Several studies of ureteroscopic treatment for ureteral stones have reported that most stone clearance failures can be attributed to stone fragment retropulsion. Stone retropulsion can result in increased operative time and cost-resulting from the need to change from the semi-rigid ureteroscope to a flexible instrument to chase migrated calculi-and additional procedures to treat residual migrated fragments are often required. The degree of migration depends mainly on the energy source used for lithotripsy; pneumatic and electrohydraulic lithotripters are associated with a greater degree of retropulsion than lasers. Different stone-trapping strategies and devices have been developed to minimize stone migration. Novel devices include the Lithovac(®) suction device, the Passport(™) balloon, the Stone Cone(™), the PercSys Accordion(®), the NTrap(®), and stone baskets such as the LithoCatch(™), the Parachute(™), and the Escape(®). Some authors have also reported on the use of lubricating jelly and BackStop(®) gel (a reverse thermosensitive polymeric plug); these devices are instilled proximal to the stone prior to the application of kinetic energy in order to prevent retrograde stone migration.
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Department of Urology, Zhongnan Hospital of Wuhan University, Wuhan, China.
Purpose: To evaluate the effectiveness and safety of an upgraded integrated vacuum suction catheter in semi-rigid ureteroscopic laser lithotripsy (VC-URSL) compared to traditional methods for treating impacted upper ureteral stones.
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The Department of Urology, Kansai Electric Power Hospital.
Transurethral lithotripsy (TUL) using holmium YAG laser has become the standard treatment for kidney stones. Mosesᵀᴹ technology, which delivers the laser with less energy loss, has been introduced and is reported to have advantages over regular laser in terms of shorter operation time and lithotripsy efficiency, but there are few reports from general hospitals. We retrospectively compared the perioperative and postoperative outcome, and complications of 28 cases of TUL using Mosesᵀᴹ mode performed from August 2021 to January 2023 at our hospital, and 25 cases of TUL using regular laser from August 2020 to July 2021.
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Department of Urology, Faculty of Medicine, Universitas Airlangga-Indonesia.
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