Biomedical Engineering Reference
In-Depth Information
Poorter, J. D., C. D. Wagter, Y. D. Deene, C. Thomsen, F. Staahlberg,
and E. Achten. 1995. Noninvasive MRI thermometry with
the proton resonance frequency (PRF) method:
In vivo
results in human muscle.
Magnetic Resonance in Medicine
33,
no. 1: 74-81.
Popplewell, J., R. E. Rosensweig, and R. J. Johnston. 2002.
Magnetic field induced rotations in ferrofluids.
Magnetics,
IEEE Transactions on
26, no. 5: 1852-1854.
Qin, Z., M. Etheridge, and J. Bischof. Nanoparticle heating:
Nanoscale to bulk effects of electromagnetically heated iron
oxide and gold for biomedical applications. In
Proceedings
of SPIE,
7901: 79010-C-79010C-15.
Rabin, Y. 2002. Is intracellular hyperthermia superior to extra-
cellular hyperthermia in the thermal sense?
International
Journal of Hyperthermia
18, no. 3: 194-202.
Rand, R. W., H. D. Snow, and W. J. Brown. 1981. Thermomagnetic
surgery for cancer.
Applied Biochemistry and Biotechnology
6, no. 4: 265-272.
Rodríguez-Luccioni, H. L., M. Latorre-Esteves, J. Méndez-Vega,
O. Soto, A. R. Rodríguez, C. Rinaldi, and M. Torres-Lugo.
2011. Enhanced reduction in cell viability by hyperthermia
induced by magnetic nanoparticles.
International Journal of
Nanomedicine
6: 373-380.
Rosensweig, R. E. 2002. Heating magnetic fluid with alternat-
ing magnetic field.
Journal of Magnetism and Magnetic
Materials
252: 370-374.
Sapareto, S. A., and W. C. Dewey. 1984. Thermal dose determi-
nation in cancer therapy.
International Journal of Radiation
Oncology, Biology, Physics
10, no. 6: 787-800.
Sato, M., G. Nakajima, T. Namikawa, and Y. Yamazaki. 1990.
Magnetic properties and microstructures of Fe sub
(3) O sub (4)- gamma Fe sub (2) O sub (3) interme-
diate state.
IEEE Transactions on Magnetics
26, no. 5:
1825-1827.
Schrope, B. A., and V. L. Newhouse. 1993. Second harmonic
ultrasonic blood perfusion measurement.
Ultrasound in
Medicine & Biology
19, no. 7: 567-579.
Smolensky, Eric D., Michelle C. Neary, Yue Zhou, Thelma S.
Berquo, and Valérie C. Pierre. 2011. Fe3O4@organic@Au:
Core-shell nanocomposites with high saturation magneti-
sation as magnetoplasmonic MRI contrast agents.
Chemical
Communications
47, no. 7: 2149.
Stauffer, P. R., T. C. Cetas, and R. C. Jones. 2007. Magnetic induc-
tion heating of ferromagnetic implants for inducing local-
ized hyperthermia in deep-seated tumors.
Biomedical
Engineering, IEEE Transactions on
, no. 2: 235-251.
Stauffer, P. R., T. C. Cetas, A. M. Fletcher, D. W. DeYoung, M.
W. Dewhirst, J. R. Oleson, and R. B. Roemer. 1984.
Observations on the use of ferromagnetic implants for
inducing hyperthermia.
IEEE Transactions on Bio-Medical
Engineering
31, no. 1: 76.
Steinbach, M., S. Koswig, S. Dresel, M. Huenerbein, P. Wust, J.
Ollek, A. Jordan, and B. Rau. Nanotherapy induced hyper-
thermia in advanced esophageal cancer: Results of a phase I
study.
TBD
(In Drat).
Stelter, L., J. G. Pinkernelle, R. Michel, R. Schwartländer, N.
Raschzok, M. H. Morgul, M. Koch et al. 2009. Modification of
aminosilanized superparamagnetic nanoparticles: Feasibility
of multimodal detection using 3T MRI, small animal PET,
and fluorescence imaging.
Molecular Imaging and Biology
12, no. 1 (7): 25-34.
Tanaka, K., A. Ito, T. Kobayashi, T. Kawamura, S. Shimada, K.
Matsumoto, T. Saida, and H. Honda. 2005. Intratumoral
injection of immature dendritic cells enhances antitu-
mor effect of hyperthermia using magnetic nanoparticles.
International Journal of Cancer
116, no. 4: 624-633.
Thiesen, B., and A. Jordan. 2009. Clinical applications of mag-
netic nanoparticles for hyperthermia.
International Journal
of Hyperthermia
24, no. 6: 467-474.
van Landeghem, F. K. H, K. Maier-Hauff, A. Jordan, K. T. Hoffmann,
U. Gneveckow, R. Scholz, B. Thiesen, W. Brück, and A.
von Deimling. 2009. Post-mortem studies in glioblas-
toma patients treated with thermotherapy using magnetic
nanoparticles.
Biomaterials
30, no. 1: 52-57.
Van Sonnenberg, E., W. McMullen, and L. Solbiati. 2005.
Tumor
ablation: Principles and practice
. Springer (New York).
Weaver, John B., Adam M. Rauwerdink, and Eric W. Hansen.
2009. Magnetic nanoparticle temperature estimation.
Medical
Physics
36, no. 5: 1822.
Weissleder, R., D. D. Stark, B. L. Engelstad, B. R. Bacon, C.
C. Compton, D. L. White, P. Jacobs, and J. Lewis. 1989.
Superparamagnetic iron oxide: Pharmacokinetics and tox-
icity.
American Journal of Roentgenology
152, no. 1: 167.
Williams, D. S., J. A. Detre, J. S. Leigh, and A. P. Koretsky. 1992.
Magnetic resonance imaging of perfusion using spin inver-
sion of arterial water.
Proceedings of the National Academy
of Sciences of the United States of America
89, no. 1: 212.
Wust, P., U. Gneveckow, M. Johannsen, D. Böhmer, T. Henkel, F.
Kahmann, J. Sehouli, R. Felix, J. Ricke, and A. Jordan. 2006.
Magnetic nanoparticles for interstitial thermotherapy- fea-
sibility, tolerance and achieved temperatures.
International
Journal of Hyperthermia
22, no. 8: 673-685.
Wust, P., J. Nadobny, H. Fähling, H. Riess, K. Koch, W. John,
and R. Felix. 1991a. Determinant factors and distur-
bances in controlling power distribution patterns by
the hyperthermia-ring system BSD-2000. 1.
Clinical
Obervations and Phantom Measurements. Strahlentherapie
Und Onkologie
166, no. 12: 822-830.
Wust, P., J. Nadobny, H. Fähling, H. Riess, K. Koch, W. John, and R.
Felix. 1991b. Determinant factors and disturbances in con-
trolling power distribution patterns by the hyperthermia-ring
system BSD-2000. 2. Measuring techniques and analysis.
Strahlentherapie Und Onkologie
167, no. 3: 172.
Yanase, M., M. Shinkai, H. Honda, T. Wakabayashi, J. Yoshida,
and T. Kobayashi. 1998. Antitumor immunity induction by
intracellular hyperthermia using magnetite cationic lipo-
somes.
Cancer Science
89, no. 7: 775-782.
Young, J. H., M. T Wang, and I. A. Brezovich. 2007. Frequency/
depth-penetration considerations in hyperthermia by magnet-
ically induced currents.
Electronics Letters
16, no. 10: 358-359.
