Tandem shock wave cavitation enhancement for extracorporeal lithotripsy

Physics in Medicine and Biology

Volumn 47, Issue 22, 2002, Pages 3945-3957

  Loske, Achim M ^a   Prieto, Fernando E ^a   Fernández, Francisco ^a   van Cauwelaert, Javier ^a  

^a CENTRO DE FÍSICA APLICADA Y TECNOLOGÍA AVANZADA   (Mexico)

Author keywords

[No Author keywords available]

Indexed keywords

BONE; CAVITATION; DISEASES; PIEZOELECTRIC MATERIALS; SHOCK WAVES; SPALLING;

EXTRACORPOREAL SHOCK WAVE LITHOTRIPSY (ESWL);

PATIENT TREATMENT;

CONTROLLED STUDY; COST CONTROL; DEVICE; DISEASE MODEL; EXTRACORPOREAL LITHOTRIPSY; GENERATOR; HUMAN; IN VITRO STUDY; NEPHROLITHIASIS; PHANTOM; PRESSURE MEASUREMENT; PRIORITY JOURNAL; REVIEW; SHOCK WAVE; TIME;

EQUIPMENT DESIGN; EQUIPMENT FAILURE ANALYSIS; FEASIBILITY STUDIES; HUMANS; KIDNEY CALCULI; LITHOTRIPSY; PRESSURE; QUALITY CONTROL; SENSITIVITY AND SPECIFICITY; TRANSDUCERS; ULTRASONICS;

EID: 0037153577     PISSN: 00319155     EISSN: None     Source Type: Journal    
DOI: 10.1088/0031-9155/47/22/303     Document Type: Review

References (42)

1. Baiely M R 1997 Control of acoustic cavitation with application to lithotripsy phD Dissertation University of Texas at Austin
2. Bailey M R, Blackstock D T, Cleveland R O and Crum L A 1998 Comparison of electrohydrauli lithotripters with rigid and pressure-release ellipsoidal relfectors. I. Acoustic fields. J. Acoust. Soc. Am. 104 2517-24
3. Bailey M R, Blackstock D T, Cleveland R O and Crum L A 1999 Comparison of electrohydraulic lithotripters with rigid and pressure-release ellipsoidal reflectors. II. Cavitation fields. J. Acoust. Soc. Am. 106 1149-60
4. Cady W C 1946 Piezoelectricity (New York: McGraw-Hill)
5. Carstensen E L, Gracewski S and Daleki D 2000 The search for cavitation in vivo Ultrasound Med. Biol. 26 1377-85
6. Cathignol D 1998 Comparison between the effects of cavitation induced by two different pressure-time shock waveform pulses IEEE Trans. Ultrason. Ferroelectr. Freq. Control 45 788-99
7. Chaussy C, Schmiedt E, Jocham D, Brendel W, Forssmann B and Walther V 1982 First clinical experience with extracorporeally induced destruction of kidney stones by shock waves J. Urol. 127 417-20
8. Cleveland R O, McAteer J A and Williams J C 2001 Correlation between the predicted stress field and observed spall-failure in artificial kidney stones treated by shock wave lithotripsy (ESWL) in vitro Proc. 17th Int. Congress on Acoustics (Rome, Italy) vol 4, ed A Bettucci
9. Coleman A J, Saunders J E, Crum L A and Dyson M 1987 Acoustic cavitation generated by an extracorporeal shock wave lithotripter Ultrasound Med. Biol. 13 69-76
10. Crum L A 1979 Surface oscillations and jet development in pulsating bubbles J. Physique 40 285-8
11. Crum L A 1988 Cavitation microjets as a contributory mechanism for renal calculi disintegration in ESWL J. Urol. 140 1587-90
12. Delacrétaz G, Rink K, Pittomvils G, Lafaut J P, Vandeursen H and Boving R 1995 Importance of the implosion of ESWL-induced cavitation bubbles Ultrasound Med. Biol. 21 97-103
13. Downie N M and Heath R W 1970 Basic Statiscal Methods (New York: Harper and Row) ch 12
14. Eisenmenger W 2001 The mechanism of stone fragmentation in ESWL Ultrasound Med. Biol. 27 683-93
15. Evan A P, Willis L R, Lingeman J E and McAteer J A 1998 Renal trauma and the risk of long-term complications in shock wave lithotripsy J. Nephron. 78 1-7
16. Field J E 1991 The physics of liquid impact, shock wave interactions with cavities, and the implications to shock wave lithotripsy Phys. Med. Biol. 36 1475-84
17. Gambihler S, Delius M and Ellwart J W 1994 Permeabilization of the plasma membrane of L1210 mouse leukemia cells using lithotripter shock waves J. Membr. Biol. 141 267-75
18. Hart J H 1997 Nonparametric Smoothing and Lack-of-Fit Tests (New York: Springer)
19. Lauer U, Bürgelt E, Squire Z, Messmer K, Hofschneider P H, Gregor M and Delius M 1997 Shock wave permeabilization as a new gene transfer method Gene Ther. 4 710-5
20. Lifshitz D A, Williams J C, Sturtevant B, Connors B A, Evan A P and McAteer J A 1997 Quantitation of shock wave cavitation damage in vitro Ultrasound Med. Biol. 23 461-71
21. Lockhandwalla M and Sturtevant B 2000 Fracture mechanics model of stone comminution in ESWL and implications for tissue damage Phys. Med. Biol. 45 1923-49
22. Loske A M 2001 Applications of shock waves in medicine Handbook of Shock Waves ed G Ben-Dor, T Elperin, O Igra and A Lifschitz (New York: Academic) ch 12
23. Loske A M Álvarez U M, Hernández-Galicia C, Castaño-Tostado E and Prieto F E 2002 Bactericidal effect of underwater shock waves on Escherichia coli ATcc 10536 suspensions Innovative Food Science and Emerging Technologies at press (available online at http://www.sciencedirect.com)
24. Loske A M and Prieto F E 1995 Shock Waves in Medicine: Commented Bibliographical Database (Mexico City: CIC-UNAM)
25. Loske A M and Prieto F E 1996 Improving underwater shock wave focusing efficiency Urolithiasis ed C Y C Pak, M I Resnick and G M Preminger (Dallas TX: Millet The Printer) pp 401-2
26. Loske A M and Prieto F E 2001 Dual-phase reflectors for extracorporeal shock wave lithotripsy Phys. Medica 17 141-9
27. Loske A M, Prieto F E, Zavala M L, Santana A D and Armenta E 1999 Repeated application of shock waves as a possible method for food preservation Shock Waves 9 49-55
28. McAteer J A, Cleveland R O, Paterson R F, Rietjens D L, Evan A P, Connors B A, Lingeman J E, Pishchalnikov Y A, Pishchalnikova I V and Williams J C 2001a Evidence that cavitation and spall contribute to stone failure in an animal model of kidney stone fragmentation by shock wave lithotripsy (SWL) Proc. 17th Int. Congress on Acoustics (Rome, Italy) vol 4, ed A Bettucci
29. McAteer J A, Cleveland R O, Rietjens D L, Pishchalnikov Y A, Pishchalnikova I V and Williams J C 2001b Cavitation promotes spall failure of model kidney stones treated by shock wave lithotripsy in vitro Proc. 17th Int. Congress on Acoustics (Rome, Italy) vol 4, ed A Bettucci
30. Paterson R F et al 2001 Slowing the pulse repetition frequency in shock wave lithotripsy (ESWL) improves stone fragmentation in vivo Proc. 17th Int. Congress on Acoustics Rome, Italy vol 4, ed A Bettucci
31. Prieto P E and Loske A M 1995 Multifocal composite reflectors to concentrate shock waves. International Patent P.C.T./MX95/0008
32. Prieto F E and Loske A M 1998 Zusammengesetzte Multicalreflektoren zur Konzentration von Stosswellen German Patent DE 195 81 913.6
33. Prieto F E and Loske A M 1999 Bifocal reflector for electrohydraulic lithotripters J. Endourol. 13 65-75
34. Riedlinger R, Dreyer T and Krauss W 2001 Small aperture piezo sources for lithotripsy Proc. 17th Int. Congress on Acoustic (Rome, Italy) vol 4, ed A Bettucci
35. Sokolov D L, Bailey M R and Crum L A 2001 Use of two pulses to localize and intensity in lithotripsy J. Acoust. Soc. Am. 110 1685-95
36. Xi X and Zhong P 2000 Improvement of stone fragmentation during shock-wave lithotripsy using a combined EH/PEAA shock-wave generator-in vitro experiments Ultrasound Med. Biol. 26 457-67
37. Zhong P, Chuong C J and Preminger G M 1993 Propagation of shock waves in elastic solids caused by the impact of cavitation microjets. II. Application to extracorporeal shock wave lithotrips J. Acoust. Soc. Am. 94 29-36
38. Zhong P, Cioanta I, Cocks F H and Preminger G M 1997a Inertial cavitation and associated acoustic emission produced during electrohydraulic shock wave lithotripsy J. Acoust. Soc. Am. 101 2940-50
39. Zhong P, Cocks F H, Cioanta I and Preminger G M 1997b Controlled, forced collapse of cavitation bubbles for improved stone fragmentation during shock wave lithotripsy J. Urol. 158 2323-8
40. Zhong P, Lin H F, Xi X F, Zhu S L and Bhogte E S 1999a Shock wave-inertial microbubble interaction: methodology, physical characterization, and bioeffect study J. Acoust. Soc. Am. 105 1997-2009
41. Zhong P, Xi X, Zhu S, Cocks F and Preminger G 1999b Recent developments in ESWL physics research. J. Endourol. 13 611-7
42. Zhu S L and Zhong P 1999 Shock wave-inertial microbubble interaction: A theoretical study based on the Gilmore formulation for bubble dynamics J. Acoust. Soc. Am 106 3024-33