Biomedical Engineering Reference
In-Depth Information
R. J. Dickinson. An ultrasound system for local hyperthermia
using scanned focused transducers.
IEEE Trans. Biomed.
Eng.
, BME-31(1):120 -125, 1984.
E. S. Ebbini and C. A. Cain. Multiple-focus ultrasound phased-
array pattern synthesis: Optimal driving signal distribu-
tions for hyperthermia.
IEEE Trans. Ultrason. Ferroelect.
Freq. Contr.
, 36(5):540-548, 1989.
E. S. Ebbini and C. A. Cain. Optimization of the intensity gain
of multiple-focus phased-array heating patterns.
Int. J.
Hypertherm.
, 7(6):953-973, 1991.
X. Fan and K. Hynynen. The effects of curved tissue layers on the
power deposition patterns of therapeutic ultrasound beams.
Med. Phys.
, 21(1):25-34, 1994.
R. J. Fedewa, R. Seip, R. F. Carlson, W. Chen, N. T. Sanghvi, M. A.
Penna, K. A. Dines, and R. E. Pfile. Automated treatment
planning for prostate cancer HIFU therapy. In
Ultrasonics
Symposium, 2005 IEEE
, volume 2, 1135-1138, 2005.
P. Fessenden, E. R. Lee, T. L. Anderson, J. W. Strohbehn, J. L.
Meyer, T. V. Samulski, and J. B. Marmor. Experience with
a multitransducer ultrasound system for localized hyper-
thermia of deep tissues.
IEEE Trans. Biomed. Eng.
, BME-
31(1):126-135, 1984.
T. Fjield, X. Fan, and K. Hynynen. A parametric study of the
concentric-ring transducer design for MRI guided ultra-
sound surgery.
J. Acoust. Soc. Am.
, 100(2):1220-1230, 1996.
S. A. Goss, L. A. Frizzell, and F. Dunn. Ultrasonic absorption and
attenuation in mammalian tissues.
Ultrasound Med. Biol.
,
5(2):181-186, 1979.
J. Huijssen and M. D. Verweij. An iterative method for the com-
putation of nonlinear, wide-angle, pulsed acoustic fields
of medical diagnostic transducers.
J. Acoust. Soc. Am.
,
127(1):33-44, 2010.
K. Hynynen. Biophysics and technology of ultrasound hyper-
thermia. In M. Gautherie, editor,
Methods of External
Hyperthermic Heating
, 61-115. Springer-Verlag, New York,
1990a.
K. Hynynen. Hot spots created at skin-air interfaces during ultra-
sound hyperthermia.
Int. J. Hypertherm.
, 6(6):1005-1012,
1990b.
K. Hynynen and D. DeYoung. Temperature elevation at muscle-
bone interface during scanned, focussed ultrasound hyper-
thermia.
Int. J. Hypertherm.
, 4(3):267-279, 1988.
K. Hynynen and B. A. Lulu. Hyperthermia in cancer treatment.
Investigative Radiology
, 25(7):824-834, 1990.
M. S. Ibbini and C. A. Cain. A field conjugation method for
direct synthesis of hyperthermia phased-array heating
patterns.
IEEE Trans. Ultrason. Ferroelect. Freq. Contr.
,
36(2):3-9, 1989.
M. R. Jennings and R. J. McGough. Improving conformal tumour
heating by adaptively removing control points from wave-
form diversity beamforming calculations: A simulation
study.
Int. J. Hypertherm.
, 26(7):710-724, 2010.
J. A. Jensen. Field: A program for simulating ultrasound systems.
Med. Biol. Eng. Comp., 10th Nordic-Baltic Conference on
Biomedical Imaging
, 4, Suppl. 1, Part 1(1):351-353, 1996.
J. Kelly and R. J. McGough. A fast time-domain method for cal-
culating the near field pressure generated by a pulsed cir-
cular piston.
IEEE Trans. Ultrason. Ferroelect. Freq. Contr.
,
53(6):1150-1159, 2006.
V. A. Khokhlova, R. Souchon, J. Tavakkoli, O. A. Sapozhnikov, and
D. Cathignol. Numerical modeling of finite-amplitude sound
beams: Shock formation in the near field of a CW plane pis-
ton source.
J. Acoust. Soc. Am.
, 110(1):95-108, 2001.
Y. S. Lee and M. F. Hamilton. Time-domain modeling of
pulsed finite-amplitude sound beams.
J. Acoust. Soc. Am.
,
97(2):906-917, 1995.
P. P. Lele and J. Goddard. Optimizing insonation parameters in
therapy planning for deep heating by SIMFU. In
Proc. 9th
IEEE EMBS Conf.
, 1650-1651, New York, 1987. IEEE.
H. L. Liu, N. McDannold, and K. Hynynen. Focal beam distortion
and treatment planning in abdominal focused ultrasound
surgery.
Med. Phys.
, 32(32):1270-1280, 2005.
N. McDannold, K. Hynynen, D. Wolf, G. Wolf, and F. Jolesz. MRI
evaluation of thermal ablation of tumors with focused ultra-
sound.
Journal of Magnetic Resonance Imaging
, 8(1):91-100,
1998.
R. J. McGough. Rapid calculations of time-harmonic nearfield
pressures produced by rectangular pistons.
J. Acoust. Soc.
Am.
, 115(5):1934-1941, 2004.
R. J. McGough, E. S. Ebbini, and C. A. Cain. Direct computation
of ultrasound phased-array driving signals from a specified
temperature distribution for hyperthermia.
IEEE Trans.
Biomed. Eng.
, 39(8):825-835, 1992.
R. J. McGough, H. Wang, E. S. Ebbini, and C. A. Cain. Mode scan-
ning: Heating pattern synthesis with ultrasound phased
arrays.
Int. J. Hypertherm.
, 10(3):433-442, 1994.
R. J. McGough, M. L. Kessler, E. S. Ebbini, and C. A. Cain.
Treatment planning for hyperthermia with ultrasound
phased arrays.
IEEE Trans. Ultrason. Ferroelect. Freq. Contr.
,
43(6):1074-1084, 1996.
R. J. McGough, T. V. Samulski, and J. F. Kelly. An efficient grid
sectoring method for calculations of the nearfield pres-
sure generated by a circular piston.
J. Acoust. Soc. Am.
,
115(5):1942-1954, 2004.
E. Moros, R. Roemer, and K. Hynynen. Simulations of scanned
focussed ultrasound hyperthermia: The effect of scanning
speed and pattern on the temperature fluctuations at the
focal depth.
IEEE Trans. Ultrason. Ferroelect. Freq. Contr.
,
35(5):552-560, 1988.
E. G. Moros, R. B. Roemer, and K. Hynynen. Pre-focal plane high-
temperature regions induced by scanning focused ultra-
sound beams.
Int. J. Hypertherm.
, 6(2):351-366, 1990.
E. G. Moros, R. J. Myerson, and W. L. Straube. Aperture size to thera-
peutic volume relation for a multielement ultrasound system:
Determination of applicator adequacy for superficial hyper-
thermia.
Med. Phys.
, 20(5):1399-1409, 1993.
E. G. Moros, X. Fan, and W. L. Straube. An investigation of
penetration depth control using parallel opposed ultra-
sound arrays and a scanning reflector.
J. Acoust. Soc. Am.
,
101(3):1734-1741, 1997.
