Does surgical delay for radical prostatectomy affect patient pathological outcome? A retrospective analysis from a Canadian cohort.

INTRODUCTION We sought to assess the impact of surgical wait time (SWT) to robot-assisted radical prostatectomy (RARP) on final pathological outcome. METHODS A retrospective review of RARP patient records operated between 2006 and 2015 was conducted. SWT was defined as period from prostate biopsy to surgery. Primary outcome was the impact on postoperative Cancer of the Prostate Risk Assessment (CAPRA-S) score. Patients were stratified according to D'Amico risk categories. Univariate analysis (UVA) and multivariable (MVA) analysis with a generalized linear model was used to evaluate the effect of SWT and other predictive factors on pathological outcome in individual risk group and on the overall sample. RESULTS A total of 835 patients were eligible for analysis. Mean SWT was significantly different between the three D'Amico groups, with mean SWT of 180.22 days (95% confidence interval [CI] 169.03; 191.41), 159.14 days (95% CI 152.38; 165.90), and 138.96 days (95% CI 124.60; 153.33) for low-, intermediate-, and high-risk groups, respectively (p<0.001). After stratification by D'Amico risk group, no significant association was observed between SWT and CAPRA-S score in the three risk categories on UVA and MVA. Predictors of higher CAPRA-S score in the multivariable model in the overall cohort were: older age (p=0.014), biopsy Gleason score (p<0.001), percentage of positive cores (p<0.001), and clinical stage (p<0.001). CONCLUSIONS In the present study evaluating SWT for RARP in a Canadian socialized system, increased delay for surgery does not appear to impact the pathological outcome. Further studies are required to evaluate the impact of wait time on biochemical recurrence-free survival, cancer-specific survival, and overall survival.

[1]  Simon P. Kim,et al.  Robotic prostatectomy is associated with increased patient travel and treatment delay. , 2016, Canadian Urological Association journal = Journal de l'Association des urologues du Canada.

[2]  K. Zorn,et al.  Robotic prostatectomy and access to care: Canadian vs. U.S. experience. , 2016, Canadian Urological Association journal = Journal de l'Association des urologues du Canada.

[3]  D. Taussky,et al.  CAPRA-S predicts outcome for adjuvant and salvage external beam radiotherapy after radical prostatectomy. , 2016, Canadian Urological Association journal = Journal de l'Association des urologues du Canada.

[4]  K. Badani,et al.  Delay from biopsy to radical prostatectomy influences the rate of adverse pathologic outcomes , 2015, The Prostate.

[5]  A. Haese*,et al.  External validation of the CAPRA-S score to predict biochemical recurrence, metastasis and mortality after radical prostatectomy in a European cohort. , 2015, The Journal of urology.

[6]  A. Memiş,et al.  Evaluation of biochemical recurrence-free survival after radical prostatectomy by cancer of the prostate risk assessment post-surgical (CAPRA-S) score. , 2015, Asian Pacific journal of cancer prevention : APJCP.

[7]  W. Seo,et al.  Cancer of the Prostate Risk Assessment (CAPRA) Preoperative Score Versus Postoperative Score (CAPRA-S): Ability to Predict Cancer Progression and Decision-Making Regarding Adjuvant Therapy after Radical Prostatectomy , 2014, Journal of Korean medical science.

[8]  M. Terris,et al.  Multi-institutional validation of the CAPRA-S score to predict disease recurrence and mortality after radical prostatectomy. , 2014, European urology.

[9]  O. Cussenot,et al.  Impact of the length of time between diagnosis and surgical removal of urologic neoplasms on survival , 2014, World Journal of Urology.

[10]  K. Zorn,et al.  Robot assisted radical prostatectomy: how I do it. Part II: Surgical technique. , 2013, The Canadian journal of urology.

[11]  A. El-Hakim,et al.  Perioperative, oncological and functional outcomes of the first robotic prostatectomy program in Quebec: Single fellowship-trained surgeon's experience of 250 cases. , 2013, Canadian Urological Association journal = Journal de l'Association des urologues du Canada.

[12]  K. Zorn,et al.  Robot assisted radical prostatectomy: how I do it. Part I: Patient preparation and positioning. , 2013, The Canadian journal of urology.

[13]  H. G. van der Poel,et al.  Timing of curative treatment for prostate cancer: a systematic review. , 2013, European urology.

[14]  M. Terris,et al.  Delayed radical prostatectomy for intermediate‐risk prostate cancer is associated with biochemical recurrence: Possible implications for active surveillance from the SEARCH database , 2013, The Prostate.

[15]  F. Montorsi,et al.  Is a treatment delay in radical prostatectomy safe in individuals with low-risk prostate cancer? , 2012, The journal of sexual medicine.

[16]  J. McKiernan,et al.  Effect of delaying surgery on radical prostatectomy outcomes: a contemporary analysis , 2012, BJU international.

[17]  W. Catalona,et al.  Delay of surgery in men with low risk prostate cancer. , 2011, The Journal of urology.

[18]  Kirsten L. Greene,et al.  Surgical management after active surveillance for low‐risk prostate cancer: pathological outcomes compared with men undergoing immediate treatment , 2011, BJU international.

[19]  M. Cooperberg,et al.  The CAPRA-S score: A straightforward tool for improved prediction of outcomes after radical prostatectomy. , 2011 .

[20]  E. Steyerberg,et al.  Is delayed radical prostatectomy in men with low‐risk screen‐detected prostate cancer associated with a higher risk of unfavorable outcomes? , 2010, Cancer.

[21]  A. Laupacis,et al.  Longer wait times increase overall mortality in patients with bladder cancer. , 2009, The Journal of urology.

[22]  P. Clark,et al.  Does a delay in initiating definitive therapy affect biochemical recurrence rates in men with clinically localized prostate cancer? , 2007, Urologic oncology.

[23]  M. Gleave,et al.  Does prolonging the time to prostate cancer surgery impact long-term cancer control: a systematic review of the literature. , 2006, The Canadian journal of urology.

[24]  M. Terris,et al.  Delay of radical prostatectomy and risk of biochemical progression in men with low risk prostate cancer. , 2006, The Journal of urology.

[25]  P. Scardino,et al.  Does a delay between diagnosis and radical prostatectomy increase the risk of disease recurrence? , 2006, Cancer.

[26]  B. Konety,et al.  Does the interval between prostate biopsy and radical prostatectomy affect the immediate postoperative outcome? , 2006, BJU international.

[27]  P. Scardino,et al.  Does the time from biopsy to surgery affect biochemical recurrence after radical prostatectomy? , 2005, BJU international.

[28]  A. Haese*,et al.  Reasonable delay of surgical treatment in men with localized prostate cancer--impact on prognosis? , 2005, European urology.

[29]  A. Renshaw,et al.  The impact of a delay in initiating radiation therapy on prostate‐specific antigen outcome for patients with clinically localized prostate carcinoma , 2005, Cancer.

[30]  M. Brundage,et al.  A population-based study of the waiting times for prostatectomy in Ontario. , 2005, The Canadian journal of urology.

[31]  A. Partin,et al.  Impact of surgical delay on long-term cancer control for clinically localized prostate cancer. , 2004, The Journal of urology.

[32]  A. Evans,et al.  Delay in surgical therapy for clinically localized prostate cancer and biochemical recurrence after radical prostatectomy. , 2003, The Canadian journal of urology.

[33]  Lisa Barbera,et al.  Does delay in starting treatment affect the outcomes of radiotherapy? A systematic review. , 2003, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[34]  N. O'Rourke,et al.  Lung cancer treatment waiting times and tumour growth. , 2000, Clinical oncology (Royal College of Radiologists (Great Britain)).

[35]  S B Malkowicz,et al.  Biochemical Outcome After Radical Prostatectomy , External Beam Radiation Therapy , or Interstitial Radiation Therapy for Clinically Localized Prostate Cancer , 2000 .