An illustration shows how ultrasound energy is used to move kidney stone fragments and (lower right) the fragments' size.
Sometimes all it takes is a little push.
That is the conclusion of a recently published study in which doctors used a handheld ultrasound device to nudge patients’ kidney-stone fragments.
As many as 50% of patients who have kidney stones removed surgically still have small fragments remaining in the kidneys afterward. Of those patients, about 25% find themselves returning for another operation within five years to remove the now-larger fragments.
UW Medicine researchers found, however, that patients who underwent the stone-moving ultrasound procedure had a 70% lower risk of such a recurrence. The Journal of Urology published the findings in August.
“I think the main takeaways of this study are removing fragments reduces relapse and using a noninvasive, hand-held ultrasound device to help clear these kidney stone fragments,” said UW Medicine urologist Dr. Jonathan Harper, the study’s senior author.
The multisite, randomized and controlled trial was conducted from May 2015 to April 2024. Almost all of the 82 participants were from the UW Medicine or the VA Puget Sound health systems. All had stone fragments that had persisted in their kidneys for months, and their ureters were free of stones and fragments.
In the study, 40 underwent ultrasound treatment to encourage fragments to clear from the kidneys, while 42 control-group members received no such treatment.
With patients awake in a clinic office setting, doctors used a wand that generated ultrasonic pulses through the skin to move the fragments closer to the ureter, where they could be naturally expelled, sometimes with the next urination, Harper noted.
Harper and his co-lead author on the paper, urologist Dr. Mathew Sorensen, have worked on this technology and treatment for 15 years. They also use this technology, called burst wave lithotripsy, to blast larger stones into smaller pieces; those successes were published in 2022.
The pushing and breaking technologies are used with the same ultrasound platform.
Harper expressed hope that both clinical uses of the technology would become commonplace. A company, SonoMotion, is commercializing the technology, which was developed at the University of Washington, he added.
“I see a lot of potential in this It could become as common as getting your teeth cleaned. If you have a couple of small stones which could cause future problems, you make an office appointment and in 30 minutes you’re done.
“This could really revolutionize kidney stone treatment,” Harper said.
This study was supported by a grant (P01 DK043881) from the National Institute of Diabetes and Digestive and Kidney Diseases, part of the U.S. National Institutes of Health, and by resources from the Veterans Affairs Puget Sound Health Care System.
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