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Shock waves generated by toroidal bubble collapse are imperative for kidney stone dusting during Holmium:YAG laser lithotripsy

Gaoming Xiang, Junqin Chen, Derek Ho, Georgy Sankin, Xuning Zhao, Yangyuanchen Liu, Kevin G. Wang, John E. Dolbow, Junjie Yao, Pei Zhong

2023Ultrasonics Sonochemistry31 citationsDOIOpen Access PDF

Abstract

Holmium:yttrium–aluminum-garnet (Ho:YAG) laser lithotripsy (LL) has been the treatment of choice for kidney stone disease over two decades, yet the mechanisms of action are not completely clear. Besides photothermal ablation, recent evidence suggested that cavitation bubble collapse is pivotal in kidney stone dusting when the Ho:YAG laser operates at low pulse energy (Ep) and high frequency (F). In this work, we perform a comprehensive series of experiments and model-based simulations to dissect the complex physical processes in LL. Under clinically relevant dusting settings (Ep = 0.2 J, F = 20 Hz), our results suggest that majority of the irradiated laser energy (>90 %) is dissipated by heat generation in the fluid surrounding the fiber tip and the irradiated stone surface, while only about 1 % may be consumed for photothermal ablation, and less than 0.7 % is converted into potential energy of the bubble at maximum expansion. We reveal that photothermal ablation is confined locally to the laser irradiation spot, whereas cavitation erosion is most pronounced at a fiber tip-stone surface distance about 0.5 mm where multi foci ring-like damage outside the thermal ablation zone is observed. The cavitation erosion is caused by the progressively intensified collapse of jet-induced toroidal bubble near the stone surface (<100 μm), as a result of Raleigh-Taylor and Richtmyer-Meshkov instabilities. The ensuing shock wave-stone interaction and resultant leaky Rayleigh waves on the stone surface may lead to dynamic fatigue and superficial material removal under repeated bombardments of toroidal bubble collapses during kidney stone dusting in LL.

Topics & Concepts

LithotripsyBubbleAblationMaterials scienceCavitationShock waveLaserToroidIrradiationLiquid bubblePhotothermal therapyOpticsMechanicsComposite materialPhysicsPlasmaNanotechnologySurgeryQuantum mechanicsNuclear physicsAerospace engineeringEngineeringMedicineKidney Stones and Urolithiasis TreatmentsUltrasound and Cavitation PhenomenaLaser-induced spectroscopy and plasma
Shock waves generated by toroidal bubble collapse are imperative for kidney stone dusting during Holmium:YAG laser lithotripsy | Litcius