Biomedical Engineering Reference
In-Depth Information
Gabriel, C., Gabriel, S., and Corthout, E. 1996. The dielectric
properties of biological tissues: I. Literature survey.
Phys
Med Biol
41:2231-49.
Gabriel, S., Lau, R.W., and Gabriel, C. 1996a. The dielectric pro-
perties of biological tissues: II. Measurements in the fre-
quency range 10 Hz to 20 GHz.
Phys Med Biol
41:2251-69.
Gabriel, S., Lau, R.W., and Gabriel, C. 1996b. The dielectric pro-
perties of biological tissues: III. Parametric models for the
dielectric spectrum of tissues.
Phys Med Biol
41:2271-93.
Geraghty, P.R., Kee, S.T., McFarlane, G., Razavi, M.K., Sze, D.Y., and
Dake, M.D. 2003. CT-guided transthoracic needle aspiration
biopsy of pulmonary nodules: Needle size and pneumotho-
rax rate.
Radiology
229:475-81.
Gillams, A. 2008. Tumour ablation: Current role in the liver, kid-
ney, lung and bone.
Cancer Imaging
8 Suppl A:S1-5.
Gillams, A.R., and Lees, W.R. 2009. Five-year survival in 309
patients with colorectal liver metastases treated with radio-
frequency ablation.
Eur Radiol
19:1206-13.
Gu, Z., Rappaport, C.M., Wang, P.J., and VanderBrink, B.A. 1999.
A 2 1/4-turn spiral antenna for catheter cardiac ablation.
IEEE Trans Biomed Eng
46:1480-82.
Haemmerich, D. 2006a.
Wiley Encyclopedia of Medical Devices
and Instrumentation
, ed. J G Webster (New Jersey: John
Wiley & Sons, 362-79).
Haemmerich, D., Chachati, L., Wright, A.S., Mahvi, D.M., Lee,
F.T. Jr., and Webster, J.G. 2003a. Hepatic radiofrequency
ablation with internally cooled probes: Effect of coolant
temperature on lesion size.
IEEE Transactions on Biomedical
Engineering
50:493-500.
Haemmerich, D., Staelin, S.T., Tungjitkusolmun, S., Mahvi, D.M.,
and Webster, J.G. 2003b. In-vivo conductivity of hepatic
tumors.
Physiological Measurement
24:251-60.
Haemmerich, D., Ozkan, O.R., Tsai, J.Z., Staelin, S.T.,
Tungjitkusolmun, S., Mahvi, D.M., and Webster, J.G. 2002.
Changes in electrical resistivity of swine liver after occlu-
sion and postmortem.
Med Biol Eng Comput
40:29-33.
Haemmerich, D., Schutt, D.J., Wright, A.W., Webster, J.G., and
Mahvi, D.M. 2009. Electrical conductivity measurement
of excised human metastatic liver tumours before and after
thermal ablation.
Physiol Meas
30:459-66.
Haemmerich, D., and Wood, B.J. 2006b. Hepatic radiofrequency
ablation at low frequencies preferentially heats tumour tis-
sue.
Int J Hyperthermia
22:563-74.
He, N., Wang, W., Ji, Z., Li, C., and Huang, B. 2010. Microwave
ablation: An experimental comparative study on internally
cooled antenna versus non-internally cooled antenna in
liver models.
Acad Radiol.
17:894-99.
Hines-Peralta, A.U., Pirani, N., Clegg, P., Cronin, N., Ryan, T.P.,
Liu, Z., and Goldber, S.N. 2006. Microwave ablation: Results
with a 2.45-GHz applicator in
ex vivo
bovine and
in vivo
porcine liver.
Radiology
239:94-102.
Hodgson, D.A., Feldberg, I.B., Sharp, N., Cronin, N., Evans, M.,
and Hirschowitz, L. 1999. Microwave endometrial ablation:
Development, clinical trials and outcomes at three years.
Br
J Obstet Gynaecol
106:684-94.
Hope, W.W., Schmelzer, T.M., Newcomb, W.L., Heath, J.J.,
Lincourt, A.E., Norton, H.J. et al. 2008. Guidelines for
power and time variables for microwave ablation in an
in
vivo
porcine kidney.
J Surg Res
153:263-67.
Huang, S., and Wood, M. 2006.
Catheter Ablation of Cardiac
Arrhythmias
. (Philadelphia: Saunders).
Hurter, W., Reinbold, F., and Lorenz, W. 1991. A dipole antenna
for interstitial microwave hyperthermia.
IEEE Trans
Microwave Theory Tech
39:1048-54.
Ito, K., Hyodo, M., Shimura, M., and Kasai, H. 1990. Thin appli-
cator having coaxial ring slots for interstitial microwave
hyperthermia.
Ant Prop Soc Int Sym
3:1233-36.
Jemal, A., Siegel, R., Ward, E., Murray, T., Xu, J., and Thun, M.J.
2007. Cancer statistics, 2007.
CA: A cancer journal for clini-
cians
57:43-66.
Jones, K.M., Mechling, J.A., Strohbehn, J.W., and Trembly, B.S.
1989. Theoretical and experimental SAR distributions for
interstitial dipole antenna arrays used in hyperthermia.
IEEE Trans Microw Theory Tech
37:1200-09.
Knavel, E., Lubner, M., Hinshaw, J.L., Lee, F.T. Jr., and Brace,
C.L. 2010. Thermal tumor ablation: Measurement of force
required to remove applicators with and without securing
functions.
World Conference on Interventional Oncology
,
Philadelphia, PA.
Kuang, M., Lu, M.D., Xie, X.Y., Xu, H.X., Mo, L.Q., Liu, G.J. et al.
2007. Liver cancer: Increased microwave delivery to abla-
tion zone with cooled-shaft antenna—experimental and
clinical studies.
Radiology
242:914-24.
Labonte, S., Blais, A., Legault, S., Ali, H., and Roy, L. 1996.
Monopole antennas for microwave catheter ablation.
IEEE
Trans Microwave Theory Tech
44:1832-40.
Laeseke, P.F., Lee, F.T. Jr., Sampson, L.A., van der Weide, D.W.,
and Brace, C.L. 2006. Multiple-electrode radiofrequency
ablation creates confluent areas of necrosis:
In vivo
porcine
liver results.
Radiology
241:116-24.
Laeseke, P.F., Frey, T.M., Brace, C.L., Sampson, L.A., Winter, T.C.
3rd, Ketzler, J.R., and Lee, F.T. Jr. 2007. Multiple-electrode
radiofrequency ablation of hepatic malignancies: Initial
clinical experience.
AJR Am J Roentgenol
188:1485-94.
Laeseke, P.F., Lee, F.T. Jr., Sampson, L.A. et al. 2009. Microwave
ablation versus radiofrequency ablation in the kidney:
High-power triaxial antennas create larger ablation zones
than similarly sized internally cooled electrodes.
J Vasc
Interv Radiol
20:1224-29.
Laeseke, P.F., Sampson, L.A., Lee, F.T. Jr., and Brace, C.L. 2010.
Multiple-antenna microwave ablation: Spatially distribut-
ing power improves thermal profiles and reduces invasive-
ness.
Journal of Interventional Oncology
2:65-72.
Lazebnik, M., Converse, M.C., Booske, J.H., and Hagness, S.C.
2006. Ultrawideband temperature-dependent dielectric
properties of animal liver tissue in the microwave frequency
range.
Phys Med Biol
51:1941-55.
Lee, J.M., Han, J.K., Kim, H.C., Kim, S.H., Kim, K.W., Joo, S.M.,
and Choi, B.I. 2007. Multiple-electrode radiofrequency
ablation of
in vivo
porcine liver: Comparative studies of
