Abstract

During our last funding period, we have helped the lithotripsy community recognize the severity of SWL adverse effects, and we have made a significant contribution to the understanding of the physical acoustic mechanisms of shock wave action involved in stone comminufion and tissue injury. However, from our perspective in this field we see there is still much that needs to be accomplished. In particular, the urology community is now faced with a new dilemma, in that lithotripsy is not getting better and the lithotripter itself has become a risk factor. Our multidisplanary team of scientist/clinicians is ideally situated to address these issues. The present renewal proposal has developed a plan of four interactive, collaborative projects to achieve the following goals. We will: 1. Identify and isolate factors that increase the risk of adverse effects in SWL. 2. Define the tissue response to SW's that leads to long-term renal damage. 3. Develop treatment strategies (protective mechanisms) that reduce the renal trauma suffered during lithotripsy. 4. Establish criteria for the selection of SW parameters (rate, voltage, number) for safe and effective SWL. 5. Evaluate the efficacy and safety of 3rd generation electromagnetic lithotripters, as a step toward determining how to improve SWL performed with these devices. 6. Develop real-time imaging and cavitation detection to allow the urologist to monitor tissue damage and stone comminution during SWL. 7. Test a new concept in SW delivery (dual pulse lithotripsy) for cavitation control to enhance stone breakage and minimize tissue injury. 8. Determine the mechanics of stone failure in SWL so that the lithotripter waveform can be perfected for efficient stone breakage. 9. Establish computational models that will simulate the critical features of shock wave action (the virtual lithotripter) and allow relevant predictions for systematic improvement of SWL. Our main goal is to improve shock wave lithotripsy - to make lithotripsy safer and more efficient for all patients.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Program Projects (P01)
Project #
2P01DK043881-10A1
Application #
6815822
Study Section
Special Emphasis Panel (ZDK1-GRB-3 (M2))
Program Officer
Kirkali, Ziya
Project Start
1994-05-10
Project End
2009-06-30
Budget Start
2004-08-01
Budget End
2005-06-30
Support Year
10
Fiscal Year
2004
Total Cost
$1,241,155
Indirect Cost

  Institution

Name
Indiana University-Purdue University at Indianapolis
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
603007902
City
Indianapolis
State
IN
Country
United States
Zip Code
46202

  Publications

Janssen, Karmon M; Brand, Timothy C; Bailey, Michael R et al. (2018) Effect of Stone Size and Composition on Ultrasonic Propulsion Ex Vivo. Urology 111:225-229
Simon, Julianna C; Sapozhnikov, Oleg A; Kreider, Wayne et al. (2018) The role of trapped bubbles in kidney stone detection with the color Doppler ultrasound twinkling artifact. Phys Med Biol 63:025011
Matula, Thomas J; Sapozhnikov, Oleg A; Ostrovsky, Lev A et al. (2018) Ultrasound-based cell sorting with microbubbles: A feasibility study. J Acoust Soc Am 144:41
Williams Jr, James C; Borofsky, Michael S; Bledsoe, Sharon B et al. (2018) Papillary Ductal Plugging is a Mechanism for Early Stone Retention in Brushite Stone Disease. J Urol 199:186-192
Sapozhnikov, Oleg; Nikolaeva, Anastasiia; Bailey, Michael (2018) The effect of shear waves in an elastic sphere on the radiation force from a quasi-Gaussian beam. Proc Meet Acoust 32:
Zwaschka, Theresa A; Ahn, Justin S; Cunitz, Bryan W et al. (2018) Combined Burst Wave Lithotripsy and Ultrasonic Propulsion for Improved Urinary Stone Fragmentation. J Endourol 32:344-349
Connors, Bret A; Schaefer, Ray B; Gallagher, John J et al. (2018) Preliminary Report on Stone Breakage and Lesion Size Produced by a New Extracorporeal Electrohydraulic (Sparker Array) Discharge Device. Urology 116:213-217
Dai, Jessica C; Dunmire, Barbrina; Sternberg, Kevan M et al. (2018) Retrospective comparison of measured stone size and posterior acoustic shadow width in clinical ultrasound images. World J Urol 36:727-732
Cohen, Andrew J; Borofsky, Michael S; Anderson, Blake B et al. (2017) Endoscopic Evidence That Randall's Plaque is Associated with Surface Erosion of the Renal Papilla. J Endourol 31:85-90
Chang, Helena C; Sorensen, Mathew; Harper, Jonathan D et al. (2017) Re: Leapman et al.: Up and Away: Five Decades of Urologic Investigation in Microgravity (Urology 106:18-25). Urology 110:265-266

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