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Exploring optimal settings for safe and effective thulium fibre laser lithotripsy in a kidney model

Arpit Mishra, Robert Medairos, Junqin Chen, Francois Soto‐Palou, Yuan Wu, Jodi Antonelli, Glenn M. Preminger, Michael E. Lipkin, Pei Zhong

2023British Journal of Urology30 citationsDOIOpen Access PDF

Abstract

Objectives To explore the optimal laser settings and treatment strategies for thulium fibre laser (TFL) lithotripsy, namely, those with the highest treatment efficiency, lowest thermal injury risk, and shortest procedure time. Materials and Methods An in vitro kidney model was used to assess the efficacy of TFL lithotripsy in the upper calyx. Stone ablation experiments were performed on BegoStone phantoms at different combinations of pulse energy (E P ) and frequency (F) to determine the optimal settings. Temperature changes and thermal injury risks were monitored using embedded thermocouples. Experiments were also performed on calcium oxalate monohydrate (COM) stones to validate the optimal settings. Results High E P /low F settings demonstrated superior treatment efficiency compared to low E P /high F settings using the same power. Specifically, 0.8 J/12 Hz was the optimal setting, resulting in a twofold increase in treatment efficiency, a 39% reduction in energy expenditure per unit of ablated stone mass, a 35% reduction in residual fragments, and a 36% reduction in total procedure time compared to the 0.2 J/50 Hz setting for COM stones. Thermal injury risk assessment indicated that 10 W power settings with high E P /low F combinations remained below the threshold for tissue injury, while higher power settings (>10 W) consistently exceeded the safety threshold. Conclusions Our findings suggest that high E P /low F settings, such as 0.8 J/12 Hz, are optimal for TFL lithotripsy in the treatment of COM stones. These settings demonstrated significantly improved treatment efficiency with reduced residual fragments compared to conventional settings while keeping the thermal dose below the injury threshold. This study highlights the importance of using the high E P /low F combination with low power settings, which maximizes treatment efficiency and minimizes potential thermal injury. Further studies are warranted to determine the optimal settings for TFL for treating kidney stones with different compositions.

Topics & Concepts

LithotripsyLaser lithotripsyUreteroscopyMedicineUrologyKidney stonesThuliumReduction (mathematics)LaserMaterials scienceBiomedical engineeringSurgeryUreterMathematicsOpticsGeometryPhysicsKidney Stones and Urolithiasis TreatmentsPediatric Urology and Nephrology StudiesLaser-induced spectroscopy and plasma
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