Preclinical safety and effectiveness studies of ultrasonic propulsion of kidney stones

Jonathan D. Harper, Barbrina Dunmire, Yak Nam Wang, Julianna C. Simon, Denny Liggitt, Marla Paun, Bryan W. Cunitz, Frank Starr, Michael R. Bailey, Kristina L. Penniston, Franklin C. Lee, Ryan S. Hsi, Mathew D. Sorensen

Research output: Contribution to journalArticlepeer-review

24 Scopus citations

Abstract

Objective To provide an update on a research device to ultrasonically reposition kidney stones transcutaneously. This article reports preclinical safety and effectiveness studies, survival data, modifications of the system, and testing in a stone-forming porcine model. These data formed the basis for regulatory approval to test the device in humans. Materials and Methods The ultrasound burst was shortened to 50 ms from previous investigations with 1-s bursts. Focused ultrasound was used to expel 2- to 5-mm calcium oxalate monohydrate stones placed ureteroscopically in 5 pigs. Additionally, de novo stones were imaged and repositioned in a stone-forming porcine model. Acute safety studies were performed targeting 2 kidneys (6 sites) and 3 pancreases (8 sites). Survival studies followed 10 animals for 1 week after simulated treatment. Serum and urine analyses were performed, and tissues were evaluated histologically. Results All ureteroscopically implanted stones (6/6) were repositioned out of the kidney in 14 ± 8 minutes with 13 ± 6 bursts. On average, 3 bursts moved a stone more than 4 mm and collectively accounted for the majority of relocation. Stones (3 mm) were detected and repositioned in the 200-kg stone-forming model. No injury was detected in the acute or survival studies. Conclusion Ultrasonic propulsion is safe and effective in the porcine model. Stones were expelled from the kidney. De novo stones formed in a large porcine model were repositioned. No adverse effects were identified with the acute studies directly targeting kidney or pancreatic tissue or during the survival studies indicating no evidence of delayed tissue injury.

Original languageEnglish (US)
Pages (from-to)484-489
Number of pages6
JournalUrology
Volume84
Issue number2
DOIs
StatePublished - Aug 2014

All Science Journal Classification (ASJC) codes

  • Urology

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