Lithotripsy, Laser

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  Subject Areas on Research

  • A comparison of light spot hydrophone and fiber optic probe hydrophone for lithotripter field characterization. 
  • An in vitro evaluation of laser settings and location in the efficiency of the popcorn effect. 
  • Assessment of stricture formation with the ureteral access sheath. 
  • Comparison of the Nanopulse Lithotripter to the Holmium Laser: Stone Fragmentation Efficiency and Impact on Flexible Ureteroscope Deflection and Flow. 
  • Contemporary Practice Patterns of Flexible Ureteroscopy for Treating Renal Stones: Results of a Worldwide Survey. 
  • Controversial cases in endourology. Caliceal diverticular calculi. 
  • Dusting Efficiency of the Moses Holmium Laser: An Automated In Vitro Assessment. 
  • Effect of Laser Settings and Irrigation Rates on Ureteral Temperature During Holmium Laser Lithotripsy, an In Vitro Model. 
  • Endoscopic laser lithotripsy of large bile duct stones. 
  • Evaluation of Novel Ball-Tip Holmium Laser Fiber: Impact on Ureteroscope Performance and Fragmentation Efficiency. 
  • Holmium laser for stone management. 
  • Holmium:Yttrium-Aluminum-Garnet Laser Pulse Type Affects Irrigation Temperatures in a Benchtop Ureteral Model. 
  • In vitro analysis of stone fragmentation ability of the FREDDY laser. 
  • In vitro comparison of stone retropulsion and fragmentation of the frequency doubled, double pulse nd:yag laser and the holmium:yag laser. 
  • Laboratory and clinical assessment of pneumatically driven intracorporeal lithotripsy. 
  • Low-power holmium laser for the management of urinary tract calculi, structures, and tumors. 
  • Management of lower pole renal calculi: shock wave lithotripsy versus percutaneous nephrolithotomy versus flexible ureteroscopy. 
  • Massive steinstrasse after treatment of a staghorn calculus. 
  • New devices for kidney stone management. 
  • Nitinol stone retrieval-assisted ureteroscopic management of lower pole renal calculi. 
  • Nitinol stone retrieval-assisted ureteroscopic management of lower pole renal calculi. 
  • Outcomes of Ureteroscopic Stone Treatment in Patients With Spinal Cord Injury. 
  • Removal of the entrapped basketed ureteral calculus: a novel technique. 
  • Safety and efficacy of holmium: YAG laser lithotripsy in patients with bleeding diatheses. 
  • Safety and efficacy of the Alexandrite laser for the treatment of renal and ureteral calculi. 
  • Shock wave interaction with laser-generated single bubbles. 
  • The Rise and Fall of High Temperatures During Ureteroscopic Holmium Laser Lithotripsy. 
  • The effect of frequency doubled double pulse Nd:YAG laser fiber proximity to the target stone on transient cavitation and acoustic emission. 
  • The impact of unplanned postprocedure visits in the management of patients with urinary stones. 
  • Transient cavitation and acoustic emission produced by different laser lithotripters. 
  • Ureteroscopic Laser Lithotripsy: A Review of Dusting vs Fragmentation with Extraction. 
  • Ureteroscopic laser papillotomy to treat papillary calcifications associated with chronic flank pain. 
  • Ureteroscopic management of recurrent renal cystine calculi. 
  • Ureteroscopic management of renal calculi in anomalous kidneys. 
  • Ureteroscopic management of stones in anomalous kidneys. 
  • Ureteroscopic treatment of lower pole calculi: comparison of lithotripsy in situ and after displacement. 
  • Use of a working channel catheter during flexible ureteroscopic laser lithotripsy. 
  • Use of the Escape nitinol stone retrieval basket facilitates fragmentation and extraction of ureteral and renal calculi: a pilot study. 
  • Variable Pulse Duration From a New Holmium:YAG Laser: The Effect on Stone Comminution, Fiber Tip Degradation, and Retropulsion in a Dusting Model. 
  • Xanthine urolithiasis. 
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  Keywords of People

  • Preminger, Glenn Michael, James F. Glenn, M.D. Distinguished Professor of Urology, Surgery
  • Zhong, Pei, Professor in the Department of Mechanical Engineering and Materials Science, Thomas Lord Department of Mechanical Engineering and Materials Science