Biomedical Engineering Reference
In-Depth Information
41. Raskmark, P. and Andersen, J.B. 1984. Electronically steered
heating of a cylinder, in Proceedings 4th International
Symposium on Hyperthermic Oncology, ed. J. Overgaard,
Taylor and Francis, London, UK 617-620.
42. Van Rhoon, G.C., Rietveld, P.J., Van der Zee, J. 1998. A
433 MHz Lucite cone waveguide applicator for superficial
hyperthermia.
Int J Hyperthermia
14: 13-27.
43. Rietveld, P.J., Van Putten, W.L., Van der Zee, J., Van
Rhoon, G.C. 1999. Comparison of the clinical effective-
ness of the 433 MHz Lucite cone applicator with that of
a conventional waveguide applicator in applications of
superficial hyperthermia.
Int J Radiat Oncol Biol
Phys
43: 681-687.
44. De Bruijne, M., Samaras, T., Bakker, J.F., Van Rhoon, G.C.
2006. Effects of waterbolus size, shape and configuration on
the SAR distribution pattern of the Lucite cone applicator.
Int J
Hyperthermia
22: 15-28.
45. Samaras, T., Rietveld, P.J.M., Van Rhoon, G.C. 2000.
Effectiveness of FDTD in predicting SAR distributions
from the Lucite cone applicator.
IEEE Trans MTT
48:
2059-2063.
46. Bach Andersen, J., Baun, A., Harmark, K., Heinzl, L.,
Raskmark, P., Overgaard, J. 1984. A hyperthermia system
using a new type of inductive applicator.
IEEE Trans Biomed
Eng
BME 31: 21-27.
47. Johnson, R.H., James, J.R., Hand, J.W., Hopewell, J.W.,
Dunlop, P.R.C., Dickinson, R.J. 1984. New low-profile
applicators for local heating of tissues.
IEEE Trans Biomed
Eng
BME 31:28-37.
48. Johnson, R.H., Preece, A.W., Green, J.L. 1990. Theoretical
and experimental comparison of three types of electro-
magnetic hyperthermia applicator.
Phys Med Biol
35:
761-779.
49. Lumori, M.L.D., Hand, J.W., Gopal, M.K., Cetas, T.C. 1990.
Use of Gaussian beam model in predicting SAR distribu-
tions from current sheet applicators.
Phys Med Biol
35:
387-397.
50. Lumori, M.L.D., Andersen, J.B., Gopal, M.K., Cetas, T.C.
1990. Gaussian beam simulations of fields emanating from
aperture sources and propagating in bounded, homoge-
neous and layered lossy media.
IEEE Trans Microwave
Theory and Techniques
38: 1623-1630.
51. Gopal, M.K., Hand, J.W., Lumori, M.L.D., Alkhair, S.,
Paulsen, K.D., Cetas, T.C. 1992. Current sheet applicator
arrays for superficial hyperthermia of chestwall lesions.
Int
J
Hyperthermia
8: 227-240.
52. Rietveld, P.J., Stakenborg, J., Cetas, T.C., Lumori, M.L., Van
Rhoon, G.C. 2001. Theoretical comparison of the SAR dis-
tributions from arrays of modified current sheet applicators
with that of Lucite cone applicators using Gaussian beam
modelling.
Int J Hyperthermia
17: 82-96.
53. Gelvich, E.A. and Mazokhin, V.N. 2002. Contact flexible
microstrip applicators (CFMA) in a range from micro-
waves up to short waves.
IEEE Trans Biomed Eng
49:
1015-23.
54. Kok, H.P., Correia, D., De Greef, M., Van Stam, G., Bel,
A., Crezee, J. 2010. SAR deposition by curved CFMA-434
applicators for superficial hyperthermia: Measurements
and simulations.
Int J Hyperthermia
26: 171-184.
55. Lee, W.M., Gelvich, E.A., Van der Baan, P., Mazokhin, V.N.,
Van Rhoon, G.C. 2004. Assessment of the performance
characteristics of a prototype 12-element capacitive contact
flexible microstrip applicator (CFMA-12) for superficial
hyperthermia.
Int J Hyperthermia
20: 607-624.
56. Stauffer, P.R., Rossetto, F., Leoncini, M., Gentili, G.B. 1998.
Radiation patterns of dual concentric conductor microstrip
antennas for superficial hyperthermia.
IEEE Trans
Biomedical
Eng
45: 605-613.
57. Rossetto, F. and Stauffer, P.R. 1999. Effect of complex bolus-
tissue load configurations on SAR distributions from dual
concentric conductor applicators.
IEEE Trans Biomedical
Eng
46: 1310-1319.
58. Rossetto, F. and Stauffer, P.R. 2001. Theoretical character-
ization of dual concentric microwave applicators for hyper-
thermia at 433 MHz.
Int J Hyperthermia
17: 258-270.
59. Stauffer, P.R., Maccarini, P., Arunachalam, K., Craciunescu,
P., Diederich, C., Juang, T., Rosseto, F., Schlorff, J., Milligan,
A., Hsu, J., Sneed, P., Vujaskovic, Z. 2010. Conformal
microwave array (CMA) applicators for hyperthermia
of diffuse chest wall recurrence.
Int J
Hyperthermia
26:
686-698.
60. Gabriele, P., Ferrara, T., Baiotto, B., Garibaldi, E., Marini,
P.G., Penduzzu, G., Giovannini, V., Bardati, F., Guiot, C.
2009. Radio hyperthermia for re-treatment of superficial
tumours.
Int J
Hyperthermia
25: 189-198.
61. De Leeuw, A.A.C., Crezee, J., Lagendijk, J.J.W. 1993.
Temperature and SAR measurements in deep-body
hyperthermia with thermocouple thermometry.
Int J
Hyperthermia
9: 685-697.
62. Tsandoulas, G.N. and Fitzgerald, W.D. 1972. Aperture effi-
ciency enhancements in dielectrically loaded horns.
IEEE
Transactions on Antennas and Propagation
21: 69-74.
63. Kantor, G. 1981. Evaluation and survey of microwave and
radiofrequency applicators.
Journal of Microwave Power
16:
135-150.
64. Johnson, J.E., Neuman, D.G., Maccarini, P.F., Juang, T.,
Stauffer, P.R., Turner, P. 2006. Evaluation of a dual-arm
Archimedean spiral array for microwave hyperthermia.
Int
J Hyperthermia
22: 475-490.
65. Lee, E.R., Wilsey, T.R., Tarczy-Hornoch, P., Kapp, D.S.,
Fessenden, P., Lohrbach, A.W., Prinoas, S.D. 1992. Body
conformable 915 MHz microstrip array applicators for
large surface area hyperthermia.
IEEE Trans Biomed Eng
39:
470-483.
66. Kok, H.P., Van Haaren, P.M.A., Van de Kamer, J.B., Zum
Vörde Sive Vörding, P.J., Wiersma, J., Hulshoff, M.C.C.M.,
Geijsen, E.D., Van Lanschot, J.J.B., Crezee, J. 2006.
Prospective treatment planning to improve locoregional
hyperthermia for oesophageal cancer.
Int J Hyperthermia
22: 375-389.
