MISCELLANEOUS Safety and Efficacy of Bipolar Versus Monopolar Transurethral Resection of the Prostate: A Comparative Study Erkan Hirik,1 Aliseydi Bozkurt,1 Mehmet Karabakan,1* Huseyin Aydemir,2 Binhan Kagan Aktas,3 Baris Nuhoglu1 Purpose: Transurethral resection of the prostate (TURP) is considered gold standard for surgical treatment of be- nign prostatic hyperplasia (BPH). In this study, we aimed to compare post-operative clinical outcomes and adverse effects between monopolar and bipolar TURPs. Materials and Methods: The study included 590 patients who underwent TURP by a single urologist (E.H.) between June 2006 and June 2014 with a diagnosis of BPH. Patients were divided into two groups as monopolar TURP (group 1, n = 300) and bipolar TURP (group 2, n = 290). Patients receiving oral anticoagulants or aspirin and those with prostate cancer diagnosis were not included in the study. Data regarding pre-operative age, International Prostate Symptom Score (IPSS), maximum urinary flow rate (Qmax), post voiding residual urine volume (PVR), serum prostate specific antigen (PSA) levels and prostate volume (Vp) of the patients were gathered from medical records. Groups were compared in terms of catheterization, operation time, hemoglobin (Hb) decrease, and IPSS, Qmax, and PVR values at post-operative 12th month follow-up visit. Results: From pre-operative to post-operative period, IPSS, Qmax and PVR showed significant improvements within both groups (P < .001). When groups were compared with each other, bipolar TURP group had significantly lesser catheterization time and hemoglobin decrease than monopolar TURP group, while no significant differences were detected regarding all other variables. Conclusion: Bipolar and monopolar TURPs are both effective and safe treatment modality for BPH. Bipolar TURP is superior to conventional monopolar TURP in terms of catheterization time and Hb decrease. Keywords: prostatic hyperplasia; surgery; prospective studies; transurethral resection of prostate; methods; elec- trosurgery; adverse effects; hot temperature; electrocoagulation; instrumentation. INTRODUCTION Benign prostatic hyperplasia (BPH) is one of the most common urological diseases seen in aging men. The objectives of most of the methods used in the treatment of BPH are to eliminate lower urinary tract symptoms (LUTS), prevent disease progression, and reduce any complications that may emerge in the long- term.(1) Surgical treatment is recommended for patients unresponsive to medical therapy or those who have de- veloped BPH-related complications.(2) Given the long- term results of randomized controlled trials (RCTs),- monopolar transurethral resection (M-TURP) has been considered the gold standard for surgical treatment of BPH.(3) This surgical technique involves endoscopic re- moval of inner prostate gland using a diathermy unit. Although high success rates of M-TURP have been demonstrated with symptom score, urine flow rate, and other functional parameters, it is associated with 1 Department of Urology, Mengucek Gazi Training and Research Hospital, Erzincan University, Erzincan, Turkey. 2 Department of Urology, Sakarya Education and Training Hospital, Sakarya, Turkey. 3 Department of Urology, Ankara Numune Education and Training Hospital, Ankara, Turkey. *Correspondence: Department of Urology, Mengucek Gazi Training and Research Hospital, Erzincan University, Basbaglar mah., Mengucek Gazi Hospital, no. 7, Erzincan, Turkey. Tel: +90 446 212 2222. Fax: +90 446 212 2211. E-mail: mkarabakan@yandex.com. Received April 2015 & Accepted September 2015 significant morbidities, including perioperative and post-operative bleeding, TUR syndrome, extended hos- pitalization and even urinary incontinence, retrograde ejaculation and erectile dysfunction.(4) Therefore, sev- eral minimally invasive techniques using a variety of energy sources for resection, ablation or vaporization of the prostate have been developed in order to reduce the rates of TURP complications. These techniques are thought to be similar to M-TURP in terms of efficacy and safety but differ from it on some issues, such as the risk of developing TUR syndrome, requirement for blood transfusion, sexual function, and urinary inconti- nence rates.(5) Unlike the conventional M-TURP system, in bipolar energy system, TUR is performed after generating a high-frequency current between two electrodes. These systems are referred to as plasmakinetic resection or bipolar TURP (B-TURP), and their most important dis- Vol 12 No 06 November-December 2015 2452 Monopolar vs. Bipolar TURPs-Hirik et al. tinctive feature is elimination of TUR syndrome risk due to the use of isotonic fluid, instead of the irriga- tion fluid used in conventional TURP.(6) In this study, we aimed to compare post-operative clinical results and side effects of monopolar and bipolar TURPs. MATERIALS AND METHODS Study Population Of 916 patients diagnosed with BPH who underwent TURP performed by a single urologist (E.H.) in 3 dif- ferent hospitals located in the province of Erzincan from June 2006 to June 2014, 590 patients whose re- cords were accessible were studied. Patients were di- vided into two groups as M-TURP (group 1, n = 300) and B-TURP (group 2, n = 290). Patients diagnosed with cancer based on pathological results, those with a history of previous prostate surgery, neurogenic lower urinary tract dysfunction and those receiving oral an- ticoagulants or aspirin were excluded from the study. Upper limit criterion for weight of prostate wasn’t used. Required ethical permissions of the study have been ob- tained from Ethics Committee of Erzincan University, Mengucek Gazi Training, and Research Hospital. Evaluations and Procedures Data regarding pre-operative age, International Prostate Symptom Score (IPSS), maximum urinary flow rate (Qmax), post voiding residual urine volume (PVR), serum prostate specific antigen (PSA) levels, and pros- tate volumes (Vp) of the patients were obtained from medical records. All patients received spinal anesthesia. Storz resectoscope (Karl Storz GmbH, Tuttlingen, Ger- many) with 26 French (F) sheath was used for all pa- tients who underwent M-TURP, while Gyrus plasmaki- netic system resectoscope (Gyrus Medical Ltd., Bucks, UK) with 26 F sheath was used for B-TURP patients. Groups were compared in terms of urethral catheteriza- tion and operation time, decrease in hemoglobin (Hb), and IPSS, Qmax, and PVR values at post-operative 12th month follow-up visit. Statistical Analysis Statistical analysis was performed using Statistical Package for the Social Science (SPSS Inc, Chicago, Illi- nois, USA) version 15.0 for Windows. Comparison was done using chi-square test for independent variables and the Mann-Whitney U test. A power analysis and multivariate regression analysis were also performed and added into the study. RESULTS There were no statistically significant differences be- tween the two groups in terms of demographic char- acteristics. When intragroup pre-operative and post-op- erative data were compared, both groups were found to have significant improvements in IPSS, Qmax, and PVR (P < .001). When the groups were compared with each other, B-TURP group was found to have signifi- Figure 1. Multiple regression analysis of preoperative prostate volume and hemoglobin decrease and catheterization time in monopolar TURP method. Abbreviations: Vp, prostate volume; Preop, preoperative, Hb, hemoglobin; SE, standard error; CI, confidence interval; r, correlation coefficient. Miscellaneous 2453 cantly shorter catheterization time (B-TURP 3.4 days, M-TURP 3.1 days, P = .001), and less hemoglobin decrease (B-TURP 16.9%, M-TURP 18.5%, P = .006) as compared to M-TURP group. Twelve patients (4%) from monopolar group and 3 (9%) patients from bipo- lar group required transfusion. No differences were de- tected in terms of all other variables (operation time, post-operative IPSS, post-operative PVR, and post-op- erative Qmax) (Table). TUR syndrome as dilutional hyponatremia was observed in 2 patients (0.6%) in monopolar group, where as none of the patients from bipolar group developed TUR syndrome. Figure 2. Multiple regression analysis of preoperative prostate volume and hemoglobin decrease and catheterization time in bipolar TURP method. Abbreviations: Vp, prostate volume; Preop, preoperative, Hb, hemoglobin; SE, standard error; CI, confidence interval; r, correlation coefficient. Variables Monopolar TURP (n = 300) Bipolar TURP (n = 290) P Value Age (years) 65.3 ± 9.3 66.4 ± 9.2 .154 Pre-operative IPSS (0-35) 23.7 ± 4.3 23.9 ± 4.5 .632 Pre-operative Qmax (mL/s) 5.8 ± 2.4 5.8 ± 2.4 .840 Pre-operative PVR (mL) 333.4 ± 212.3 309.1 ± 195.0 .149 Pre-operative Vp (mL) 63.7 ± 13.7 63.8 ± 14.1 .970 Pre-operative PSA (ng/mL) 3.2 ± 1.2 3.1 ± 1.3 .451 Post-operative IPSS (0-35) 6.1 ± 1.4 6.2 ± 1.3 .597 Post-operative Qmax (mL/s) 20.4 ± 2.4 20.1 ± 2.6 .254 Post-operative PVR (mL) 71.8 ± 42.5 68.9 ± 40.6 .390 Operation time (min) 60.6 ± 9.3 59.6 ± 9.4 .201 Catheterization time (days) 3.4 ± 0.8 3.1 ± 0.7 .001 Percentage change in post-operative IPSS -73.6 ± 7.2 -73.4 ± 7.5 .760 Percentage change in post-operative Qmax 251.3 ± 118.2 234.6 ± 105.1 .085 Percentage change in post-operative PVR -68.6 ± 33.1 -68.5 ± 31.6 .971 Percentage change in post-operative Hb -17.9 ± 7.2 -16.9 ± 6.0 .006 Abbreviations: TURP, transurethral resection of the prostate; IPSS, International Prostate Symptom Score; Qmax, maximum urinary flow rate; PVR, post voiding residual urine volume; Vp, prostate volume; Hb, hemoglobin; PSA, prostate specific antigen. Table. Comparison of data between the two study groups. Monopolar vs. Bipolar TURPs-Hirik et al. Vol 12 No 06 November-December 2015 2454 The sample numbers that describe catheterization time and the level of the percentage change in Hb were se- lected by the order minimum 171 and 213 (n2/n1: 1, β = 0.20 vs α = 0.05). Therefore, in accordance to the number of samples, the power indicator numbers were calculated by the order 0.961 and 0.915 in this study. Upon the analysis through multiple regression between prostate scales and the length of catheterization time and also the change of %Hb (independent parameter), it was obtained that 24% of the patients were under influ- ence of such relevance (P < .001). Additionally, results of Spearman correlation analysis showed that there is a higher correlation between Vp and catheterization time as well as the change of %Hb in B-TURP method than monopolar method (P < .001) (Figures 1 and 2). DISCUSSION Surgical treatment is recommended for patients who do not benefit from medical treatment or those who have developed complications due to BPH (recurrent urinary retention, recurrent urinary tract infections, recurrent hematuria, renal failure, bladder stones, and etc.).(7) The goal of BPH treatment is to improve the quality of life, reduce symptoms and minimize adverse effects.(8) TUR syndrome is the greatest cause of morbidity aris- ing during operation. It may lead to clinical conditions, including headache, restlessness, confusion, cyanosis, dyspnea, arrhythmias, hypotension, convulsion, along with dilutional hyponatremia, and may even be fatal. (9) Particularly in conventional monopolar systems, gly- cine solution causing TUR syndrome is used as irrigat- ing fluid, while isotonic saline solution is used for the same purpose in bipolar systems. The use of isotonic irrigation fluid theoretically may lead to decreased se- rum Na levels to a lesser extent and prevent the devel- opment of TUR syndrome. However, regardless of the type of irrigation fluid, it should be noted that fluid ab- sorption to systemic circulation is not eliminated during the operation.(6) There is no report of TUR syndrome with B-TURP in the literature.(10,11) In our study, TUR syndrome as dilutional hyponatremia developed in 2 patients (0.6%) in the monopolar group, whereas TUR syndrome was not observed in any of the patients in bipolar group. If monopolar energy will be used, it is recommended to take precautions to prevent TUR syn- drome such as avoiding extension of resection time (60 min), minimizing fluid pressure, and keeping the height of the fluid bag below 50 cm. A lot of work has reported that the bipolar system is reliable in terms of dilutional hyponatremia.(10-13) Despite its reduction with the use of bipolar techniques, one of the TURP complications is bleeding, which is seen in 5% of cases.(6) In a meta-analysis by Mamualakis and colleagues(12) evaluating 12 studies, no significant difference was found between B-TURP and M-TURP in terms of the requirement for transfusion. Similarly, Ahya and colleagues(18) did not identify any significant difference in terms of the requirement for transfusion in their meta-analysis covering 10 studies; similar results were also reported in other studies.(12,14,15) There are also studies indicating that the requirement for transfusion is less in the case of B-TURP group.(16,17) In the meta-anal- ysis of Mamualakis and colleagues,(12) in which they evaluated pre-operative and post-operative hemoglobin change, there was no difference between the two sys- tems in nine studies. Other studies in the literature did not identify statistically significant differences between the groups in terms of hemoglobin change.(11,13) In our study, it was revealed that the bipolar group had less he- moglobin loss, as compared to the monopolar group and 12 patients (4%) from monopolar group and 3 (9%) pa- tients from bipolar group required transfusion. In randomized controlled trials performed in terms of catheterization time, B-TURP method appears to be advantageous. However, it is not easy to compare catheterization times reported in the literature. Some of the studies reported catheter removal at 24 hours after irrigation became clear, whereas some reported cath- eter removal in all patients immediately when irriga- tion became clear or on post-operative day 1, making it difficult to evaluate the results.(13,15,18) However, Ahya and colleagues(18) compared catheterization times in their meta-analysis and found that B-TURP has slightly shorter catheterization time. In our study, we identified that B-TURP group had significantly shorter catheter- ization times as compared to M-TURP group. In our study, mean operation times for M-TURP and B-TUR-P were 60.6 ± 9.3 min and 59.6 ± 9.4 min, respectively and there was no statistically significant difference be- tween them. There was no statistical difference between the two groups, and yet a variety of findings on this issue were also reported in the literature. Erturhan and colleagues(16) found shorter operation times for bipolar group. Ho and colleagues(15) reported similar operation times for both groups. In a study by Michielsen and colleagues,(13) bipolar group had significantly longer operation times. The reported results vary depending on factors, including the experience of the surgeon, the loop size used, the amount of resected tissue, and etc. However, in our study, all patients underwent surgery by the same surgeon, making this study valuable and meaningful in this respect. Monopolar vs. Bipolar TURPs-Hirik et al. Miscellaneous 2455 CONCLUSIONS According to our results, B-TURP and M-TURP sys- tems were found to have similar outcomes in the post-operative period. Both methods proved to be effec- tive and safe in the treatment of BPH. We determined that B-TURP is superior to conventional M-TURP in terms of catheterization time and Hb decrease. CONFLICT OF INTEREST None declared. REFERENCES 1. Wilt TJ, N’Dow J. Benign prostatic hyperplasia. Part 2-management. BMJ. 2008;336:206-10. 2. Kaplan SA. Update on the American Urological Association Guidelines for the treatment of benign prostatic hyperplasia. Rev Urol. 2006;8(Suppl4):S10-S7. 3. AUA Practice Guidelines Committee. AUA Guideline on management of benign prostatic hyperplasia (2003). Chapter 1: Diagnosis and treatment recommendations. J Urol. 2003;170:530-47. 4. Reich O, Gratzke C, Stief CG. Techniques andlong-term results of surgical procedures for BPH. Eur Urol. 2006;49:970-8. 5. 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