Superpulse thulium fiber laser lithotripsy: an in vitro comparison of 200 μm and 150 μm laser fibers

Purpose To investigate the thermal effects, stone retropulsion and ablation rate of SuperPulse Thulium-fiber laser (SP TFL) with two different surgical fibers of 200 and 150 μm in diameter. Methods SP TFL (NTO IRE-Polus, Fryazino, Russia) performance with 200 and 150 μm fibers (NTO IRE-Polus, Fryazi...

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Bibliographic Details
Published in:World journal of urology 2021-12, Vol.39 (12), p.4459-4464
Main Authors: Taratkin, Mark, Azilgareeva, Camilla, Corrales, Mariela, Teoh, Jeremy Yuen-Chun, Allenov, Sergey, Inoyatov, Jasur, Ali, Stanislav, Rivas, Juan Gomez, Markovina, Irina, Enikeev, Dmitry
Format: Article
Language:English
Subjects:
Ablation
Equipment Design
Fibers
Lasers
Lasers, Solid-State
Lithotripsy
Lithotripsy, Laser - instrumentation
Medicine
Medicine & Public Health
Nephrology
Oncology
Original Article
Urology
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Summary:Purpose To investigate the thermal effects, stone retropulsion and ablation rate of SuperPulse Thulium-fiber laser (SP TFL) with two different surgical fibers of 200 and 150 μm in diameter. Methods SP TFL (NTO IRE-Polus, Fryazino, Russia) performance with 200 and 150 μm fibers (NTO IRE-Polus, Fryazino, Russia) was evaluated. Before each test, the laser fiber was cleaved, and the power measurement was taken to verify the actual laser output power. To compare the laser fibers in well-controlled environments, a number of setups were used to assess retropulsion, ablation efficacy, fiber burnback, energy transmission, and safety. Results Power measurements performed before each test revealed a 4.7% power drop for a 200 μm fiber SP TFL (14.3 ± 0.5 W) and 7.3% power drop for a 150 μm fiber SP TFL (13.9 ± 0.5 W) versus the nominally indicated power (15.0 W). Retropulsion with the TFL was minimal and comparable between fibers. We found no clinically relevant temperature differences between SP TFL with either 200 or 150 μm fibers. The ablation efficacy tended to be comparable under most parameters. Yet, we did observe a decreased diameter of residual fragments after the ablation with a 150 μm fiber. Conclusion The smaller fiber (150 μm) is not inferior to 200 μm fiber in terms of fiber burnback, retropulsion, safety, and ablation rate. Moreover, it has the potential to decrease the diameter of fragments during lithotripsy, which may facilitate dusting during RIRS.
ISSN:0724-4983
1433-8726
DOI:10.1007/s00345-021-03800-8