Bipolar enucleation of the prostate-step by step.

Bipolar enucleation of prostate (BipolEP) is a useful method for treatment of benign prostatic hyperplasia (BPH). Compared with conventional transurethral resection, the enucleation technique has several advantages. However, since the cost of laser equipment used for enucleation is relatively high, enucleation using bipolar devices has been attempted by many previous surgeons. We consider bipolar enucleation is an effective and safe procedure, and we would like to share our experience of equipment settings and procedures through this article. We will introduce the equipment and settings of BipolEP and then present the actual step-by-step procedures and surgical tips. First, circular incisions are made on bladder neck and mucosa at the level of verumontanum. Then, enucleation is performed in the order of median and lateral lobes as in laser enucleation. Haemostasis should be done throughout the procedure. After enucleation and haemostasis, prostatic tissue is evacuated by morcellator. Currently, there are several types of electrode and morcellator systems. In our experience, BipolEP has a steep learning curve but it is safe and effective procedure for managing BPH. In particular, effective haemostasis is the greatest advantage of BipolEP when compared to traditional TUR or laser enucleation.

Clinical application of the therapeutic ultrasound in urologic disease: Part II of therapeutic ultrasound in urology.

This article aimed to review the clinical application and evidence of the therapeutic ultrasound in detail for urological diseases such as prostate cancer, kidney tumor, erectile dysfunction, and urolithiasis. We searched for articles about high-intensity focused ultrasound (HIFU), extracorporeal shock wave therapy, ultrasound lithotripsy, and extracorporeal shockwave lithotripsy (ESWL) in the MEDLINE and Embase. HIFU may be indicated as a primary treatment for low- or intermediate-risk prostate cancer, and salvage therapy for local recurrence as a promising way to address the limitations of current standard therapies. The application of HIFU in treating kidney tumors has scarcely been reported with unsatisfactory results. Evidence indicates that low-intensity shockwave therapy improves subjective and objective erectile function in patients with erectile dysfunction. Regarding the application of ultrasound in stone management, the novel combination of ultrasound lithotripsy and other energy sources in a single probe promises to be a game-changer in efficiently disintegrating large kidney stones in percutaneous nephrolithotomy. ESWL is losing its role in managing upper urinary tract calculi worldwide. The burst-wave lithotripsy and ultrasound propulsion could be the new hope to regain its position in the lithotripsy field. According to our investigations and reviews, cavitation bubbles of the therapeutic ultrasound are actively being used in the field of urology. Although clinical evidence has been accumulated in urological diseases such as prostate cancer, kidney tumor, erectile dysfunction, and lithotripsy, further development is needed to be a game-changer in treating these diseases.

How to reduce 'double-firing'-induced scope damage by investigating the relationship between laser fiber core degradation and fiber jacket burn?

PURPOSE: 'Double-firing effect' in which laser firing occurs in the fiber tip and its proximal part is caused by different breakdown rates between fiber jackets and cores. This study investigated a new safe distance concept to prevent scope damage by analyzing the breakdown of the laser fiber jacket and cores. METHODS: Laser fibers were fixed in a benchtop simulation model. The fiber tip was in contact with uniform phantom stones and submerged in saline. Four different energy settings (1.0 or 2.0J x 10Hz or 30Hz) and two different fiber sizes (200 µm and 365 µm) were tested. After three minutes of use at each energy setting, the length of fiber shortening and jacket burn were measured. The fibers were stripped to measure the length of core degradation. RESULTS: Mean degradation lengths were 4.2 to 7.8 mm. There was no statistical difference in the mean lengths of fiber core degradation and jacket burn. However, core degradation was longer than the jacket burn in half of the samples. The mean difference in lengths between core degradation and jacket burn was 0.49 ± 0.90 mm. Lengths of core degradation and the jacket burn were longer at the setting of high-power energy and 200 µm fiber - 2J with 30 Hz. CONCLUSION: To reduce 'double-firing'-induced damage, the authors recommend that laser fiber should be cut 1.0 mm longer than visible jacket burn at high-power settings after 3-min continuous fragmentation. After cutting the fiber, the laser should be checked whether 'double-firing' is no more seen.