Positive surgical margin and perioperative complication rates of primary surgical treatments for prostate cancer: a systematic review and meta-analysis comparing retropubic, laparoscopic, and robotic prostatectomy.
Eur. Urol., Jul;62(1):1-15 (2012)
Robotic prostatectomy: a review of outcomes compared with laparoscopic and open approaches.
Urology., Jul;72(1):15-23 (2008)
Optimizing vesicourethral anastomosis healing after robot-assisted laparoscopic radical prostatectomy: lessons learned from three techniques in 1900 patients.
J. Endourol., Dec;24(12):1975-83 (2010)
Predictive models for worsening prognosis in potential candidates for active surveillance of presumed low-risk prostate cancer.
Int Urol Nephrol., Apr;44(2):459-70 (2012)
Long-term survival in men with high grade prostate cancer: a comparison between conservative treatment, radiation therapy and radical prostatectomy--a propensity scoring approach.
J. Urol., Mar;177(3):911-5 (2007)
Cancer control and the preservation of neurovascular tissue: how to meet competing goals during robotic radical prostatectomy.
BJU Int., Apr;101(8):1013-8 (2008)
Second Prize: Pelvic neuroanatomy and innovative approaches to minimize nerve damage and maximize cancer control in patients undergoing robot-assisted radical prostatectomy.
J. Endourol., Jun;22(6):1137-46 (2008)
Catheter-less robotic radical prostatectomy using a custom-made synchronous anastomotic splint and vesical urinary diversion device: report of the initial series and perioperative outcomes.
BJU Int., Sep;102(8):1000-4 (2008)
Does 3-Dimensional (3-D) visualization improve the quality of assistance during robotic radical prostatectomy?
World J Urol., Feb;27(1):95-9 (2009)
The case for robot-assisted radical prostatectomy.
J. Endourol., Sep;22(9):2039-43; discussion 2049 (2008)
Robotic prostatectomy: a pooled analysis of published literature.
Expert Rev Anticancer Ther., Jan;6(1):11-20 (2006)
Identification of the retrotrigonal layer as a key anatomical landmark during robotically assisted radical prostatectomy.
BJU Int., Oct;98(4):829-32 (2006)
The proximal neurovascular plate and the tri-zonal neural architecture around the prostate gland: importance in the athermal robotic technique of nerve-sparing prostatectomy.
BJU Int., Aug;98(2):314-23 (2006)
Long-term survival probability in men with clinically localized prostate cancer treated either conservatively or with definitive treatment (radiotherapy or radical prostatectomy).
Urology., Dec;68(6):1268-74 (2006)
Nerve-sparing during robotic radical prostatectomy: use of computer modeling and anatomic data to establish critical steps and maneuvers.
Curr Urol Rep., Mar;6(2):126-8 (2005)
Effect of a Risk-stratified Grade of Nerve-sparing Technique on Early Return of Continence After Robot-assisted Laparoscopic Radical Prostatectomy.
Eur. Urol., Jul (2012)
Re: Prospective Assessment of Prostate Cancer Aggressiveness Using 3-T Diffusion-weighted Magnetic Resonance Imaging-guided Biopsies Versus a Systematic 10-core Transrectal Ultrasound Prostate Biopsy Cohort.
Eur. Urol., Oct;62(4):731-2 (2012)
Screening for cancer of the prostate: do we have an answer?
Natl Med J India., 22(4):184-7 (2009)
LESSons in minimally invasive urology.
BJU Int., May;107(10):1555-9 (2011)
Prostate volume and its correlation with histopathological outcomes in prostate cancer.
Urol. Int., 86(2):152-5 (2011)