beam radiation therapy or radical retropubic prostatectomy, respectively. PSA failure-free survival was determined using Kaplan-Meier analysis. Comparisons were made using the log rank test.
Results: The pretreatment PSA, bGl, and clinical stage (T3,4 vs. T1,T2) were found to be independent predictors of time to post-treatment PSA failure for both surgically and radiation managed patients using Cox regression multivariable analysis. Patients with a pretreatment PSA of > 4 ng/ml and < or = 20 ng/ml could be classified into risk groups for time to post-therapy PSA failure: low = PSA > 4-10 ng/ml and bGl < or = 4; intermediate = PSA > 4-10 and bGl 5-7; or PSA > 10-20 ng/ml and bGl < or = 7; high = PSA > 4-20 ng/ml and bGl > or = 8. Two-year PSA failure-free survival for surgically managed and radiation-managed patients, respectively, were 98% vs. 92% (p = 0.45), 77% vs. 81% (p = 0.86), and 51% vs. 53% (p = 0.48) for patients at low, intermediate, and high risk for post-therapy PSA failure.
Conclusions: There was no statistical difference in the 2-year PSA failure-free survival for potentially curable patients managed definitively with surgery or radiation therapy when a retrospective comparison stratifying for the pretreatment PSA and bGl was performed.