DEVELOPMENT OF AN IN-VIVO ACOUSTIC DIAGNOSTIC FOR LITHOTRIPTER-INDUCED SHOCK-TISSUE INTERACTION
Part 5: Publications
Click on the following links for:
1. Homepage of lithotripsy project
2. Introduction to lithotripsy (Tutorial)
3. Formal report on the project
Click here for Biomedical Ultrasonics page
Leighton T G. From sea to surgeries, from babbling brooks to baby scans: bubble acoustics at ISVR. Proceedings of the Institute of Acoustics, 26, Part 1, 357-381, 2004, 357-381 (Tyndall Medal paper)
Leighton TG. The acoustics of gas bubbles in liquids. Anglo-French Physical Acoustics Group Meeting, (Institute of Physics), 2001, p. 7 (Keynote paper for Inaugural Meeting of this Group)
Leighton T G, Coleman AJ, Fedele F & White P R, A passive acoustic system for evaluating the in vivo performance of extracorporeal shock wave lithotripsy. UK Patent No. 0319863.7
Coleman A J, Choi M J, Saunders J E & Leighton T G, Acoustic emission and sonoluminescence due to cavitation at the beam focus of an electrohydraulic shock wave lithotripter, Ultrasound in Medicine and Biology, 18, 1992, 267-281
Coleman A J, Whitlock M, Leighton T G & Saunders J E, The spatial distribution of cavitation induced acoustic emission, sonoluminescence and cell lysis in the field of a shock wave lithotripter, Phys. Med. Biol., 38, 1993, 1545-60
Cunningham K B, Coleman A, Leighton T G & White P R. Characterising in vivo acoustic cavitation during lithotripsy with time-frequency methods. Acoustics Bulletin 26(5), 2001, 10-16
Fedele F, Coleman AJ & Leighton TG. Use of a cylindrical PVdF hydrophone in a study of cavitation adjacent to stone phantoms during extracorporeal shockwave lithotripsy. Proc of the 9th Annual National Conference of the Institute of Physics and Engineering in Medicine, (IPEM, Bath) p. 66, 2003
Fedele F, Coleman AJ, Leighton TG, White PR & Hurrell AM. A new diagnostic sensor for Extra-corporeal Shock-Wave Lithotripsy. Acoustics Bulletin 2004 (in press)
Fedele F, Coleman A J, Leighton T G, White P R and Hurrell A M. Development of a new diagnostic sensor for Extra-corporeal Shock-Wave Lithotripsy. Proceedings of the First Conference in Advanced Metrology for Ultrasound in Medicine, Journal of Physics: Conference Series 1, 134-139 (2004).
Ball GJ, Howell BP, Leighton TG & Schofield MJ, Shock-induced collapse of cylindrical air cavity in water: Free-Lagrange simulation. Shock Waves, 10, 2000, 265-76
Ball GJ, Howell BP, Leighton TG & Schofield MJ, Shock-induced collapse of a cylindrical air cavity in water: a Free-Lagrange simulation. Proc. 22nd Int. Symposium on Shock Waves, London, July 1999, Paper 0060, published April 2000, 1363-1368
Jamaluddin AR, Ball GJ & Leighton TG. Free-Lagrange simulations of shock/bubble interaction in shock wave lithotripsy. The 24th International Symposium on Shock Waves, Beijing, China, July 11 16, 2004 (in press)
Jamaluddin AR, Ball GJ & Leighton TG. Free-Lagrange simulations of shock/bubble interaction in shock wave lithotripsy. Proc. 2nd Int. Conf. on Computational Fluid Dynamics, ICCFD, Sydney, Australia, 15-19 July 2002, pp 541-546
Jamaluddin AR, Turangan CK, Ball GJ & Leighton TG. Free-Lagrange simulations of the jetting collapse of air bubbles with application to extracorporeal shock wave lithotripsy. Proceedings of the Royal Society A (in preparation)
Leighton TG, Meers SD & White PR. A nonlinear time-dependent inversion to obtain bubble populations from acoustic propagation characteristics. Proceedings of the Royal Society (in press; publ. Royal Society FirstCite Website May 2004)
Leighton TG & Dumbrell HA. Modeling acoustic propagation through clouds of nonlinearly pulsating bubbles in vivo. Ultrasound Med.Biol. (2004, in preparation)
Fedele F, Coleman AJ, Leighton TG, White PR & Hurrell AM. A new sensor for detecting & characterising acoustic cavitation in vivo during ESWL. Proceedings of the Institute of Acoustics, 26, Part 1, 2004, 422-432
Leighton TG ‘From babbling brooks to baby scans, from seas to surgeries: The pressure fields produced by non-interacting spherical bubbles at low & medium amplitudes of pulsation’, International Journal of Modern Physics B (accepted), 2004 (Invited Review article in international peer-reviewed journal)
Leighton TG, Fedele F, Coleman AJ, Jamaluddin AR, Ball GJ, White PR & Hurrell AM. An experimental investigation into a passive sensor for continuous monitoring of targeting & stone fragmentation during ESWL. Ultrasound Med. Biol. (in preparation)
This page was last updated by TG Leighton, 6 August 2004