Daniel A Wollin1, Anika Ackerman2, Chen Yang3, Tony Chen2, Walter Neal Simmons3, Glenn M Preminger2, Michael E Lipkin2. 1. Division of Urologic Surgery, Duke University Medical Center, Durham, NC. Electronic address: Daniel.wollin@duke.edu. 2. Division of Urologic Surgery, Duke University Medical Center, Durham, NC. 3. Department of Mechanical Engineering and Materials Science, Duke University, Durham, NC.
Abstract
OBJECTIVE: To more clearly define the efficiency and potential benefits of variable pulse-width laser technology for ureteroscopic lithotripsy, we performed comparative in vitro evaluations assessing stone comminution, laser fiber tip degradation, and stone retropulsion. METHODS: All experiments were conducted using a Swiss LaserClast Holmium:YAG laser (Electro Medical Systems, Nyon, Switzerland) with adjustable pulse duration (300 µs-1500 µs). To assess comminution efficiency and fiber tip degradation, a "dusting" model was employed; the laser fiber tip was moved by a 3-dimensional positioning system in a spiral motion across a flat BegoStone surface submerged in water. Comminution efficiency was measured as the loss of stone mass while fiber tip degradation was measured simultaneously. The same laser and fiber were used in a pendulum model to measure stone retropulsion with a high-speed resolution camera. RESULTS: In our dusting model, comminution was significantly greater at high energy (2 J/5 Hz). At the high energy setting, comminution was significantly greater with long pulse duration than short pulse, although this difference was not seen at the high frequency setting (1 J/10 Hz). Tip degradation was increased at high energy settings and was even more pronounced with short pulse duration than long pulse. Short pulse duration caused far more retropulsion than the long pulse setting. CONCLUSION: In an in vitro dusting model, a longer laser pulse duration provides effective stone comminution with the advantage of reducing laser fiber tip degradation and stone retropulsion.
OBJECTIVE: To more clearly define the efficiency and potential benefits of variable pulse-width laser technology for ureteroscopic lithotripsy, we performed comparative in vitro evaluations assessing stone comminution, laser fiber tip degradation, and stone retropulsion. METHODS: All experiments were conducted using a Swiss LaserClast Holmium:YAG laser (Electro Medical Systems, Nyon, Switzerland) with adjustable pulse duration (300 µs-1500 µs). To assess comminution efficiency and fiber tip degradation, a "dusting" model was employed; the laser fiber tip was moved by a 3-dimensional positioning system in a spiral motion across a flat BegoStone surface submerged in water. Comminution efficiency was measured as the loss of stone mass while fiber tip degradation was measured simultaneously. The same laser and fiber were used in a pendulum model to measure stone retropulsion with a high-speed resolution camera. RESULTS: In our dusting model, comminution was significantly greater at high energy (2 J/5 Hz). At the high energy setting, comminution was significantly greater with long pulse duration than short pulse, although this difference was not seen at the high frequency setting (1 J/10 Hz). Tip degradation was increased at high energy settings and was even more pronounced with short pulse duration than long pulse. Short pulse duration caused far more retropulsion than the long pulse setting. CONCLUSION: In an in vitro dusting model, a longer laser pulse duration provides effective stone comminution with the advantage of reducing laser fiber tip degradation and stone retropulsion.
Authors: Brandon A Levin; Ali H Aldoukhi; Kristian M Black; Timothy L Hall; William W Roberts; Khurshid R Ghani Journal: Lasers Med Sci Date: 2021-01-09 Impact factor: 3.161
Authors: Charles U Nottingham; Tim Large; Joshua Heiman; Chanel A Stephens; Amy E Krambeck Journal: Int Urol Nephrol Date: 2019-12-20 Impact factor: 2.370
Authors: Michael Mullerad; Jonatan R A Aguinaga; Tareq Aro; Alexander Kastin; Oleg Goldin; Alexander Kravtsov; Akram Assadi; Shadie Badaan; Gilad E Amiel Journal: Rambam Maimonides Med J Date: 2017-10-16