New technology painlessly moves and breaks up kidney stones
[May 22, 2023: Staff Writer, The Brighter Side of News]
Potentially, the procedure to move or break up stones might eventually be performed in a clinic or emergency room setting. (CREDIT: Creative Commons)
A new technique that combines two ultrasound technologies may offer an option to move kidney stones out of the ureter with minimal pain and no anesthesia, according to a new feasibility study published in The Journal of Urology.
The procedure involves the use of a handheld transducer placed on the skin to direct ultrasound waves towards the stone. The ultrasound can then be used to move and reposition the stones to promote their passage, a process called ultrasound propulsion, or to break up the stone, a technique called burst wave lithotripsy (BWL).
This technology is nearly painless and does not require sedation, making it ideal for use in a clinic or emergency room setting, said lead author Dr. M. Kennedy Hall, a UW Medicine emergency medicine doctor. Unlike the standard procedure now in use, shock wave lithotripsy, which requires sedation, this technology does not hurt.
Stones in the ureter can cause severe pain and are a common reason for emergency department visits. Most patients with ureteral stones are advised to wait to see if the stone will pass on its own. However, this observation period can last for weeks, with nearly one-fourth of patients eventually requiring surgery.
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One in 11 Americans will have a urinary stone over the course of their lifetime. The incidence appears to be increasing, according to one UW Medicine study looking at this same technology. Up to 50% of patients with a stone event will recur within five years, the study noted.
Hall and colleagues evaluated the new technique to meet the need for a way to treat stones without surgery. The study was designed to test the feasibility of using ultrasonic propulsion or BWL to break up stones in awake, unanaesthetized patients.
Twenty-nine patients participated in the study. Sixteen were treated with propulsion alone and 13 with propulsion and burst wave lithotripsy. In 19 patients, the stones moved. In two cases, the stones moved out of the ureter and into the bladder.
Procedure diagrams of use in the ED or clinic as performed in this study (left) and as envisioned by our National Aeronautics and Space Administration sponsors for use in space travel (right). (CREDIT: Carol Marinelli and Kim Reading)
Burst wave lithotripsy fragmented the stones in seven of the cases. At a two-week follow-up, 18 of 21 patients (86%) whose stones were located lower in the ureter, closer to the bladder, had passed their stones. In this group, the average time to stone passage was about four days, the study noted.
One of these patients felt "immediate relief" when the stone was dislodged from the ureter, the study stated. The next step for the researchers would be to perform a clinical trial with a control group, which would not receive either BWL bursts or ultrasound propulsion, to evaluate the degree to which this new technology potentially aids stone passage, Hall said.
The development of this technology started five years ago when NASA funded a study to see if kidney stones could be moved or broken up without anesthesia on long space flights, such as the Mars missions. The technology has worked so well that NASA has downgraded kidney stones as a key concern. “We now have a potential solution for that problem,” Hall said.
This study began in 2018 and was conducted on patients at Harborview Medical Center, University of Washington Medical Center-Montlake, and the Northwest Kidney Stone Center at University of Washington Medical Center-Northwest. It involved the University of Washington School of Medicine's departments of emergency medicine, urology, and radiology, and the UW Applied Physics Laboratory.
Kidney stone before and afetr 10 min BWL burst. (CREDIT: UW Medicine)
Other UW Medicine trials have looked at breaking apart kidney stones inside the kidneys. This is the first trial to look at moving the stones or breaking them apart in the ureter with BWL, Hall said.
The study was supported by NASA HRP ExMC MTL ID 1265 through a contract with ZIN Technologies. System and research infrastructure development was supported by NIH NIDDK P01 DK043881, NIH K01 DK104854, and the National Space Biomedical Research Institute.
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