Biomedical Engineering Reference
In-Depth Information
150. T. Samaras, A. Christ, and N. Kuster. Effects of geometry
discretization aspects on the numerical solution of the bio-
heat transfer equation with the FDTD technique.
Phys Med
Biol
, 51(11):N221-9, 2006.
151. C. Schneider and J. D. Van Dijk. Visualization by a matrix of
light-emitting diodes of interference effects from a radiative
four applicator hyperthermia system.
Int J Hyperthermia
,
7(2):355-66, 1991.
152. A. V. Shahidi and P. Savard. A finite element model for
radiofrequency ablation of the myocardium.
IEEE Trans
Biomed Eng
, 41(10):963-8, 1994.
153. H. Shantesh, T. Naresh, Mekala, and H. Nagraj.
Thermometry studies of radio-frequency induced hyper-
thermia on hydrogel based neck phantom.
J Cancer Research
and Therapeutics,
, 1(3):162-167, 2005.
154. M. Sherar, F. F. Liu, M. Pintilie, W. Levin, J. Hunt, R.
Hill, J. Hand, C. Vernon, G. van Rhoon, J. van der Zee,
D. G. Gonzalez, J. van Dijk, J. Whaley, and D. Machin.
Relationship between thermal dose and outcome in ther-
moradiotherapy treatments for superficial recurrences of
breast cancer: Data from a phase III trial.
Int J Radiat Oncol
Biol Phys
, 39(2):371-80, 1997.
155. D. Shrivastava and R. B. Roemer. Readdressing the issue of
thermally significant blood vessels using a countercurrent
vessel network.
J Biomech Eng
, 128(2):210-6, 2006.
156. N. Siauve, L. Nicolas, C. Vollaire, and C. Marchal.
Optimization of the sources in local hyperthermia using a
combined finite element-genetic algorithm method.
Int J
Hyperthermia
, 20(8):815-33, 2004.
157. P. K. Sneed, M. W. Dewhirst, T. Samulski, J. Blivin, and L. R.
Prosnitz. Should interstitial thermometry be used for deep
hyperthermia?
Int J Radiat Oncol Biol Phys
, 40(5):1015-7,
1998.
158. G. Sreenivasa, J. Gellermann, B. Rau, J. Nadobny, P. Schlag,
P. Deuflhard, R. Felix, and P. Wust. Clinical use of the
hyperthermia treatment planning system HyperPlan to pre-
dict effectiveness and toxicity.
Int J Radiat Oncol Biol Phys
,
55(2):407-19, 2003.
159. T. Stein. Untersuchungen zur Dosimetrie der hochfre-
quenzstrominduzierten interstitiellen Thermotherapie in
bipolarer Technik. Ecomed, Landsberg, 2000.
160. D. M. Sullivan, R. Ben-Yosef, and D. S. Kapp. Stanford 3D
hyperthermia treatment planning system. Technical review
and clinical summary.
Int J Hyperthermia
, 9(5):627-43,
1993.
161. J. S. Suri, K. Liu, L. Reden, and S. Laxminarayan. A review
on MR vascular image processing algorithms: Acquisition
and prefiltering: Part I.
IEEE Trans Inf Technol Biomed
,
6(4):324-37, 2002.
162. J. S. Suri, K. Liu, L. Reden, and S. Laxminarayan. A review
on MR vascular image processing: Skeleton versus nonskel-
eton approaches: Part II.
IEEE Trans Inf Technol Biomed
,
6(4):338-50, 2002.
163. A. Szasz, G. Vincze, O. Szasz, and N. Szasz. Dose concept of
oncological hyperthermia: Heat-equation considering the
cell destruction, preprint.
164. C. Tiebaut and D. Lemonnier. Three-dimensional model-
ling and optimisation of thermal fields induced in a human
body during hyperthermia.
Int J Therm Sci
, 41:500-508,
2002.
165. J. B. Van de Kamer, A. A. De Leeuw, S. N. Hornsleth, H.
Kroeze, A. N. Kotte, and J. J. Lagendijk. Development of
a regional hyperthermia treatment planning system.
Int J
Hyperthermia
, 17(3):207-20, 2001.
166. J. B. Van de Kamer, A. A. De Leeuw, H. Kroeze, and J. J.
Lagendijk. Quasistatic zooming for regional hyperther-
mia treatment planning.
Phys Med Biol
, 46(4):1017-30,
2001.
167. J. B. Van de Kamer and J. J. Lagendijk. Computation of high
resolution SAR distributions in a head due to a radiating
dipole antenna representing a hand-held mobile phone.
Phys Med
Biol
, 47(10):1827-35, 2002.
168. J. B. Van de Kamer, J. J. Lagendijk, A. A. De Leeuw, and H.
Kroeze. High-resolution SAR modelling for regional hyper-
thermia: Testing quasistatic zooming at 10 MHz.
Phys Med
Biol
, 46(1):183-96, 2001.
169. J. B. van de Kamer, M. van Vulpen, A. A. de Leeuw,
H. Kroeze, and J. J. Lagendijk. CT-resolution regional
hyperthermia treatment planning.
Int J Hyperthermia
,
18(2):104-16, 2002.
170. J. B. Van de Kamer, N. Van Wieringen, A. A. De Leeuw,
and J. J. Lagendijk. The significance of accurate dielec-
tric tissue data for hyperthermia treatment planning.
Int J
Hyperthermia
, 17(2):123-42, 2001.
171. M. L. Van der Gaag, M. De Bruijne, T. Samaras, J. Van der
Zee, and G. C. Van Rhoon. Development of a guideline for
the water bolus temperature in superficial hyperthermia.
Int
J
Hyperthermia
, 22(8):637-56, 2006.
172. J. van der Zee, J. N. Peer-Valstar, P. J. Rietveld, L. de Graaf-
Strukowska, and G. C. van Rhoon. Practical limitations of
interstitial thermometry during deep hyperthermia.
Int J
Radiat
Oncol Biol Phys
, 40(5):1205-12, 1998.
173. G. M. Van Leeuwen, J. J. Lagendijk, B. J. Van Leersum, A. P.
Zwamborn, S. N. Hornsleth, and A. N. Kotte. Calculation of
change in brain temperatures due to exposure to a mobile
phone.
Phys Med Biol
, 44(10):2367-79, 1999.
174. G. C. van Rhoon, A. Ameziane, W. M. Lee, D. J. van der
Heuvel, H. J. Klinkhamer, C. Barendrecht, K. Volenec, and
P. J. Rietveld. Accuracy of electrical field measurement
using the flexible Schottky diode sheet at 433 MHz.
Int J
Hyperthermia
, 19(2):134-44, 2003.
175. G. C. Van Rhoon, D. J. Van Der Heuvel, A. Ameziane, P. J.
Rietveld, K. Volenec, and J. Van Der Zee. Characterization
of the SAR-distribution of the Sigma-60 applicator for
regional hyperthermia using a Schottky diode sheet.
Int J
Hyperthermia
, 19(6):642-54, 2003.
