Initial clinical experience with the thulium fiber laser from Quanta System: First 50 reported cases

[1]  O. Traxer,et al.  Thulium fiber laser pre-settings during ureterorenoscopy: Twitter’s experts’ recommendations , 2022, World Journal of Urology.

[2]  K. Ghani,et al.  The Efficiency of Moses Technology Holmium Laser for Treating Renal Stones During Flexible Ureteroscopy: Relationship Between Stone Volume, Time, and Energy. , 2021, Journal of endourology.

[3]  D. Enikeev,et al.  Superpulse thulium fiber laser lithotripsy: an in vitro comparison of 200 μm and 150 μm laser fibers , 2021, World Journal of Urology.

[4]  R. Clayman,et al.  Caveat Emptor: The Heat Is "ON": An In Vivo Evaluation of the Thulium Fiber Laser and Temperature Changes in the Porcine Kidney during Dusting and Fragmentation Modes. , 2021, Journal of endourology.

[5]  O. Traxer,et al.  Initial clinical experience with the new thulium fiber laser: first 50 cases , 2021, World Journal of Urology.

[6]  F. Montorsi,et al.  Laser Lithotripsy: The Importance of Peak Power and Pulse Modulation. , 2021, European urology focus.

[7]  D. Enikeev,et al.  Endoscopic lithotripsy with a SuperPulsed thulium‐fiber laser for ureteral stones: A single‐center experience , 2020, International journal of urology : official journal of the Japanese Urological Association.

[8]  L. Berthe,et al.  IMPACT OF LASER FIBER DIAMETER AND IRRIGATION FLUIDS ON INDUCED BUBBLE STREAM DYNAMICS WITH SUPERPULSED THULIUM FIBER LASER : AN IN VITRO STUDY. , 2020, Journal of endourology.

[9]  O. Traxer,et al.  How do we assess the efficacy of Ho:YAG low-power laser lithotripsy for the treatment of upper tract urinary stones? Introducing the Joules/mm3 and laser activity concepts , 2020, World Journal of Urology.

[10]  O. Traxer,et al.  Effect of temporal pulse shape on urinary stone phantom retropulsion rate and ablation efficiency using holmium:YAG and super‐pulse thulium fibre lasers , 2020, BJU international.

[11]  M. Daudon,et al.  What is the exact definition of stone dust? An in vitro evaluation , 2019, World Journal of Urology.

[12]  M. Botoca,et al.  Super-pulse thulium fiber versus high power holmium lasers. What about temperature? , 2019, European Urology Supplements.

[13]  W. Roberts,et al.  Watch Your Distance: The Role of Laser Fiber Working Distance on Fragmentation When Altering Pulse Width or Modulation. , 2019, Journal of endourology.

[14]  Olivier Traxer,et al.  Thulium fiber laser: the new player for kidney stone treatment? A comparison with Holmium:YAG laser , 2019, World Journal of Urology.

[15]  G. Preminger,et al.  Dusting Efficiency of the Moses Holmium Laser: An Automated In Vitro Assessment. , 2018, Journal of endourology.

[16]  W. Roberts,et al.  Caliceal Fluid Temperature During High-Power Holmium Laser Lithotripsy in an In Vivo Porcine Model. , 2018, Journal of endourology.

[17]  O. Traxer,et al.  Dusting technique for lithotripsy: what does it mean? , 2018, Nature Reviews Urology.

[18]  O. Traxer,et al.  The Time Has Come to Report Stone Burden in Terms of Volume Instead of Largest Diameter. , 2018, Journal of endourology.

[19]  Dirk Lange,et al.  Ureteroscopic Laser Lithotripsy: A Review of Dusting vs Fragmentation with Extraction. , 2017, Journal of endourology.

[20]  L. Berthe,et al.  Laser Fiber and Flexible Ureterorenoscopy: The Safety Distance Concept. , 2016, Journal of endourology.

[21]  Luke A. Hardy,et al.  Thulium fiber laser lithotripsy in an in vitro ureter model , 2014, Journal of biomedical optics.

[22]  Douglas E. Johnson,et al.  Use of the holmium:YAG laser in urology , 1992, Photonics West - Lasers and Applications in Science and Engineering.

[23]  T. Maiman Stimulated Optical Radiation in Ruby , 1960, Nature.