Abstract
Background: Endocorporeal laser lithotripsy (EL) during flexible ureteroscopy (URS-f) often uses “dusting” settings with “painting” technique. The displacement velocity of the laser fiber (LF) at the stone surface remains unknown and could improve EL’s ablation rates. This in vitro study aimed to define the optimal displacement velocity (ODV) for both holmium:yttrium-aluminium-garnet (Ho:YAG) and thulium fiber laser (Tm-Fiber). Methods: A 50W-TFL (IRE Polus®, Moscow, Russia) and a 30W-MH1-Ho:YAG laser (Rocamed®, Signes, Provence-Alpes-Côte d’Azur, France), were used with 272 µm-Core-Diameter LF (Sureflex, Boston Scientific©, San Jose, CA, USA), comparing three TFL modes, “fine dusting” (FD: 0.05–0.15 J/100–600 Hz); “dusting” (D: 0.5 J/30–60 Hz); “fragmentation” (Fr: 1 J/15–30 Hz) and two Ho:YAG modes (D: 0.5 J/20 Hz, Fr: 1 J/15 Hz). An experimental setup consisting of immerged cubes of calcium oxalate monohydrate (COM) stone phantoms (Begostone Plus, Bego©, Lincoln, RI, USA) was used with a 2 s’ laser operation time. LF were in contact with the stones, static or with a displacement of 5, 10 or 20 mm. Experiments were repeated four times. Stones were dried and µ-scanned. Ablation volumes (mm3) were measured by 3D-segmentation. Results: ODV was higher in dusting compared to fragmentation mode during Ho:YAG lithotripsy (10 mm/s vs. 5 mm/s, respectively). With Tm-Fiber, dusting and fragmentation OVDs were similar (5 mm/s). Tm-Fiber ODV was lower than Ho:YAGs in dusting settings (5 mm/s vs. 10 mm/s, respectively). Without LF displacement, ablation volumes were at least two-fold higher with Tm-Fiber compared to Ho:YAG. Despite the LF-DV, we report a 1.5 to 5-fold higher ablation volume with Tm-Fiber compared to Ho:YAG. Conclusions: In dusting mode, the ODVTm-Fiber is lower compared to ODVHo:YAG, translating to a potential easier Tm-Fiber utilization for “painting” dusting technique. The ODV determinants remain unknown. Dynamic ablation volumes are higher to static ones, regardless of the laser source, settings or LF displacement velocity.
Highlights
Endocorporeal laser lithotripsy (ELL) is currently the gold-standard for the treatment of renal stones during flexible ureteroscopy (f-URS) [1]
When using the “painting” technique, the operator aims to fire on a one locus-one laser pulse mode, which is as easy to perform as the laser fiber displacement velocity (LF-DV) is low
The present study demonstrated that a static laser emission results in a lower ablated volume compared to dynamic laser emission, regardless the laser source, the laser settings or the LF-DV (Table 2)
Summary
Endocorporeal laser lithotripsy (ELL) is currently the gold-standard for the treatment of renal stones during flexible ureteroscopy (f-URS) [1]. If the structural characteristics of Tm-Fiber can explain its superiority in terms of efficiency (mm3 /s) and efficacy (J/mm3 ), its consecutive bubbles dynamics support its two-fold higher ablation rates [5,6]. Overcoming this technologic comparison, the efficiency determinants of ELL have not yet been fully demonstrated. The displacement velocity of the laser fiber (LF) at the stone surface remains unknown and could improve EL’s ablation rates. This in vitro study aimed to define the optimal displacement velocity (ODV) for both holmium:yttrium-aluminium-garnet (Ho:YAG) and thulium fiber laser (Tm-Fiber).
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