PMID- 23074487
OWN - NLM
STAT- PubMed-not-MEDLINE
DCOM- 20121018
LR  - 20240323
IS  - 1915-7398 (Print)
IS  - 1915-7398 (Electronic)
IS  - 1915-7398 (Linking)
VI  - 6
IP  - 17
DP  - 2006
TI  - Energy delivery systems for treatment of benign prostatic hyperplasia: an 
      evidence-based analysis.
PG  - 1-121
AB  - OBJECTIVE: The Ontario Health Technology Advisory Committee asked the Medical 
      Advisory Secretariat (MAS) to conduct a health technology assessment on energy 
      delivery systems for the treatment of benign prostatic hyperplasia (BPH). 
      CLINICAL NEED: TARGET POPULATION AND CONDITION BPH is a noncancerous enlargement 
      of the prostate gland and the most common benign tumour in aging men. (1) It is 
      the most common cause of lower urinary tract symptoms (LUTS) and bladder outlet 
      obstruction (BOO) and is an important cause of diminished quality of life among 
      aging men. (2) The primary goal in the management of BPH for most patients is a 
      subjective improvement in urinary symptoms and quality of life. Until the 1930s, 
      open prostatectomy, though invasive, was the most effective form of surgical 
      treatment for BPH. Today, the benchmark surgical treatment for BPH is 
      transurethral resection of the prostate (TURP), which produces significant 
      changes of all subjective and objective outcome parameters. Complications after 
      TURP include hemorrhage during or after the procedure, which often necessitates 
      blood transfusion; transurethral resection (TUR) syndrome; urinary incontinence; 
      bladder neck stricture; and sexual dysfunction. A retrospective review of 4,031 
      TURP procedures performed by one surgeon between 1979 and 2003 showed that the 
      incidence of complications was 2.4% for blood transfusion, 0.3% for TUR syndrome, 
      1.5% for hemostatic procedures, 2.8% for bladder neck contracture, and 1% for 
      urinary stricture. However, the incidence of blood transfusion and TUR syndrome 
      decreased as the surgeon's skills improved. During the 1990s, a variety of 
      endoscopic techniques using a range of energy sources have been developed as 
      alternative treatments for BPH. These techniques include the use of light 
      amplification by stimulated emission of radiation (laser), radiofrequency, 
      microwave, and ultrasound, to heat prostate tissue and cause coagulation or 
      vaporization. In addition, new electrosurgical techniques that use higher amounts 
      of energy to cut, coagulate, and vaporize prostatic tissue have entered the 
      market as competitors to TURP. The driving force behind these new treatment 
      modalities is the potential of producing good hemostasis, thereby reducing 
      catheterization time and length of hospital stay. Some have the potential to be 
      used in an office environment and performed under local anesthesia. Therefore, 
      these new procedures have the potential to rival TURP if their effectiveness is 
      proven over the long term. THE TECHNOLOGY BEING REVIEWED: The following 
      energy-based techniques were considered for assessment: transurethral 
      electrovaporization of the prostate (TUVP)transurethral electrovapor resection of 
      the prostate (TUVRP)transurethral electrovaporization of the prostate using 
      bipolar energy (plasmakinetic vaporization of the prostate [PKVP])visual laser 
      ablation of the prostate (VLAP)transurethral ultrasound guided laser incision 
      prostatectomy (TULIP)contact laser vaporization of the prostate (CLV)interstitial 
      laser coagulation (ILC)holmium laser resection of the prostate (HoLRP)holmium 
      laser enucleation of the prostate (HoLEP)holmium laser ablation of the prostate 
      (HoLAP)potassium titanyl phosphate (KTP) lasertransurethral microwave 
      thermotherapy (TUMT)transurethral needle ablation (TUNA) REVIEW STRATEGY: A 
      search of electronic databases (OVID MEDLINE, MEDLINE In-Process & Other 
      Non-Indexed Citations, EMBASE, The Cochrane Library, and the International Agency 
      for Health Technology Assessment [INAHTA] database) was undertaken to identify 
      evidence published from January 1, 2000 to June 21, 2006. The search was limited 
      to English-language articles and human studies. The literature search identified 
      284 citations, of which 38 randomized controlled trials (RCTs) met the inclusion 
      criteria. Since the application of high-power (80 W) KTP laser (photoselective 
      vaporization of the prostate [PVP]) has been supported in the United States and 
      has resulted in a rapid diffusion of this technology in the absence of any RCTs, 
      the MAS decided that any comparative studies on PVP should be identified and 
      evaluated. Hence, the literature was searched and one prospective cohort study 
      (3) was identified but evaluated separately. FINDINGS OF LITERATURE REVIEW AND 
      ANALYSIS: Meta-analysis of the results of RCTs shows that monopolar 
      electrovaporization is as clinically effective as TURP for the relief of urinary 
      symptoms caused by BPH (based on 5-year follow-up data). Meta-analysis of the 
      results of RCTs shows that bipolar electrovaporization (PKVP) is clinically as 
      effective as TURP for the relief of urinary symptoms caused by BPH (based on 
      1-year follow-up data). Two of the three RCTs on VLAP have shown that patients 
      undergoing VLAP had a significantly lesser improvement in urinary symptom scores 
      compared with patients undergoing TURP.RCTs showed that the time to catheter 
      removal was significantly longer in patients undergoing VLAP compared with 
      patients undergoing TURP.Meta-analysis of the rate of reoperation showed that 
      patients undergoing VLAP had a significantly higher rate of reoperation compared 
      with patients undergoing TURP.Meta-analysis showed that patients undergoing CLV 
      had a significantly lesser improvement in urinary symptom scores compared with 
      TURP at 2 years and at 3 or more years of follow-up.Two RCTs with 6-month and 
      2-year follow-up showed similar improvement in symptom scores for ILC and 
      TURP.Time to catheter removal was significantly longer in patients undergoing ILC 
      compared with patients undergoing TURP.The results of RCTs on HoLEP with 1-year 
      follow-up showed excellent clinical outcomes with regard to the urinary symptom 
      score and peak urinary flow.Meta-analysis showed that at 1-year follow-up, 
      patients undergoing HoLEP had a significantly greater improvement in urinary 
      symptom scores and peak flow rate compared with patients undergoing 
      TURP.Procedural time is significantly longer in HoLEP compared with TURP.The 
      results of one RCT with 4-year follow-up showed that HoLRP and TURP provided 
      equivalent improvement in urinary symptom scores.The results of one RCT with 
      1-year follow-up showed that patients undergoing KTP had a lesser improvement in 
      urinary symptom scores than did patients undergoing TURP. However, the results 
      were not significant at longer-term follow-up periods.Two RCTs that provided 
      3-year follow-up data reported that patients undergoing TUMT had a significantly 
      lesser improvement in symptom score compared with patients undergoing TURP.RCTs 
      reported a longer duration of catheterization for TUMT compared with TURP (P 
      values are not reported).The results of a large RCT with 5-year follow-up showed 
      a significantly lesser improvement in symptom scores in patients undergoing TUNA 
      compared with patients undergoing TURP.Meta-analysis of the rate of reoperation 
      showed that patients undergoing TUNA had a significantly higher rate of 
      reoperation compared with patients undergoing TURP.Based on the results of RCTs, 
      TURP is associated with a 0.5% risk of TUR syndrome, while no cases of TUR 
      syndrome have been reported in patients undergoing monopolar or bipolar 
      electrovaporization, laser-based procedures, TUMT, or TUNA.Based on the results 
      of RCTs, the rate of blood transfusion ranges from 0% to 8.3% in patients 
      undergoing TURP. The rate is about 1.7% in monopolar electrovaporization, 1.4% in 
      bipolar electrovaporization, and 0.4% in the VLAP procedure. No patients 
      undergoing CLV, ILC, HoLEP, HoLRP, KTP, TUMT, and TUNA required blood 
      transfusion.The mean length of hospital stay is between 2 and 5 days for patients 
      undergoing TURP, about 3 days for electrovaporization, about 2 to 4 days for 
      Nd:YAG laser procedures, and about 1 to 2 days for holmium laser procedures. TUMT 
      and TUNA can each be performed as a day procedure in an outpatient setting (0.5 
      and 1 day respectively).Based on a prospective cohort study, PVP is clinically as 
      effective as TURP for the relief of urinary symptoms caused by BPH (based on 
      6-month follow-up data). Time to catheter removal was significantly shorter in 
      patients undergoing PVP than in those undergoing TURP. Operating room time was 
      significantly longer in PVP than in TURP. PVP has the potential to reduce health 
      care expenses due to shorter hospital stays. ECONOMIC ANALYSIS: In the three most 
      recent fiscal years (FY) reported, an average of approximately 5,000 TURP 
      procedures per year were performed in Ontario. From FY 2002 to FY 2004, the total 
      number of surgical interventions decreased by approximately 500 procedures. 
      During this time, the increase in costs of drugs to the government was estimated 
      at approximately $10 million (Cdn); however, there was a concurrent decrease in 
      costs due to a decline in the total number of surgical procedures, estimated at 
      approximately $1.9 million (Cdn). From FY 2002 to FY 2004, the increase in costs 
      associated with the increase in utilization of drugs for the treatment of BPH 
      translates into $353 (Cdn) per patient while the cost savings associated with a 
      decrease in the total number of surgical procedures translates into a savings of 
      $3,906 (Cdn) per patient. The following table summarizes the change in the 
      current budget, depending on various estimates of the total percentage of the 
      5,000 TURP procedures that might be replaced by other energy-based interventions 
      for the treatment of BPH in the future. Executive Summary Table 1:Budget Impact 
      With Various Estimates of the Percentage of TURP Procedures Captured by 
      Energy-based Interventions for the Treatment of BPHTechnologyCost perprocedure, 
      $Budget Impact of 25% diffusion, $MBudget Impact of 50% diffusion, $MBudget 
      Impact of 75% diffusion, $MBudget Impact of 100% diffusion, $MIncremental Budget 
      Impact, $MTURP3,88719.4Bipolar 
      Electrovaporization4,01119.619.719.920.00.6Monopolar 
      Electrovaporization4,13019.720.020.320.61.2TUMT1,52916.513.510.67.6(11.8) TUNA4,80420.621.722.924.04.6PVP1,18416.012.79.35. 
      (ABSTRACT TRUNCATED)
CN  - Medical Advisory Secretariat
LA  - eng
PT  - Journal Article
DEP - 20060801
PL  - Canada
TA  - Ont Health Technol Assess Ser
JT  - Ontario health technology assessment series
JID - 101521610
PMC - PMC3379165
EDAT- 2006/01/01 00:00
MHDA- 2006/01/01 00:01
PMCR- 2006/08/01
CRDT- 2012/10/18 06:00
PHST- 2012/10/18 06:00 [entrez]
PHST- 2006/01/01 00:00 [pubmed]
PHST- 2006/01/01 00:01 [medline]
PHST- 2006/08/01 00:00 [pmc-release]
PST - ppublish
SO  - Ont Health Technol Assess Ser. 2006;6(17):1-121. Epub 2006 Aug 1.