
Laser-induced shock wave lithotripsy (LISL) with a Q-switched neodymium-YAG laser depends on the generation of a laser-induced breakdown in the fluid surrounding the stone. An oscillating plasma bubble is created, directing shock waves towards the stone. These cavitational effects fragment the calculus into small particles. A new bifunctional laser is introduced: this allows both nanosecond pulses for shock wave generation and disintegration of urinary calculi and millisecond pulses for biliary stones and tissue coagulation. It can be supplied with 320-, 400-, and 600-micron fibers. We have treated 189 ureteric stones in 185 patients with laser lithotripsy utilizing flexible ureteroscopes (n = 26) or rigid ureteroscopes (n = 159). It proved possible to fragment 179 stones into small pieces. In eight patients LISL was not successful. A rigid cystoscope that can be dismantled into an upper and lower hemisheath for the introduction of flexible endoscopes into the ureter without prior dilatation of the ureteral orifice was used in 15 patients.
Endoscopes, Kidney Calculi, Ureteral Calculi, Lithotripsy, Humans, Equipment Design, Laser Therapy, Cystoscopes, Lithotripsy, Laser, Follow-Up Studies
Endoscopes, Kidney Calculi, Ureteral Calculi, Lithotripsy, Humans, Equipment Design, Laser Therapy, Cystoscopes, Lithotripsy, Laser, Follow-Up Studies
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