127 results on '"Bryan W. Cunitz"'
Search Results
2. PD28-04 ADVANCED BURST WAVE LITHOTRIPSY FOR HUMAN TRIALS
- Author
-
Arturo Holmes, Ekaterina Kuznetsova, Shivani Ramesh, Adam D. Maxwell, Ga Won Kim, John Kucewicz, Bryan W. Cunitz, Wayne Kreider, Barbrina Dunmire, Michael R. Bailey, Mathew D. Sorensen, and Jonathan D. Harper
- Subjects
Urology - Published
- 2023
- Full Text
- View/download PDF
3. Fragmentation of Stones by Burst Wave Lithotripsy in the First 19 Humans
- Author
-
Jonathan D. Harper, James E. Lingeman, Robert M. Sweet, Ian S. Metzler, Peter L. Sunaryo, James C. Williams, Adam D. Maxwell, Jeff Thiel, Bryan W. Cunitz, Barbrina Dunmire, Michael R. Bailey, and Mathew D. Sorensen
- Subjects
Urology - Published
- 2022
- Full Text
- View/download PDF
4. First Series Using Ultrasonic Propulsion and Burst Wave Lithotripsy to Treat Ureteral Stones
- Author
-
M. Kennedy Hall, Jeff Thiel, Barbrina Dunmire, Patrick C. Samson, Ross Kessler, Peter Sunaryo, Robert M. Sweet, Ian S. Metzler, Helena C. Chang, Martin Gunn, Manjiri Dighe, Layla Anderson, Christina Popchoi, Ravi Managuli, Bryan W. Cunitz, Barbara H. Burke, Lisa Ding, Brianna Gutierrez, Ziyue Liu, Mathew D. Sorensen, Hunter Wessells, Michael R. Bailey, and Jonathan D. Harper
- Subjects
Adult ,Kidney Calculi ,Ureteral Calculi ,Urology ,Lithotripsy ,Humans ,Pain ,Ultrasonics ,Article - Abstract
PURPOSE: Our goal was to test transcutaneous focused ultrasound in the form of ultrasonic propulsion and burst wave lithotripsy to reposition ureteral stones and facilitate passage in awake subjects. MATERIALS AND METHODS: Adult subjects with a diagnosed proximal or distal ureteral stone were prospectively recruited. Ultrasonic propulsion alone or with burst wave lithotripsy was administered by a handheld transducer to awake, unanesthetized subjects. Efficacy outcomes included stone motion, stone passage, and pain relief. Safety outcome was the reporting of associated anticipated or adverse events. RESULTS: Twenty-nine subjects received either ultrasonic propulsion alone (n = 16) or with burst wave lithotripsy bursts (n = 13), and stone motion was observed in 19 (66%). The stone passed in 18 (86%) of the 21 distal ureteral stone cases with at least 2 weeks follow-up in an average of 3.9±4.9 days post-procedure. Fragmentation was observed in 7 of the burst wave lithotripsy cases. All subjects tolerated the procedure with average pain scores (0–10) dropping from 2.1±2.3 to 1.6±2.0 (P = .03). Anticipated events were limited to hematuria on initial urination post-procedure and mild pain. In total, 7 subjects had associated discomfort with only 2.2% (18 of 820) propulsion bursts. CONCLUSIONS: This study supports the efficacy and safety of using ultrasonic propulsion and burst wave lithotripsy in awake subjects to reposition and break ureteral stones to relieve pain and facilitate passage.
- Published
- 2022
5. Characterization and Ex Vivo evaluation of an extracorporeal high‐intensity focused ultrasound (HIFU) system
- Author
-
Steven G. Karl, Stuart B. Mitchell, Yufeng Zhou, Yak-Nam Wang, Cinderella Warren, Barbrina Dunmire, Bryan W. Cunitz, and Joo Ha Hwang
- Subjects
In‐situ acoustic energy ,Materials science ,medicine.medical_treatment ,Extracorporeal ,lesion ,Thermocouple ,medicine ,Calibration ,Waveform ,characterization ,Radiology, Nuclear Medicine and imaging ,Sound pressure ,Instrumentation ,Mechanical Phenomena ,Radiation ,Acoustics ,United States ,High-intensity focused ultrasound ,Non‐ionizing Topics ,acoustic nonlinearity ,high‐intensity focused ultrasound ,Cavitation ,High-Intensity Focused Ultrasound Ablation ,Ex vivo ,Biomedical engineering - Abstract
Background High‐intensity focused ultrasound (HIFU) has been in clinical use for a variety of solid tumors and cancers. Accurate and reliable calibration is in a great need for clinical applications. An extracorporeal clinical HIFU system applied for the investigational device exemption (IDE) to the Food and Drug Administration (FDA) so that evaluation of its characteristics, performance, and safety was required. Methods The acoustic pressure and power output was characterized by a fiber optic probe and a radiation force balance, respectively, with the electrical power up to 2000 W. An in situ acoustic energy was established as the clinical protocol at the electrical power up to 500 W. Temperature elevation inside the tissue sample was measured by a thermocouple array. Generated lesion volume at different in situ acoustic energies and pathological examination of the lesions was evaluated ex vivo. Results Acoustic pressure mapping showed the insignificant presence of side/grating lobes and pre‐ or post‐focal peaks (≤−12 dB). Although distorted acoustic pressure waveform was found in the free field, the nonlinearity was reduced significantly after the beam propagating through tissue samples (i.e., the second harmonic of −11.8 dB at 500 W). Temperature elevation was
- Published
- 2021
- Full Text
- View/download PDF
6. First In-Human Burst Wave Lithotripsy for Kidney Stone Comminution: Initial Two Case Studies
- Author
-
Ian Metzler, Tony Chen, Mathew D. Sorensen, Bryan W. Cunitz, James C. Williams, Jeff Thiel, Jonathan D. Harper, Michael R. Bailey, Adam D. Maxwell, Barbrina Dunmire, and Michael Kennedy Hall
- Subjects
Extracorporeal Shockwave Lithotripsy ,medicine.medical_specialty ,Ureteral Calculi ,Urology ,medicine.medical_treatment ,Urinary stone ,030232 urology & nephrology ,Shock wave lithotripsy ,Lithotripsy ,Kidney Calculi ,03 medical and health sciences ,0302 clinical medicine ,Ureteroscopy ,Humans ,Medicine ,business.industry ,First in human ,medicine.disease ,Tolerability ,030220 oncology & carcinogenesis ,Urinary Calculi ,Kidney stones ,Comminution ,business - Abstract
Purpose: To test the effectiveness (Participant A) and tolerability (Participant B) of urinary stone comminution in the first-in-human trial of a new technology, burst-wave lithotripsy (BWL). Materials and Methods: An investigational BWL and ultrasonic propulsion system was used to target a 7-mm kidney stone in the operating room before ureteroscopy (Participant A). The same system was used to target a 7.5 mm ureterovesical junction stone in clinic without anesthesia (Participant B). Results: For Participant A, a ureteroscope inserted after 9 minutes of BWL observed fragmentation of the stone to
- Published
- 2021
- Full Text
- View/download PDF
7. In Vitro Evaluation of Urinary Stone Comminution with a Clinical Burst Wave Lithotripsy System
- Author
-
Jeff Thiel, Anthony Gardner, Jonathan D. Harper, Ziyue Liu, Ian Metzler, Shivani Ramesh, Mathew Sorensen, James C. Williams, Adam D. Maxwell, Barbrina Dunmire, Michael R. Bailey, Tony Chen, and Bryan W. Cunitz
- Subjects
Extracorporeal Shockwave Lithotripsy ,medicine.medical_specialty ,business.industry ,Urology ,medicine.medical_treatment ,Urinary stone ,Ultrasound ,030232 urology & nephrology ,Lithotripsy ,medicine.disease ,03 medical and health sciences ,0302 clinical medicine ,030220 oncology & carcinogenesis ,medicine ,Kidney stones ,Ultrasonic sensor ,Comminution ,Radiology ,business - Abstract
Objective: Our goals were to validate stone comminution with an investigational burst wave lithotripsy (BWL) system in patient-relevant conditions and to evaluate the use of ultrasonic propulsion to move a stone or fragments to aid in observing the treatment endpoint. Materials and Methods: The Propulse-1 system, used in clinical trials of ultrasonic propulsion and upgraded for BWL trials, was used to fragment 46 human stones (5–7 mm) in either a 15-mm or 4-mm diameter calix phantom in water at either 50% or 75% dissolved oxygen level. Stones were paired by size and composition, and exposed to 20-cycle, 390-kHz bursts at 6-MPa peak negative pressure (PNP) and 13-Hz pulse repetition frequency (PRF) or 7-MPa PNP and 6.5-Hz PRF. Stones were exposed in 5-minute increments and sieved, with fragments >2 mm weighed and returned for additional treatment. Effectiveness for pairs of conditions was compared statistically within a framework of survival data analysis for interval censored data. Three reviewers blinded to the experimental conditions scored ultrasound imaging videos for degree of fragmentation based on stone response to ultrasonic propulsion. Results: Overall, 89% (41/46) and 70% (32/46) of human stones were fully comminuted within 30 and 10 minutes, respectively. Fragments remained after 30 minutes in 4% (1/28) of calcium oxalate monohydrate stones and 40% (4/10) of brushite stones. There were no statistically significant differences in comminution time between the two output settings (p = 0.44), the two dissolved oxygen levels (p = 0.65), or the two calyx diameters (p = 0.58). Inter-rater correlation on endpoint detection was substantial (Fleiss' kappa = 0.638, p
- Published
- 2020
- Full Text
- View/download PDF
8. Office-based kidney stone management with new ultrasound technologies
- Author
-
Adam D. Maxwell, Wayne Kreider, Yak-Nam Wang, Bryan W. Cunitz, Barbrina Dunmire, Jeff Thiel, and Michael R. Bailey
- Subjects
Acoustics and Ultrasonics ,Arts and Humanities (miscellaneous) - Abstract
Despite the growing incidence of urinary stones, the fundamental interventions for urinary stones have remained the same for several decades. However, technical innovations in ultrasound have enabled new strategies for stone management. Our team aims to employ these methods to establish a new paradigm to treat stones in an office or clinic rather than a surgical suite. Technologies include new imaging methods to detect and characterize stones, burst wave lithotripsy to fragment stones using focused ultrasound rather than shock waves, and ultrasonic propulsion to promote clearance of fragments, all using a single ultrasound platform. This presentation will describe the principles and development of these technologies, as well as the fruitful partnerships between teams of basic scientists, engineers, physicians, and industry that have enabled rapid development of these concepts to successful clinical trials. [Work supported by NIDDK P01 DK043881 and the Focused Ultrasound Foundation.]
- Published
- 2023
- Full Text
- View/download PDF
9. Dual-Mode 1D Linear Ultrasound Array for Image-Guided Drug Delivery Enhancement Without Ultrasound Contrast Agents
- Author
-
Randall P. Williams, Maria M. Karzova, Petr V. Yuldashev, Azamat Z. Kaloev, Fedor A. Nartov, Vera A. Khokhlova, Bryan W. Cunitz, Kyle P. Morrison, and Tatiana D. Khokhlova
- Subjects
Acoustics and Ultrasonics ,Electrical and Electronic Engineering ,Instrumentation - Published
- 2023
- Full Text
- View/download PDF
10. MP06-18 THE INFLUENCE OF ULTRASOUND PULSING PARAMETERS ON STONE FRAGMENTATION DURING BURST WAVE LITHOTRIPSY: A BENCHTOP STUDY
- Author
-
Christopher Hunter, Adam D. Maxwell, Ga Won Kim, Wayne Kreider, and Bryan W. Cunitz
- Subjects
medicine.medical_specialty ,business.industry ,Urology ,medicine.medical_treatment ,Ultrasound ,medicine ,Lithotripsy ,Fragmentation (cell biology) ,business - Abstract
INTRODUCTION AND OBJECTIVE:Burst wave lithotripsy (BWL) is a noninvasive technology to fragment urinary stones, presently being tested in clinical trials. Although parameters have been identified t...
- Published
- 2021
- Full Text
- View/download PDF
11. MP18-07 ULTRASOUND TO REPOSITION AND ACCELERATE PASSAGE OF DISTAL URETERAL STONES
- Author
-
Adam D. Maxwell, Peter Sunaryo, Jeff Thiel, Christina Popchoi, Robert M. Sweet, Patrick C. Samson, Martin L. Gunn, Jonathan D. Harper, Hunter Wessells, M. Kennedy Hall, Ross Kessler, Michael R. Bailey, Ravi Managuli, Bryan W. Cunitz, Ian Metzler, Barbara A. Burke, Barbrina Dunmire, Mathew Sorensen, and Layla Anderson
- Subjects
medicine.medical_specialty ,business.industry ,Urology ,medicine.medical_treatment ,Ultrasound ,Medicine ,Ultrasonic sensor ,Radiology ,Lithotripsy ,business - Abstract
INTRODUCTION AND OBJECTIVE:The feasibility of ultrasonic propulsion and burst wave lithotripsy (BWL) to noninvasively reposition distal ureteral stones to facilitate passage and relieve pain was te...
- Published
- 2021
- Full Text
- View/download PDF
12. PD54-10 FIRST REPORT OF COMMINUTION OF STONES IN HUMANS BY BURST WAVE LITHOTRIPSY
- Author
-
Mathew Sorensen, James E. Lingeman, Jeff Thiel, Michael R. Bailey, Peter Sunaryo, Robert M. Sweet, Adam D. Maxwell, Bryan W. Cunitz, Ian Metzler, James C. Williams, Barbrina Dunmire, and Jonathan D. Harper
- Subjects
medicine.medical_specialty ,business.industry ,Urology ,medicine.medical_treatment ,Ultrasound ,Medicine ,Radiology ,Comminution ,Lithotripsy ,business - Abstract
INTRODUCTION AND OBJECTIVE:We report stone comminution in the first human subjects by burst wave lithotripsy (BWL), which is the transcutaneous application of focused, cyclic ultrasound pulses.METH...
- Published
- 2021
- Full Text
- View/download PDF
13. LBA01-06 RANDOMIZED CONTROL TRIAL OF ULTRASONIC PROPULSION TO FACILITATE CLEARANCE OF CHRONIC RESIDUAL FRAGMENTS
- Author
-
Tony Chen, Ziyue Liu, Bryan W. Cunitz, Barbrina Dunmire, Mathew Sorensen, Christina Popchoi, Michael R. Bailey, Jonathan D. Harper, Jeff Thiel, Barbara H. Burke, Michael P. Porter, Jessica Dai, Peter Sunaryo, and Branda J. Levchak
- Subjects
medicine.medical_specialty ,Randomized controlled trial ,law ,business.industry ,Urology ,medicine ,Ultrasonic sensor ,Propulsion ,business ,Residual ,law.invention ,Surgery - Published
- 2021
- Full Text
- View/download PDF
14. Quantitative Assessment of Effectiveness of Ultrasonic Propulsion of Kidney Stones
- Author
-
Jessica C. Dai, Jeff Thiel, Mathew D. Sorensen, Helena C. Chang, Patrick C. Samson, Jonathan D. Harper, Ziyue Liu, Michael R. Bailey, Barbrina Dunmire, and Bryan W. Cunitz
- Subjects
Adult ,Male ,medicine.medical_specialty ,Ultrasonic Therapy ,Urology ,medicine.medical_treatment ,030232 urology & nephrology ,General Research ,Propulsion ,Lithotripsy ,Kidney Calculi ,03 medical and health sciences ,0302 clinical medicine ,Ureteroscopy ,otorhinolaryngologic diseases ,Quantitative assessment ,medicine ,Humans ,Medical physics ,Aged ,medicine.diagnostic_test ,business.industry ,Middle Aged ,medicine.disease ,030220 oncology & carcinogenesis ,Female ,Ultrasonic sensor ,Kidney stones ,business ,psychological phenomena and processes - Abstract
Purpose: Ultrasonic propulsion is an investigative modality to noninvasively image and reposition urinary stones. Our goals were to test safety and effectiveness of new acoustic exposure conditions from a new transducer, and to use simultaneous ureteroscopic and ultrasonic observation to quantify stone repositioning. Materials and Methods: During operation, ultrasonic propulsion was applied transcutaneously, whereas stone targets were visualized ureteroscopically. Exposures were 350 kHz frequency, ≤200 W/cm(2) focal intensity, and ≤3-second bursts per push. Ureteroscope and ultrasound (US) videos were recorded. Video clips with and without stone motion were randomized and scored for motion ≥3 mm by independent reviewers blinded to the exposures. Subjects were followed with telephone calls, imaging, and chart review for adverse events. Results: The investigative treatment was used in 18 subjects and 19 kidneys. A total of 62 stone targets were treated ranging in size from a collection of “dust” to 15 mm. Subjects received an average of 17 ± 14 propulsion bursts (per kidney) for a total average exposure time of 40 ± 40 seconds. Independent reviewers scored at least one stone movement ≥3 mm in 18 of 19 kidneys (95%) from the ureteroscope videos and in 15 of 19 kidneys (79%) from the US videos. This difference was probably because of motion out of the US imaging plane. Treatment repositioned stones in two cases that would have otherwise required basket repositioning. No serious adverse events were observed with the device or procedure. Conclusions: Ultrasonic propulsion was shown to be safe, and it effectively repositioned stones in 95% of kidneys despite positioning and access restrictions caused by working in an operating room on anesthetized subjects.
- Published
- 2019
- Full Text
- View/download PDF
15. Evaluation of Renal Stone Comminution and Injury by Burst Wave Lithotripsy in a Pig Model
- Author
-
Yak-Nam Wang, Wayne Kreider, Adam D. Maxwell, Frank Starr, Mathew D. Sorensen, Bryan W. Cunitz, Dong-Hoon Lee, James C. Williams, Yasser Nazari, and Michael R. Bailey
- Subjects
medicine.medical_specialty ,Swine ,Urology ,medicine.medical_treatment ,Transducers ,030232 urology & nephrology ,Shock wave lithotripsy ,Lithotripsy ,Kidney ,Kidney Calculi ,03 medical and health sciences ,0302 clinical medicine ,Renal injury ,medicine ,Animals ,Humans ,Experimental Endourology ,Renal stone ,business.industry ,Ultrasound ,Pig model ,medicine.disease ,030220 oncology & carcinogenesis ,Kidney stones ,business ,Electromagnetic Phenomena - Abstract
Introduction: Burst wave lithotripsy is an experimental technology to noninvasively fragment kidney stones with focused bursts of ultrasound (US). This study evaluated the safety and effectiveness of specific lithotripsy parameters in a porcine model of nephrolithiasis. Methods: A 6- to 7-mm human kidney stone was surgically implanted in each kidney of three pigs. A burst wave lithotripsy US transducer with an inline US imager was coupled to the flank and the lithotripter focus was aligned with the stone. Each stone was exposed to burst wave lithotripsy at 6.5 to 7 MPa focal pressure for 30 minutes under real-time image guidance. After treatment, the kidneys were removed for gross, histologic, and MRI assessment. Stone fragments were retrieved from the kidney to determine the mass comminuted to pieces
- Published
- 2019
- Full Text
- View/download PDF
16. A prototype therapy system for boiling histotripsy in abdominal targets based on a 256-element spiral array
- Author
-
Tatiana D. Khokhlova, Christopher Hunter, Wayne Kreider, George R. Schade, Vera A. Khokhlova, Christopher R. Bawiec, Petr V. Yuldashev, Mohamed A. Ghanem, Oleg A. Sapozhnikov, Pavel B. Rosnitskiy, and Bryan W. Cunitz
- Subjects
Materials science ,Acoustics and Ultrasonics ,Hydrophone ,Phased array ,Acoustics ,Sound power ,01 natural sciences ,Article ,Power (physics) ,Histotripsy ,Transducer ,Liver ,Duty cycle ,0103 physical sciences ,Abdomen ,Animals ,High-Intensity Focused Ultrasound Ablation ,Cattle ,Electrical and Electronic Engineering ,Focus (optics) ,010301 acoustics ,Instrumentation ,Ultrasonography - Abstract
Boiling histotripsy (BH) uses millisecond-long ultrasound pulses with high amplitude shocks to mechanically fractionate tissue with potential for real-time lesion monitoring by ultrasound imaging. For BH treatments of abdominal organs, a high-power multi-element phased array system capable of electronic focus steering and aberration correction for body wall inhomogeneities is needed. In this work, a preclinical BH system was built comprising a custom 256-element 1.5 MHz phased array (Imasonic, Besanson, France) with a central opening for mounting an imaging probe. The array was electronically matched to a Verasonics research ultrasound system with a 1.2 kW external power source. Driving electronics and software of the system were modified to provide a pulse average acoustic power of 2.2 kW sustained for 10 ms with 1–2 Hz repetition rate for delivering BH exposures. System performance was characterized by hydrophone measurements in water combined with nonlinear wave simulations based on the Westervelt equation. Fully developed shocks of 100 MPa amplitude formed at the focus at 275 W acoustic power. Electronic steering capabilities of the array were evaluated for shock-producing conditions to determine power compensation strategies that equalize BH exposures at multiple focal locations across the planned treatment volume. The system was used to produce continuous volumetric BH lesions in ex vivo bovine liver with 1 mm focus spacing, 10 ms pulse length, 5 pulses/focus, and 1 % duty cycle.
- Published
- 2021
17. Mechanistic analysis of B-line formation in lung ultrasound
- Author
-
Gilles P. Thomas, Oleg A. Sapozhnikov, Adam Maxwell, Jeff Thiel, Bryan W. Cunitz, Michael R. Bailey, Kyle Steinbock, Layla Anderson, Ross Kessler, Adeyinka Adedipe, and Tatiana D. Khokhlova
- Subjects
Acoustics and Ultrasonics ,Arts and Humanities (miscellaneous) - Abstract
The number and distribution of lung ultrasound (LUS) imaging artifacts—B-lines—is correlated with the presence of lung interstitial syndrome such as viral infection and pulmonary edema. The detection and quantification of B-lines is machine and operator dependent, and the mechanisms for B-line formation are not fully understood. The goals of this work were to collect RF data during LUS exams in patients with pulmonary edema and to compare to the signals and corresponding images simulated numerically to elucidate the B-line formation process. Verasonics ultrasound engine (VUE) with a phased array probe (4.5 MHz) was used to perform standard 10-zone LUS in ten patients with confirmed pulmonary edema. The RF data corresponding to each B-mode image and a series of 35 plane wave acquisitions were collected for off-line analyses. Finite element modeling of LUS pulse propagation was performed in COMSOL with fluid-filled inclusions of variable sizes and shapes in air-like medium simulating edematous lung areas. The B-mode image resulting from the simulated RF signals was reconstructed using VUE beamforming. The B-lines similar to those observed experimentally formed in simulated images only under specific conditions of sizes and shapes of water-filled areas relatively to LUS imaging wavelength. [Work supported by NIH R01EB023910.]
- Published
- 2022
- Full Text
- View/download PDF
18. Factors Affecting Tissue Cavitation during Burst Wave Lithotripsy
- Author
-
Yak-Nam Wang, Adam D. Maxwell, Wayne Kreider, Christopher Hunter, Stephanie Totten, and Bryan W. Cunitz
- Subjects
Acoustics and Ultrasonics ,Swine ,Urinary system ,medicine.medical_treatment ,030232 urology & nephrology ,Biophysics ,Lithotripsy ,Kidney ,01 natural sciences ,Article ,03 medical and health sciences ,Kidney Calculi ,0302 clinical medicine ,Renal injury ,0103 physical sciences ,Parenchyma ,medicine ,Pressure ,Animals ,Radiology, Nuclear Medicine and imaging ,Renal sinus ,010301 acoustics ,Ultrasonography ,Radiological and Ultrasound Technology ,business.industry ,Ultrasound ,medicine.anatomical_structure ,Cavitation ,Female ,business ,Biomedical engineering - Abstract
Burst wave lithotripsy (BWL) is a technology under clinical investigation for noninvasive fragmentation of urinary stones. Under certain ranges of ultrasound exposure parameters, this technology can cause cavitation in tissue leading to renal injury. This study sought to measure the focal pressure amplitude needed to cause cavitation in vivo and determine its consistency in native tissue, in an implanted stone model, and under different exposure parameters. The kidneys of eight pigs were exposed to transcutaneous BWL ultrasound pulses. In each kidney, two locations were targeted: the renal sinus and the kidney parenchyma. Each was exposed for 5 minutes at a set pressure level and parameters, and cavitation was detected using an active cavitation imaging method based on power Doppler ultrasound. The threshold was determined by incrementing the pressure amplitude up or down after each 5-minute interval until cavitation occurred/subsided. The pressure thresholds were remeasured post-surgery targeting an implanted stone or collecting space (in sham). The presence of a stone or sham surgery did not significantly impact the threshold for tissue cavitation. Targeting parenchyma instead of kidney collecting space and lowering the ultrasound pulse repetition frequency both resulted in an increased pressure threshold for cavitation.
- Published
- 2020
19. An in vivo demonstration of efficacy and acute safety of burst wave lithotripsy using a porcine model
- Author
-
Dong-Hoon Lee, Christopher Hunter, James C. Williams, Micheal R. Bailey, Jeff Thiel, Yasser Nazari, Jessica Dai, Wayne Kreider, Bryan W. Cunitz, Frank Starr, Yak-Nam Wang, and Adam D. Maxwell
- Subjects
medicine.diagnostic_test ,business.industry ,medicine.medical_treatment ,Ultrasound ,Magnetic resonance imaging ,Lithotripsy ,medicine.disease ,Article ,In vivo ,Parenchyma ,Pressure amplitude ,Medicine ,Kidney stones ,business ,Nuclear medicine ,CALCIUM OXALATE MONOHYDRATE - Abstract
Burst wave lithotripsy (BWL) is a new non-invasive method for stone comminution using bursts of sub-megahertz ultrasound. A porcine model of urolithiasis and techniques to implement BWL treatment has been developed to evaluate its effectiveness and acute safety. Six human calcium oxalate monohydrate stones (6–7 mm) were hydrated, weighed, and surgically implanted into the kidneys of three pigs. Transcutaneous stone treatments were performed with a BWL transducer coupled to the skin via an external water bath. Stone targeting and treatment monitoring were performed with a co-aligned ultrasound imaging probe. Treatment exposures were applied in three 10-minute intervals for each stone. If sustained cavitation in the parenchyma was observed by ultrasound imaging feedback, treatment was paused and the pressure amplitude was decreased for the remaining time. Peak negative focal pressures between 6.5 and 7 MPa were applied for all treatments. After treatment, stone fragments were removed from the kidneys. At least 50% of each stone was reduced to
- Published
- 2020
20. PD15-10 IN VITRO EVALUATION OF A CLINICAL BURST WAVE LITHOTRIPSY SYSTEM FOR URINARY STONE COMMINUTION
- Author
-
Shivani Ramesh, Ziyue Liu, Adam D. Maxwell, Anthony Gardner, Tony Chen, Bryan W. Cunitz, Ian Metzler, James C. Williams, Mathew Sorensen, Jonathan D. Harper, Barbrina Dunmire, and Michael R. Bailey
- Subjects
business.industry ,Urology ,Urinary stone ,medicine.medical_treatment ,Medicine ,Comminution ,Lithotripsy ,business ,Biomedical engineering - Abstract
INTRODUCTION AND OBJECTIVE:Our goals were to validate stone comminution with an investigative clinical burst wave lithotripsy (BWL) system and to evaluate the use of ultrasonic propulsion to move t...
- Published
- 2020
- Full Text
- View/download PDF
21. MP10-12 THE COLOR DOPPLER ULTRASOUND TWINKLING ARTIFACT AND MICROBUBBLES ON KIDNEY STONES IN HUMANS: A PILOT STUDY
- Author
-
James R. Holm, Barbrina Dunmire, Julianna C. Simon, Michael R. Bailey, Bryan W. Cunitz, and Jeffrey Thiel
- Subjects
Artifact (error) ,genetic structures ,business.industry ,Urology ,Color doppler ultrasound ,medicine.disease ,medicine ,Microbubbles ,Kidney stones ,sense organs ,skin and connective tissue diseases ,business ,Twinkling ,circulatory and respiratory physiology ,Biomedical engineering - Abstract
INTRODUCTION AND OBJECTIVE:The color Doppler ultrasound twinkling artifact, which highlights kidney stones with rapidly changing color, has been shown to increase the sensitivity and specificity of...
- Published
- 2020
- Full Text
- View/download PDF
22. Combined Burst Wave Lithotripsy and Ultrasonic Propulsion for Improved Urinary Stone Fragmentation
- Author
-
Adam D. Maxwell, Mathew D. Sorensen, Theresa Zwaschka, Justin Ahn, Jonathan D. Harper, Michael R. Bailey, Bryan W. Cunitz, and Barbrina Dunmire
- Subjects
Calcium Oxalate ,Phantoms, Imaging ,business.industry ,Ultrasonic Therapy ,Urology ,Urinary stone ,medicine.medical_treatment ,Ultrasound ,030232 urology & nephrology ,Lithotripsy ,Propulsion ,medicine.disease ,Combined Modality Therapy ,03 medical and health sciences ,0302 clinical medicine ,030220 oncology & carcinogenesis ,medicine ,Humans ,Urinary Calculi ,Ultrasonic sensor ,Kidney stones ,Experimental Endourology ,business ,Biomedical engineering - Abstract
Purpose: Burst wave lithotripsy (BWL) is a new technology in development to fragment urinary stones. Ultrasonic propulsion (UP) is a separate technology under investigation for displacing stones. We measure the effect of propulsion pulses on stone fragmentation from BWL. Materials and Methods: Two artificial stone models (crystalline calcite, BegoStone plaster) and human calcium oxalate monohydrate (COM) stones measuring 5 to 8 mm were subjected to ultrasound exposures in a polyvinyl chloride tissue phantom within a water bath. Stones were exposed to BWL with and without propulsion pulses interleaved for set time intervals depending on stone type. Fragmentation was measured as a fraction of the initial stone mass fragmented to pieces smaller than 2 mm. Results: BegoStone model comminution improved from 6% to 35% (p
- Published
- 2018
- Full Text
- View/download PDF
23. Ultrasound imaging metrics to characterize cavitation activity during burst wave lithotripsy
- Author
-
Ga Won Kim, Bryan W. Cunitz, Adam D. Maxwell, Jeff Thiel, Yak-Nam Wang, Michael R. Bailey, Christopher Hunter, and Wayne Kreider
- Subjects
Materials science ,Acoustics and Ultrasonics ,Arts and Humanities (miscellaneous) ,medicine.medical_treatment ,Cavitation ,medicine ,Ultrasound imaging ,Lithotripsy ,Biomedical engineering - Published
- 2021
- Full Text
- View/download PDF
24. Novel use of a lung ultrasound sensor for detection of lung interstitial syndrome
- Author
-
Adam D. Maxwell, Tatiana D. Khokhlova, Ross Kessler, Kyle Steinbock, Michael R. Bailey, Jeff Thiel, Gilles Thomas, Bryan W. Cunitz, Adeyinka Adedipe, Alex T. Peek, and Layla Anderson
- Subjects
medicine.medical_specialty ,Lung ,medicine.anatomical_structure ,Acoustics and Ultrasonics ,Arts and Humanities (miscellaneous) ,business.industry ,medicine ,Radiology ,business ,Lung ultrasound - Published
- 2021
- Full Text
- View/download PDF
25. Ultrasound to facilitate passage of distal ureteral stones
- Author
-
Peter Sunaryo, Bryan W. Cunitz, Ross Kessler, Barbrina Dunmire, Ian Metzler, Layla Anderson, Brianna L. Gutierrez, Michael Kennedy Hall, Hunter Wessells, Barbara H. Burke, Michael R. Bailey, Robert M. Sweet, Christina Popchoi, Lisa Ding, Ravi Managuli, Ziyue Liu, Patrick C. Samson, Jonathan D. Harper, Mathew D. Sorensen, and Jeff Thiel
- Subjects
medicine.medical_specialty ,Acoustics and Ultrasonics ,Arts and Humanities (miscellaneous) ,business.industry ,Ultrasound ,medicine ,Radiology ,business - Abstract
Feasibility of ultrasonic propulsion and burst wave lithotripsy (BWL) to noninvasively reposition distal ureteral stones to facilitate passage and relieve pain was tested. Patients presenting to the clinic or emergency department were recruited. Thirteen subjects underwent ultrasonic propulsion (lower amplitude, longer duration pulses) alone, and 10 subjects also received intermittent BWL (higher amplitude, shorter duration pulses). All participants were awake and underwent a pain assessment pre- and post-procedure. For analysis, subjects were sub-categorized based on whether their stone was acute or chronic (present for ≤10 days or >10 days from their initial ED or symptomatic presentation, respectively). Seventeen subjects were enrolled in the acute study population and 6 subjects were enrolled in the chronic population. Overall, 94% of acute stones passed in an average of 3.4 days post-procedure relative to 54% in 7.5 days in the American Urological Association guidelines. 67% of chronic cases passed stones or fragments, and two surgeries were cancelled. Pain reduction was statistically significant ( p = 0.0215). Adverse events were limited to hematuria on initial urination post-procedure (BWL only, n = 3) and a mild sensation, akin to a pinprick, associated with fewer than 10 of 620 propulsion bursts ( n = 3). [Work supported by NIH-P01-DK04331.]
- Published
- 2021
- Full Text
- View/download PDF
26. Effect of pulse duration and repetition rate on burst wave lithotripsy stone fragmentation in vitro
- Author
-
Ga Won Kim, Michael R. Bailey, Christopher Hunter, Wayne Kreider, Adam D. Maxwell, and Bryan W. Cunitz
- Subjects
Acoustics and Ultrasonics ,Arts and Humanities (miscellaneous) ,Repetition (rhetorical device) ,Chemistry ,medicine.medical_treatment ,Fragmentation (computing) ,medicine ,Biophysics ,Pulse duration ,Lithotripsy - Published
- 2021
- Full Text
- View/download PDF
27. Acoustic manipulation of objects in vivo
- Author
-
Oleg A. Sapozhnikov, Bryan W. Cunitz, Mohamed A. Ghanem, Michael R. Bailey, Vera A. Khokhlova, Yak-Nam Wang, and Adam D. Maxwell
- Subjects
Acoustics and Ultrasonics ,Arts and Humanities (miscellaneous) ,Computer science ,In vivo ,Biomedical engineering - Abstract
Acoustic radiation forces can trap and manipulate objects in three-dimensional space (3D). The state of the art in acoustic trapping has demonstrated the ability to move small or lightweight objects using single or multiple transducers. For certain medical applications, acoustic manipulation can be utilized to control foreign objects in the body, such as kidney stones. However, difficulties from these applications include the ability to control large solid objects, transmitting robust acoustic beams through the skin, and the use of a single source due to limited acoustic window in the body. The goal of this work was to use a 1.5 MHz, focused, multi-element array to synthesize specific acoustic beams to trap, levitate, and steer kidney stone models (glass spheres) in a water bath and urinary bladders of live pigs. Stable acoustic traps were investigated numerically and experimentally in water bath to design a protocol for the 3D manipulation strategies used invivo . Three programmed path were used to levitate and manipulate glass spheres in live pigs. The motion was recorded using a camera and a synchronized ultrasound imaging probe. Deviation from the intended paths was on average
- Published
- 2021
- Full Text
- View/download PDF
28. First fragmentation of stones in humans by burst wave lithotripsy
- Author
-
Jeff Thiel, Michael R. Bailey, Ian Metzler, Mathew D. Sorensen, Adam D. Maxwell, James E. Lingeman, James C. Williams, Jonathan D. Harper, Barbrina Dunmire, Bryan W. Cunitz, and Robert M. Sweet
- Subjects
Acoustics and Ultrasonics ,Arts and Humanities (miscellaneous) ,Chemistry ,medicine.medical_treatment ,medicine ,Biophysics ,Fragmentation (computing) ,Lithotripsy - Abstract
We report stone comminution in the first 18 human subjects by burst wave lithotripsy (BWL). Subjects undergoing clinical ureteroscopy (URS) for at least one stone ≤12 mm on computed tomography (CT) are recruited. During the planned URS, either before or after ureteroscope insertion, BWL is administered with a handheld probe for 10 min, and any stone fragmentation and tissue injury are observed. The primary effectiveness outcome is the volume percent comminution of the stone into fragments ≤2 mm, where fragment volume is determined by μCT of basketed fragments or image processing of the URS video using the laser fiber as a size reference. The primary safety outcome is independent, blinded grading of tissue injury from the URS video. Overall, 10 of 22 stones (45%) fragmented completely in 10 min. 64% and 73% were projected to fragment completely in 15 and 40 min, respectively. For reference, shock wave lithotripsy success is about 65% to fragments ≤4 mm in 40 min. Of the other six stones, one was larger than the beamwidth, two were smaller than the wavelength, and the ureteroscope introduced air bubbles around another. Only mild reddening with some hematuria was observed ureteroscopically. [Work supported by NIH-P01-DK04331.]
- Published
- 2021
- Full Text
- View/download PDF
29. Dependence of cavitation behavior induced by a pulsed high-intensity focused ultrasound array on focal waveform parameters and transducer F-number
- Author
-
Kyle P. Morrison, Maria M. Karzova, Vera A. Khokhlova, Tatiana D. Khokhlova, Petr V. Yuldashev, Randall P. Williams, and Bryan W. Cunitz
- Subjects
Materials science ,Acoustics and Ultrasonics ,Hydrophone ,business.industry ,Aperture ,medicine.medical_treatment ,Ultrasound ,High-intensity focused ultrasound ,Optics ,Transducer ,Arts and Humanities (miscellaneous) ,Cavitation ,medicine ,Waveform ,business ,Beam (structure) - Abstract
Pulsed high-intensity focused ultrasound (pHIFU) is capable of inducing cavitation without the need for contrast agents, which can enhance drug transport in tissues with poor perfusion. We report on the experimental characterization of cavitation induced by a new dual-mode ultrasound arraydesigned for image-guided pHIFU therapies. The 64-element array (1.071 MHz, aperture of 14.8 × 51.2 mm2 and pitch of 0.8 mm) is driven by the Verasonics V1 ultrasound system, configured for pHIFU excitation. Acoustic properties of the beam in the focal region were characterized through hydrophone measurements in the linear and nonlinear operating regimes while steering the beam azimuthally and axially. A high-speed camera was used to observe the cavitation behaviors induced in tissue-mimicking gel phantoms near the focus of the beam for different pHIFU exposure parameters. As the focal pressure increases, a change in cavitation behavior occurs, from the appearance of single, stationary bubbles, to groups of proliferating bubbles. The pressure at which the transition from stationary to proliferating cavitation was observed corresponds to the onset of shocks in the focal region. Beams with larger F-numbers were shown to induce cavitation at lower pressures than beams with lower F-numbers. [Work supported by NIH R01EB023910 and RSF 20-12-00145.]
- Published
- 2021
- Full Text
- View/download PDF
30. Flexible ultrasound-based system for clinical trial of burst wave lithotripsy and pushing of kidney stones
- Author
-
Ga Won Kim, Adam D. Maxwell, Michael R. Bailey, Bryan W. Cunitz, Ekaterina Kuznetsova, Barbrina Dunmire, and Elizabeth Lynch
- Subjects
Clinical trial ,medicine.medical_specialty ,Acoustics and Ultrasonics ,Arts and Humanities (miscellaneous) ,business.industry ,medicine.medical_treatment ,Ultrasound ,medicine ,Kidney stones ,Radiology ,Lithotripsy ,business ,medicine.disease - Abstract
Fragmentation of kidney stones by burst-wave lithotripsy (BWL) has shown promising results in preclinical and clinical trials. Based on initial findings, the system was upgraded to enhance imaging, target stones at deeper depths, fragment small stones, and potentially conduct dusting of stones. A 64-element, single-crystal, phased-array imaging probe is coaxially aligned with the therapy probe for image guidance and therapy feedback. Imaging is controlled through a Verasonics Vantage research ultrasound engine capable of harmonic imaging to enhance stone resolution and contrast. These features improve targeting and endpoint detection, particularly for small stones and fragments. New therapy probes were added to effectively target stones with greater skin-to-stone distance, including a higher (800 kHz) frequency transducer to effectively break
- Published
- 2021
- Full Text
- View/download PDF
31. Progression of hemorrhagic kidney injury from burst wave lithotripsy exposures
- Author
-
Jeff Thiel, Christopher Hunter, Akshit Arora, Wayne Kreider, Ziyue Liu, James C. Williams, Tony Chen, Bryan W. Cunitz, Daniel F. Leotta, Dong-Hoon Lee, Ravneet Vohra, Yak-Nam Wang, and Adam D. Maxwell
- Subjects
medicine.medical_specialty ,Acoustics and Ultrasonics ,Arts and Humanities (miscellaneous) ,business.industry ,medicine.medical_treatment ,Kidney injury ,Urology ,Medicine ,Lithotripsy ,business - Published
- 2021
- Full Text
- View/download PDF
32. Randomized control trial of ultrasonic propulsion to facilitate clearance of residual kidney stone fragments
- Author
-
Jeff Thiel, Michael B. Porter, Peter Sunaryo, Tony Chen, Bryan W. Cunitz, Jessica C. Dai, Jonathan D. Harper, Barbara A. Burke, Barbrina Dunmire, Christina Popchoi, Ziyue Liu, Mathew D. Sorensen, Branda J. Levchak, and Michael R. Bailey
- Subjects
medicine.medical_specialty ,Acoustics and Ultrasonics ,business.industry ,Urology ,Propulsion ,Residual ,medicine.disease ,law.invention ,Arts and Humanities (miscellaneous) ,Randomized controlled trial ,law ,Medicine ,Kidney stones ,Ultrasonic sensor ,business - Abstract
The goal is to test effectiveness and safety of transcutaneous ultrasound pulses for facilitating clearance of residual urinary stone fragments in a randomized control trial (RCT). The study is conducted in a clinic setting with the control and treatment arms undergoing all the same activities with the exception of the ultrasonic propulsion procedure and associated pain questionnaire. Subjects are followed 90 days for assessment of adverse events and for up to 5 years for stone growth and symptomatic stone visits. Twenty-six of 33 subjects have been recruited in each arm The most recent treatment is reported. The subject received shock wave lithotripsy and did not pass any fragments for 17 months. The subject was randomized to the treatment arm. Fragments began moving with the third 3-s propulsion pulse at output 2 of 5 levels. Fifty-two percent of propulsion pulses (41 of 79) resulted in fragment movement. The subject reported no pain at the beginning or end of the procedure and telephoned within 2 h to report passing 9 fragments, no hematuria, and no adverse events. The treatment results of this RCT are compelling as an immediate and casual effect was measured. [Work supported by NIH-P01-DK043881 and VA Puget Sound resources.]
- Published
- 2021
- Full Text
- View/download PDF
33. Characterizing the Acoustic Output of an Ultrasonic Propulsion Device for Urinary Stones
- Author
-
Bryan W. Cunitz, Michael R. Bailey, and Barbrina Dunmire
- Subjects
Acoustics and Ultrasonics ,Computer science ,Ultrasonic Therapy ,Acoustics ,medicine.medical_treatment ,Transducers ,030232 urology & nephrology ,Lithotripsy ,Article ,030218 nuclear medicine & medical imaging ,Kidney Calculi ,03 medical and health sciences ,symbols.namesake ,0302 clinical medicine ,medicine ,Humans ,Electrical and Electronic Engineering ,Instrumentation ,business.industry ,Ultrasound ,Sound power ,Pulse (physics) ,Transducer ,symbols ,Ultrasonic sensor ,business ,Doppler effect ,Mechanical index - Abstract
A non-invasive ultrasound system to facilitate the passage of small kidney stones has been developed. The device incorporates a software based ultrasound platform programmed with B-mode and Doppler for visualizing stones, plus long duration focused pulses for repositioning stones using the same transducer. This paper characterizes the acoustic outputs of the ultrasonic propulsion device. Though the application and outputs are unique, measurements were performed based on regulatory standards for both diagnostic ultrasound and extracorporeal lithotripters. The extended length of the pulse, time varying pressure output over the pulse, use of focused targeting, and the need to regulate the output at shallow depths, however, required modifications to the traditional acoustic measurement methods. Output parameters included: spatial peak intensities, mechanical index, thermal index, pulse energy, focal geometry, and target accuracy. The imaging and Doppler operating modes of the system meet the Food and Drug Administration (FDA) acoustic power and intensity limits for diagnostic ultrasound device. Push mode operates at a maximum mechanical index of 2.2, which is above the limit of 1.9 for diagnostic ultrasound, but well below any lithotripsy device and an ISPTA of 548 mW/cm2 which is below the 720 mW/cm2 limit for diagnostic ultrasound.
- Published
- 2017
- Full Text
- View/download PDF
34. Quantification of Renal Stone Contrast with Ultrasound in Human Subjects
- Author
-
Jeff Thiel, Matthew Bruce, Michael R. Bailey, Jonathan D. Harper, Philip C. May, Yasser Haider, Barbrina Dunmire, Mathew Sorensen, Ziyue Liu, and Bryan W. Cunitz
- Subjects
Male ,Brightness ,medicine.medical_specialty ,genetic structures ,Urology ,media_common.quotation_subject ,030232 urology & nephrology ,Sensitivity and Specificity ,Signal ,030218 nuclear medicine & medical imaging ,Kidney Calculi ,03 medical and health sciences ,symbols.namesake ,0302 clinical medicine ,Humans ,Medicine ,Contrast (vision) ,Ultrasonography, Doppler, Color ,media_common ,Artifact (error) ,business.industry ,Ultrasound ,Signal compression ,Imaging and Noninvasive Therapy ,Middle Aged ,symbols ,Female ,Radiology ,Artifacts ,business ,Doppler effect ,Twinkling ,Biomedical engineering - Abstract
Greater visual contrast between calculi and tissue would improve ultrasound (US) imaging of urolithiasis and potentially expand clinical use. The color Doppler twinkling artifact has been suggested to provide enhanced contrast of stones compared with brightness mode (B-mode) imaging, but results are variable. This work provides the first quantitative measure of stone contrast in humans for B-mode and color Doppler mode, forming the basis to improve US for the detection of stones.Using a research ultrasound system, B-mode imaging was tuned for detecting stones by applying a single transmit angle and reduced signal compression. Stone twinkling with color Doppler was tuned by using low-frequency transmit pulses, longer pulse durations, and a high-pulse repetition frequency. Data were captured from 32 subjects, with 297 B-mode and Doppler images analyzed from 21 subjects exhibiting twinkling signals. The signal to clutter ratio (i.e., stone to background tissue) (SCR) was used to compare the contrast of a stone on B-mode with color Doppler, and the contrast between stone twinkling and blood-flow signals within the kidney.The stone was the brightest object in only 54% of B-mode images and 100% of Doppler images containing stone twinkling. On average, stones were isoechoic with the tissue clutter on B-mode (SCR = 0 dB). Stone twinkling averaged 37 times greater contrast than B-mode (16 dB, p 0.0001) and 3.5 times greater contrast than blood-flow signals (5.5 dB, p = 0.088).This study provides the first quantitative measure of US stone to tissue contrast in humans. Stone twinkling contrast is significantly greater than the contrast of a stone on B-mode. There was also a trend of stone twinkling signals having greater contrast than blood-flow signals in the kidney. Dedicated optimization of B-mode and color Doppler stone imaging could improve US detection of stones.
- Published
- 2017
- Full Text
- View/download PDF
35. Detection and Evaluation of Renal Injury in Burst Wave Lithotripsy Using Ultrasound and Magnetic Resonance Imaging
- Author
-
Cynthia D. Johnson, Philip C. May, Bryan W. Cunitz, Dong-Hoon Lee, Joshua S.H. Park, Adam D. Maxwell, Yak-Nam Wang, Michael R. Bailey, Jonathan D. Harper, Mathew D. Sorensen, Wayne Kreider, and Philip M. Blomgren
- Subjects
medicine.medical_specialty ,Swine ,Urology ,medicine.medical_treatment ,Sus scrofa ,Transducers ,030232 urology & nephrology ,Treatment parameters ,Lithotripsy ,Kidney ,Sensitivity and Specificity ,030218 nuclear medicine & medical imaging ,Kidney Calculi ,03 medical and health sciences ,0302 clinical medicine ,Renal injury ,medicine ,Animals ,Experimental Endourology ,Ultrasonography ,medicine.diagnostic_test ,business.industry ,Ultrasound ,Magnetic resonance imaging ,Magnetic Resonance Imaging ,Extracorporeal shock wave lithotripsy ,Perfusion ,Disease Models, Animal ,medicine.anatomical_structure ,Female ,Radiology ,business ,Electromagnetic Phenomena - Abstract
Burst wave lithotripsy (BWL) is a transcutaneous technique with potential to safely and effectively fragment renal stones. Preclinical investigations of BWL require the assessment of potential renal injury. This study evaluates the capabilities of real-time ultrasound and MRI to detect and evaluate BWL injury that was induced in porcine kidneys.Ten kidneys from five female farm pigs were treated with either a 170 or 335 kHz BWL transducer using variable treatment parameters and monitored in real-time with ultrasound. Eight kidneys were perfusion fixed and scanned with a 3-Tesla MRI scanner (T1-weighted, T2-weighted, and susceptibility-weighted imaging), followed by processing via an established histomorphometric technique for injury quantification. In addition, two kidneys were separately evaluated for histologic characterization of injury quality.Observed B-mode hyperechoes on ultrasound consistent with cavitation predicted the presence of BWL-induced renal injury with a sensitivity and specificity of 100% in comparison to the histomorphometric technique. Similarly, MRI detected renal injury with a sensitivity of 90% and specificity of 100% and was able to identify the scale of lesion volumes. The injuries purposefully generated with BWL were histologically similar to those formed by shock wave lithotripsy.BWL-induced renal injury can be detected with a high degree of sensitivity and specificity by real-time ultrasound and post-treatment ex vivo MRI. No injury occurred in this study without cavitation detected on ultrasound. Such capabilities for injury detection and lesion volume quantification on MRI can be used for preclinical testing of BWL.
- Published
- 2017
- Full Text
- View/download PDF
36. Evidence of Microbubbles on Kidney Stones in Humans
- Author
-
Michael R. Bailey, Julianna C. Simon, James R. Holm, Jeffrey Thiel, Bryan W. Cunitz, and Barbrina Dunmire
- Subjects
medicine.medical_specialty ,Acoustics and Ultrasonics ,030232 urology & nephrology ,Biophysics ,Article ,030218 nuclear medicine & medical imaging ,Decompression sickness ,03 medical and health sciences ,Kidney Calculi ,0302 clinical medicine ,Internal medicine ,Medicine ,Humans ,Radiology, Nuclear Medicine and imaging ,Maximum pressure ,Ultrasonography ,Microbubbles ,Radiological and Ultrasound Technology ,business.industry ,Ultrasound ,Color doppler ultrasound ,medicine.disease ,Hyperbaric pressure ,Cardiology ,Kidney stones ,business ,Twinkling - Abstract
The color Doppler ultrasound twinkling artifact has been found to improve detection of kidney stones with ultrasound; however, it appears on only ∼60% of stones. Evidence from ex vivo kidney stones suggests twinkling arises from microbubbles stabilized in crevices on the stone surface. Yet it is unknown whether these bubbles are present on stones in humans. Here, we used a research ultrasound system to quantify twinkling in humans with kidney stones in a hyperbaric chamber. Eight human patients with non-obstructive kidney stones previously observed to twinkle were exposed to a maximum pressure of 4 atmospheres absolute (ATA) while breathing air, except during the 10-min pause at 1.6 ATA and while the pressure decreased to 1 ATA, during which patients breathed oxygen to minimize the risk of decompression sickness. A paired one-way t-test was used to compare the mean twinkle power at each pressure pause with baseline twinkling, with p0.05 considered to indicate significance. Results revealed that exposure to 3 and 4 ATA of pressure significantly reduced twinkle power by averages of 35% and 39%, respectively, in 7 patients (p = 0.04); data from the eighth patient were excluded because of corruption. This study supports the theory that microbubbles are present on kidney stones in humans.
- Published
- 2019
37. PD26-08 PRECLINICAL EVALUATION OF BURST WAVE LITHOTRIPSY STONE FRAGMENTATION AND ACUTE SAFETY IN A PORCINE MODEL OF NEPHROLITHIASIS
- Author
-
Yasser Nazari, Mathew Sorensen, Bryan W. Cunitz, Frank Starr, James C. Williams, Wayne Kreider, Dong-Hoon Lee, Yak-Nam Wang, Adam D. Maxwell, and Michael R. Bailey
- Subjects
medicine.medical_specialty ,business.industry ,Urology ,medicine.medical_treatment ,medicine ,Kidney stones ,Fragmentation (cell biology) ,Lithotripsy ,medicine.disease ,business - Abstract
INTRODUCTION AND OBJECTIVES:Burst wave lithotripsy (BWL) is a preclinical method developed to noninvasively fragment kidney stones with low-amplitude focused bursts of ultrasound. In this study, we...
- Published
- 2019
- Full Text
- View/download PDF
38. First in Human Clinical Trial of Ultrasonic Propulsion of Kidney Stones
- Author
-
Michael R. Bailey, Jeff Thiel, Hunter Wessells, Franklin Lee, Bryan W. Cunitz, Ryan S. Hsi, Jonathan D. Harper, James E. Lingeman, Barbrina Dunmire, and Mathew Sorensen
- Subjects
Male ,medicine.medical_specialty ,Ultrasonic Therapy ,Urology ,medicine.medical_treatment ,Sedation ,030232 urology & nephrology ,Propulsion ,Lithotripsy ,Article ,Kidney Calculi ,03 medical and health sciences ,0302 clinical medicine ,medicine ,Humans ,Ureteroscopy ,medicine.diagnostic_test ,business.industry ,Ultrasound ,Middle Aged ,medicine.disease ,Surgery ,Clinical trial ,030220 oncology & carcinogenesis ,Feasibility Studies ,Female ,Kidney stones ,Ultrasonic sensor ,medicine.symptom ,business - Abstract
Ultrasonic propulsion is a new technology using focused ultrasound energy applied transcutaneously to reposition kidney stones. We report what are to our knowledge the findings from the first human investigational trial of ultrasonic propulsion toward the applications of expelling small stones and dislodging large obstructing stones.Subjects underwent ultrasonic propulsion while awake without sedation in clinic, or during ureteroscopy while anesthetized. Ultrasound and a pain questionnaire were completed before, during and after propulsion. The primary outcome was to reposition stones in the collecting system. Secondary outcomes included safety, controllable movement of stones and movement of stones less than 5 mm and 5 mm or greater. Adverse events were assessed weekly for 3 weeks.Kidney stones were repositioned in 14 of 15 subjects. Of the 43 targets 28 (65%) showed some level of movement while 13 (30%) were displaced greater than 3 mm to a new location. Discomfort during the procedure was rare, mild, brief and self-limited. Stones were moved in a controlled direction with more than 30 fragments passed by 4 of the 6 subjects who had previously undergone a lithotripsy procedure. The largest stone moved was 10 mm. One patient experienced pain relief during treatment of a large stone at the ureteropelvic junction. In 4 subjects a seemingly large stone was determined to be a cluster of small passable stones after they were moved.Ultrasonic propulsion was able to successfully reposition stones and facilitate the passage of fragments in humans. No adverse events were associated with the investigational procedure.
- Published
- 2016
- Full Text
- View/download PDF
39. Use of the Acoustic Shadow Width to Determine Kidney Stone Size with Ultrasound
- Author
-
Ziyue Liu, Bryan W. Cunitz, Ryan S. Hsi, Michael R. Bailey, Jonathan D. Harper, Barbrina Dunmire, Mathew D. Sorensen, and Franklin Lee
- Subjects
business.industry ,Urology ,medicine.medical_treatment ,Ultrasound ,030232 urology & nephrology ,Second-harmonic imaging microscopy ,Mineralogy ,Lithotripsy ,medicine.disease ,Acoustic shadow ,03 medical and health sciences ,0302 clinical medicine ,030220 oncology & carcinogenesis ,Shadow ,Ultrasound imaging ,Medicine ,Kidney stones ,business ,Biomedical engineering ,CALCIUM OXALATE MONOHYDRATE - Abstract
Purpose: Ultrasound is known to overestimate kidney stone size. We explored measuring the acoustic shadow behind kidney stones combined with different ultrasound imaging modalities to improve stone sizing accuracy.Materials and Methods: A total of 45 calcium oxalate monohydrate stones were imaged in vitro at 3 different depths with the 3 different ultrasound imaging modalities of conventional ray line, spatial compound and harmonic imaging. The width of the stone and the width of the acoustic shadow were measured by 4 operators blinded to the true size of the stone.Results: Average error between the measured and true stone width was 1.4 ± 0.8 mm, 1.7 ± 0.9 mm, 0.9 ± 0.8 mm for ray line, spatial compound and harmonic imaging, respectively. Average error between the shadow width and true stone width was 0.2 ± 0.7 mm, 0.4 ± 0.7 mm and 0.0 ± 0.8 mm for ray line, spatial compound and harmonic imaging, respectively. Sizing error based on the stone width worsened with greater depth (p
- Published
- 2016
- Full Text
- View/download PDF
40. PD15-01 FIRST BURST-WAVE LITHOTRIPSY (BWL) IN HUMANS
- Author
-
Bryan W. Cunitz, James C. Williams, Ian Metzler, Michael R. Bailey, Barbrina Dunmire, Tony Chen, Adam D. Maxwell, Mathew Sorensen, Kennedy Hall, and Jonathan D. Harper
- Subjects
medicine.medical_specialty ,business.industry ,Urology ,medicine.medical_treatment ,medicine ,Radiology ,Lithotripsy ,business ,Focused ultrasound - Abstract
INTRODUCTION AND OBJECTIVE:Burst wave lithotripsy (BWL) is a new method to noninvasively fragment stones in the urinary tract with focused ultrasound. This is a case report on the first two human s...
- Published
- 2020
- Full Text
- View/download PDF
41. Impact of stone characteristics on cavitation in burst wave lithotripsy
- Author
-
James C. Williams, Michael R. Bailey, Barbrina Dunmire, Adam D. Maxwell, Christopher Hunter, Matthew D. Sorensen, Wayne Kreider, Bryan W. Cunitz, and Akshay Randad
- Subjects
Materials science ,Acoustics and Ultrasonics ,medicine.medical_treatment ,030232 urology & nephrology ,Pulse duration ,Shock wave lithotripsy ,Lithotripsy ,medicine.disease ,Article ,03 medical and health sciences ,0302 clinical medicine ,Transducer ,Arts and Humanities (miscellaneous) ,030220 oncology & carcinogenesis ,Cavitation ,medicine ,Ultrasound imaging ,Kidney stones ,Biomedical engineering - Abstract
Non-invasive kidney stone treatments such as shock wave lithotripsy (SWL) and burst wave lithotripsy (BWL) rely on the delivery of pressure waves through tissue to the stone. In both SWL and BWL, the potential to hinder comminution by exciting cavitation proximal to the stone has been reported. To elucidate how different stones alter prefocal cavitation in BWL, different natural and synthetic stones were treated in vitro using a therapy transducer operating at 350 kHz (peak negative pressure 7 MPa, pulse length 20 cycles, pulse repetition frequency 10 Hz). Stones were held in a confined volume of water designed to mimic the geometry of a kidney calyx, with the water filtered and degassed to maintain conditions for which the cavitation threshold (in the absence of a stone) matches that from in vivo observations. Stone targeting and cavitation monitoring were performed via ultrasound imaging using a diagnostic probe aligned coaxially with the therapy transducer. Quantitative differences in the extent and location of cavitation activity were observed for different stone types—e.g., “softer” stones (natural and synthetic) that disintegrate into dusty fragments produced larger prefocal cavitation clouds. Future work will focus on correlation of such cavitation metrics with stone fragmentation. [Funding support by NIH P01-DK043881, K01-DK104854.]
- Published
- 2018
42. PD37-09 KIDNEY STONE CONTRAST WITH COLOR-DOPPLER TWINKLING ARTIFACT AS A FUNCTION OF MECHANICAL INDEX
- Author
-
Jessica C. Dai, Ziyue Liu, Bryan W. Cunitz, Matthew Sorenson, Matthew Bruce, Jeffrey Thiel, Robert M. Sweet, Jonathan D. Harper, Barbrina Dunmire, and Michael R. Bailey
- Subjects
Artifact (error) ,business.industry ,Urology ,media_common.quotation_subject ,Color doppler ,medicine.disease ,Nuclear magnetic resonance ,Medicine ,Contrast (vision) ,Kidney stones ,business ,Twinkling ,Mechanical index ,media_common - Published
- 2018
- Full Text
- View/download PDF
43. Update on clinical trials of kidney stone repositioning and preclinical results of stone breaking with one system
- Author
-
Ziyue Liu, Michael R. Bailey, Jessica Dai, Wayne Kreider, Oren Levy, Jonathan D. Harper, Adam D. Maxwell, Yak-Nam Wang, Mathew Sorensen, Bryan W. Cunitz, Barbrina Dunmire, and Helena Chang
- Subjects
medicine.medical_specialty ,Urinalysis ,medicine.diagnostic_test ,Clinical pathology ,business.industry ,medicine.medical_treatment ,Urinary system ,Lithotripsy ,medicine.disease ,Normal limit ,Article ,Surgery ,Clinical trial ,Dissection ,medicine ,Kidney stones ,business - Abstract
Our goal is an office-based, handheld ultrasound system to target, detach, break, and/or expel stones and stone fragments from the urinary collecting system to facilitate natural clearance. Repositioning of stones in humans (maximum 2.5 MPa, and 3-second bursts) and breaking of stones in a porcine model (maximum 50 cycles, 20 Hz repetition, 30 minutes, and 7 MPa peak negative pressure) have been demonstrated using the same 350-kHz probe. Repositioning in humans was conducted during surgery with a ureteroscope in the kidney to film stone movement. Independent video review confirmed stone movements (≥ 3 mm) in 15 of 16 kidneys (94%). No serious or unanticipated adverse events were reported. Experiments of burst wave lithotripsy (BWL) effectiveness on breaking human stones implanted in the porcine bladder and kidney demonstrated fragmentation of 8 of 8 stones on post mortem dissection. A 1-week survival study with the BWL exposures and 10 specific-pathogen-free pigs, showed all findings were within normal limits on clinical pathology, hematology, and urinalysis. These results demonstrate that repositioning of stones with ultrasonic propulsion and breaking of stones with BWL are safe and effective.
- Published
- 2018
- Full Text
- View/download PDF
44. Impact of stone type on cavitation in burst wave lithotripsy
- Author
-
James C. Williams, Bryan W. Cunitz, Akshay Randad, Barbrina Dunmire, Wayne Kreider, Adam D. Maxwell, Christopher Hunter, Michael Bailey, and Mathew Sorensen
- Subjects
Pulse repetition frequency ,Transducer ,Materials science ,medicine.medical_treatment ,Cavitation ,medicine ,Ultrasound imaging ,Pulse duration ,Kidney stones ,Shock wave lithotripsy ,Lithotripsy ,medicine.disease ,Biomedical engineering - Abstract
Non-invasive kidney stone treatments such as shock wave lithotripsy (SWL) and burst wave lithotripsy (BWL) rely on the delivery of pressure waves through tissue to the stone. In both SWL and BWL, the potential to hinder comminution by exciting cavitation proximal to the stone has been reported. To elucidate how different stones alter prefocal cavitation in BWL, different natural and synthetic stones were treated in vitro using a therapy transducer operating at 350 kHz (peak negative pressure 7 MPa, pulse length 20 cycles, pulse repetition frequency 10 Hz). Stones were held in a confined volume of water designed to mimic the geometry of a kidney calyx, with the water filtered and degassed to maintain conditions for which the cavitation threshold (in the absence of a stone) matches that from in vivo observations. Stone targeting and cavitation monitoring were performed via ultrasound imaging using a diagnostic probe aligned coaxially with the therapy transducer. Quantitative differences in the extent and location of cavitation activity were observed for different stone types—e.g., stones (natural and synthetic) that are known to be porous produced larger prefocal cavitation clouds. Ongoing work will focus on correlation of such cavitation metrics with stone fragmentation.
- Published
- 2018
- Full Text
- View/download PDF
45. Tools to Improve the Accuracy of Kidney Stone Sizing with Ultrasound
- Author
-
Jonathan D. Harper, Barbrina Dunmire, Michael R. Bailey, Mathew D. Sorensen, Franklin Lee, Marla Paun, Bryan W. Cunitz, and Ryan S. Hsi
- Subjects
High-gain antenna ,business.industry ,Urology ,Transducers ,Ultrasound ,Image processing ,Imaging and Noninvasive Therapy ,Stone size ,In Vitro Techniques ,medicine.disease ,Grayscale ,Sizing ,Intensity (physics) ,Automation ,Kidney Calculi ,Image Processing, Computer-Assisted ,Humans ,Medicine ,Kidney stones ,business ,Software ,Ultrasonography ,Biomedical engineering - Abstract
Ultrasound (US) overestimates stone size when compared with CT. The purpose of this work was to evaluate the overestimation of stone size with US in an in vitro water bath model and investigate methods to reduce overestimation.Ten human stones (3-12 mm) were measured using B-mode (brightness mode) US by a sonographer blinded to the true stone size. Images were captured and compared using both a commercial US machine and software-based research US device. Image gain was adjusted between moderate and high stone intensities, and the transducer-to-stone depth was varied from 6 to 10 cm. A computerized stone-sizing program was developed to outline the stone width based on a grayscale intensity threshold.Overestimation with the commercial device increased with both gain and depth. Average overestimation at moderate and high gain was 1.9±0.8 and 2.1±0.9 mm, respectively (p=0.6). Overestimation increased an average of 22% with an every 2-cm increase in depth (p=0.02). Overestimation using the research device was 1.5±0.9 mm and did not vary with depth (p=0.28). Overestimation could be reduced to 0.02±1.1 mm (p0.001) with the computerized stone-sizing program. However, a standardized threshold consistent across depth, system, or system settings could not be resolved.Stone size is consistently overestimated with US. Overestimation increased with increasing depth and gain using the commercial machine. Overestimation was reduced and did not vary with depth, using the software-based US device. The computerized stone-sizing program shows the potential to reduce overestimation by implementing a grayscale intensity threshold for defining the stone size. More work is needed to standardize the approach, but if successful, such an approach could significantly improve stone-sizing accuracy and lead to automation of stone sizing.
- Published
- 2015
- Full Text
- View/download PDF
46. Notice of Removal: Imaging in situ human kidney stones with the color Doppler ultrasound twinkling artifact
- Author
-
Barbrina Dunmire, Oleg A. Sapozhnikov, James R. Holm, Julianna C. Simon, Jeffrey Thiel, Michael R. Bailey, and Bryan W. Cunitz
- Subjects
Artifact (error) ,medicine.medical_specialty ,business.industry ,Human kidney ,Color doppler ultrasound ,medicine.disease ,Hyperbaric pressure ,symbols.namesake ,Microbubbles ,symbols ,medicine ,Kidney stones ,Radiology ,Nuclear medicine ,business ,Doppler effect ,Twinkling - Abstract
Hyperbaric pressures of 3–100 atmospheres absolute (ATA) have been shown to reduce the color Doppler ultrasound twinkling artifact on ex vivo human kidney stones, leading to the hypothesis that surface crevice microbubbles cause twinkling. Similarly supportive for the crevice bubble hypothesis is the suppression of kidney stone twinkling in animals breathing elevated levels of carbon dioxide. However, it is unclear whether stable microbubbles can exist on the surface of kidney stones in the human body. For the first time, we investigate the effect of hyperbaric pressure on in situ human kidney stones to determine whether stable microbubbles exist as measured by the color Doppler ultrasound twinkling artifact.
- Published
- 2017
- Full Text
- View/download PDF
47. Preclinical safety and effectiveness of a longer beam and burst duration for ultrasonic repositioning of urinary stones
- Author
-
Timothy C. Brand, Yak-Nam Wang, Frank L. Starr, Jeff Thiel, Bryan W. Cunitz, Julianna C. Simon, H. Denny Liggitt, Jonathan D. Harper, Karmon M. Janssen, Mathew D. Sorensen, Barbrina Dunmire, and Michael R. Bailey
- Subjects
Transducer ,Materials science ,Duration (music) ,Acoustics ,Ultrasonic sensor ,Beam (structure) - Abstract
In the first-in-human trial of ultrasonic propulsion, subjects passed collections of residual stone fragments after repositioning with a C5-2 probe. Here, effectiveness and safety in moving multiple fragments is compared between the C5-2 and a custom SC-50 probe that produces a longer beam and burst duration.
- Published
- 2017
- Full Text
- View/download PDF
48. Notice of Removal: Design and characterization of a 2-dimensional focused 1.5-MHz ultrasound array with a compact spiral arrangement of 256 circular elements
- Author
-
Michael R. Bailey, Mohamed A. Ghanem, Petr V. Yuldashev, Oleg A. Sapozhnikov, Pavel B. Rosnitskiy, Adam D. Maxwell, Bryan W. Cunitz, Wayne Kreider, and Vera A. Khokhlova
- Subjects
Shock wave ,Histotripsy ,Optics ,Materials science ,business.industry ,Boiling ,Ultrasound ,Grating ,business ,Focus (optics) ,Spiral ,Characterization (materials science) - Abstract
Multi-element ultrasound arrays are increasingly used in clinical practice for both imaging and therapy. In therapy, they allow electronic steering, aberration correction, and focusing. To avoid grating lobes, an important requirement for such an array is the absence of periodicity in the arrangement of the elements. A convenient solution is the arrangement of the elements along spirals. The objective of this work was to design, fabricate, and characterize an array for boiling histotripsy applications that is capable of generating shock waves in the focus of up to 100 MPa peak pressure while having a reasonable electronic steering range [Khokhlova et al., Physics Procedia 87 (2016)].
- Published
- 2017
- Full Text
- View/download PDF
49. Effect of Stone Size and Composition on Ultrasonic Propulsion Ex Vivo
- Author
-
Barbrina Dunmire, Mathew D. Sorensen, Timothy C. Brand, Jonathan D. Harper, Bryan W. Cunitz, Michael R. Bailey, and Karmon M. Janssen
- Subjects
medicine.medical_specialty ,Urology ,Ultrasonic Therapy ,030232 urology & nephrology ,Stone size ,Propulsion ,Kidney Calices ,Article ,Calyx ,03 medical and health sciences ,chemistry.chemical_compound ,Kidney Calculi ,0302 clinical medicine ,Medicine ,Humans ,Tissue phantom ,business.industry ,Phantoms, Imaging ,Surgery ,Renal calyx ,medicine.anatomical_structure ,chemistry ,Struvite ,030220 oncology & carcinogenesis ,Ultrasonic sensor ,Ammonium Acid Urate ,business ,Biomedical engineering - Abstract
Objective To evaluate in more detail the effectiveness of a new designed more efficient ultrasonic propulsion for large stones and specific stone compositions in a tissue phantom model. In the first clinical trial of noninvasive ultrasonic propulsion, urinary stones of unknown compositions and sizes up to 10 mm were successfully repositioned. Materials and Methods The study included 8- to 12-mm stones of 4 different primary compositions (calcium oxalate monohydrate, ammonium acid urate, calcium phosphate, and struvite) and a renal calyx phantom consisting of a 12 mm × 30 mm well in a 10-cm block of tissue-mimicking material. Primary outcome was the number of times a stone was expelled over 10 attempts, with ultrasonic propulsion burst duration varying from 0.5 seconds to 5 seconds. Results Overall success rate at expelling stones was 95%. All calcium oxalate monohydrate and ammonium acid urate stones were expelled 100% of the time. The largest stone (12 mm) became lodged within the 12-mm phantom calyx 25% of the time regardless of the burst duration. With the 0.5-second burst, there was insufficient energy to expel the heaviest stone (0.88 g), but there was sufficient energy at the longer burst durations. Conclusion With a single burst, ultrasonic propulsion successfully moved most stones at least 3 cm and, regardless of size or composition, expelled them from the calyx. Ultrasonic propulsion is limited to the stones smaller than the calyceal space, and for each burst duration, related to maximum stone mass.
- Published
- 2017
50. Safety and Effectiveness of a Longer Focal Beam and Burst Duration in Ultrasonic Propulsion for Repositioning Urinary Stones and Fragments
- Author
-
Jeff Thiel, Michael R. Bailey, Jonathan D. Harper, H. Denny Liggitt, Yak-Nam Wang, Barbrina Dunmire, Karmon M. Janssen, Bryan W. Cunitz, Mathew D. Sorensen, Julianna C. Simon, Frank Starr, and Timothy C. Brand
- Subjects
Male ,medicine.medical_specialty ,Swine ,medicine.medical_treatment ,Urology ,Urinary system ,030232 urology & nephrology ,Lithotripsy ,Propulsion ,Kidney ,Imaging phantom ,Kidney Calices ,Patient Positioning ,03 medical and health sciences ,Kidney Calculi ,0302 clinical medicine ,Urolithiasis ,medicine ,Animals ,Humans ,Ultrasonics ,Ureteroscopy ,Experimental Endourology ,Skin ,medicine.diagnostic_test ,business.industry ,Phantoms, Imaging ,Ultrasound ,Temperature ,Equipment Design ,Middle Aged ,Surgery ,Duration (music) ,030220 oncology & carcinogenesis ,Ultrasonic sensor ,Female ,Urinary Calculi ,Radiology ,Patient Safety ,business ,Beam (structure) ,Biomedical engineering - Abstract
In the first-in-human trial of ultrasonic propulsion, subjects passed collections of residual stone fragments repositioned with a C5-2 probe. Here, effectiveness and safety in moving multiple fragments are compared between the C5-2 and a custom (SC-50) probe that produces a longer focal beam and burst duration.Effectiveness was quantified by the number of stones expelled from a calyx phantom consisting of a 30-mm deep, water-filled well in a block of tissue mimicking material. Each probe was positioned below the phantom to move stones against gravity. Single propulsion bursts of 50 ms or 3 s duration were applied to three separate targets: 10 fragments of 2 different sizes (1-2 and 2-3 mm) and a single 4 × 7 mm human stone. Safety studies consisted of porcine kidneys exposed to an extreme dose of 10-minute burst duration, including a 7-day survival study and acute studies with surgically implanted stones.Although successful in the clinical trial, the shorter focal beam and maximum 50 ms burst duration of the C5-2 probe moved stones, but did not expel any stones from the phantom's 30-mm deep calyx. The results were similar with the SC-50 probe under the same 50 ms burst duration. Longer (3 s) bursts available with the SC-50 probe expelled all stones at both 4.5 and 9.5 cm "skin-to-stone" depths with lower probe heating compared to the C5-2. No abnormal behavior, urine chemistry, serum chemistry, or histological findings were observed within the kidney or surrounding tissues for the 10 min burst duration used in the animal studies.A longer focal beam and burst duration improved expulsion of a stone and multiple stone fragments from a phantom over a broad range of clinically relevant penetration depths and did not cause kidney injury in animal studies.
- Published
- 2017
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.