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  • Photoselective vaporization of the prostate in office and outpatient settings

    Rosenthal D. Brian , DiTrolio V. Joseph, MD Urological Associates of Montgomery County, East Norriton, Pennsylvania, USA

    The 980 nm/1470 nm diode laser represents the latest in laser technology for photovaporization of the prostate. Surgeons have already used this device in both inpatient and outpatient (office and ASC) setting to produce transurethral resection of the prostate (TURP) like lesions-albeit with fewer complications than traditional methods. The objective of this article is to report the techniques we used to demonstrate its efficacy and safety of the Evolve Dual (biolitec Inc., East Longmeadow, MA, USA) system in an outpatient surgery type setting.

    Keywords: photovaporization, in office, holmium laser prostatectomy, holmium laser enucleation of the prostate (HoLEP), intravesical tissue morcellation,

    Apr 2012 (Vol. 19, Issue 2 , Page 6223)
  • GreenLight 180W XPS photovaporization of the prostate: how I do it

    Zorn C. Kevin, Liberman Daniel, MD Department of Urology, University of Montreal Hospital Center (CHUM), Montreal, Quebec, Canada

    Transurethral resection of the prostate (TURP) is the most common surgical intervention for benign prostatic hyperplasia (BPH), largely due to lower urinary tract symptoms refractory to medical therapy. TURP remains the gold standard for men with prostates sized 30g-80g, while open prostatectomy has been the preferred option for men with glands larger than 80g-100 g and those with other lower urinary tract anomalies such as large bladder stones or bladder diverticula. Unfortunately, these procedures have complications including bleeding (often requiring transfusion in 7%-13% of cases), electrolyte abnormalities (2% TURP syndrome), erectile dysfunction (6%-10%), and retrograde ejaculation (50%-75%). The overall incidence of a second intervention (repeat TURP, urethrotomy and bladder neck incision) has been reported in 12% and 15% of men at 5 and 10 years following TURP. Alternative therapies have been developed with the aim of reducing the level of complications while maintaining efficacy. These include microwave therapy, transurethral needle ablation, and a range of laser procedures (Holmium, Diode, Thulium and 532nm-Greenlight). Photoselective vaporization of the prostate (PVP), initially launched as a 60W prototype, was ultimately introduced to the urology community as a 80W system (American Medical Systems, Minnetonka, Minnesota, USA), has been the predominant device used in clinical trials. This 1st generation used an Nd:YAG laser beam passed through a potassium-titanyl-phosphate (KTP) crystal, halving the wavelength (to 532nm), doubling the laser’s frequency, and resulting in a green light. Outcomes have demonstrated a reduced frequency and severity of clinical complications, however it was limited to smaller prostate sizes. In 2006, the 120W lithium triborate laser (LBO), also known as the GreenLight HPS (High Performance System) laser was introduced. This laser utilizes a diode pumped Nd:YAG laser light that is emitted through an LBO instead of a KTP crystal, resulting in a higher-powered 532 nm wavelength green light laser while still using the same 70-degree deflecting, side firing, silica fiber delivery system. The HPS offered an 88% more collimated beam and smaller spot size, resulting in much higher irradiance or power density in its 2 predecessors (60W and 80W) with a beam divergence of 8 versus 15 degrees. The primary aim for this upgrade was to reduce lasing time and improve clinical outcomes while demonstrating the same degree of safety for patients. Limitations of the 120W system included treatment of large prostates greater than 80g-100g and increased cost related to fiber devitrification and fracture. In 2011, the 180W-Greenlight XPS system was introduced, not only with increased power setting to vaporize tissue quicker but significant fiber-design changes. Internal cooling, metal-tip cap protection and FiberLife (temperature sensing feedback), better preserve the integrity of the fiber generally producing a 1-fiber per case expectation. Initial personal experience with XPS has provided comparable outcomes related to morbidity, but with the opportunity to perform a more complete and rapid procedure. Published clinical data with the XPS is unfortunately lacking. The objective of this report is to detail our approach and technique for GreenLight XPS drawing on personal experience with both enucleation and vaporization techniques with various laser technologies along with having performed over 500 GreenLight HPS and 100 XPS procedures. In this regard, recommendations for training are also made, which relate to existing users of the 80W and 120W GreenLight laser as well as to new laser users.

    Keywords: outpatient, in office, adjuvant radiation,

    Oct 2011 (Vol. 18, Issue 5 , Page 5918)
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