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World Journal of Urology
Published in: World Journal of Urology 1/2024

01-12-2024 | Laser | Original Article

WATTS happening? Evaluation of thermal dose during holmium laser lithotripsy in a high-fidelity anatomic model

Authors: Christopher Wanderling, Aaron Saxton, Dennis Phan, Karen Doersch, Lauren Shepard, Nathan Schuler, Thomas Osinski, Scott Quarrier, Ahmed Ghazi

Published in: World Journal of Urology | Issue 1/2024

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Abstract

Purpose

To evaluate the thermal profiles of the holmium laser at different laser parameters at different locations in an in vitro anatomic pelvicalyceal collecting system (PCS) model. Laser lithotripsy is the cornerstone of treatment for urolithiasis. With the prevalence of high-powered lasers, stone ablation efficiency has become more pronounced. Patient safety remains paramount during surgery. It is well recognized that the heat generated from laser lithotripsy has the potential to cause thermal tissue damage.

Methods

Utilizing high-fidelity, 3D printed hydrogel models of a PCS with a synthetic BegoStone implanted in the renal pelvis, laser lithotripsy was performed with the Moses 2.0 holmium laser. At a standard power (40 W) and irrigation pressure (100 cm H2O), we evaluated operator duty cycle (ODC) variations with different time-on intervals at four different laser settings. Temperature was measured at two separate locations—at the stone and away from the stone.

Results

Temperatures were highest closest to the laser tip with a decrease away from the laser. Fluid temperatures increased with longer laser-on times and higher ODCs. Thermal doses were greater with increased ODCs and the threshold for thermal injury was reached for ODCs of 75% and 100%.

Conclusion

Temperature generation and thermal dose delivered are greatest closer to the tip of the laser fiber and are not dependent on power alone. Significant temperature differences were noted between four laser settings at a standardized power (40 W). Temperatures can be influenced by a variety of factors, such as laser-on time, operator duty cycle, and location in the PCS.
Appendix
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Metadata
Title
WATTS happening? Evaluation of thermal dose during holmium laser lithotripsy in a high-fidelity anatomic model
Authors
Christopher Wanderling
Aaron Saxton
Dennis Phan
Karen Doersch
Lauren Shepard
Nathan Schuler
Thomas Osinski
Scott Quarrier
Ahmed Ghazi
Publication date
01-12-2024
Publisher
Springer Berlin Heidelberg
Keyword
Laser
Published in
World Journal of Urology / Issue 1/2024
Print ISSN: 0724-4983
Electronic ISSN: 1433-8726
DOI
https://doi.org/10.1007/s00345-024-04821-9

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