Thermal ablation of a solid tumor in a tissue with radio-frequency (rf) energy can be accomplished by using a probe inserted into the tissue under the guidance of magnetic resonance imaging. The extent of the ablation can be significantly reduced by heat loss from capillary perfusion and by blood flow in a large vessel in the tissue. A mathematical model is presented of the thermal processes that occur during rf ablation of a tissue near a large blood vessel, which should not be damaged. Temperature distribution dynamics are described by the combination of a 3D bioheat transport in tissue together with a 1D model of convective-dispersive heat transport in the blood vessel. The objective was to determine how much of the tissue can be ablated without damaging the blood vessel. This was achieved by simulating the tissue temperature distribution dynamics and by determining the optimal power inputs so that a maximum temperature increase in the tissue was achieved without inducing tissue damage at the edge of the large vessel. The main contribution of this study is to provide a model analysis for pretreatment and, eventually, for intra-operative application to thermal ablation of a tumor located near a large blood vessel.

1.
Goldberg
,
S. N.
,
Gazelle
,
G. S.
, and
Mueller
,
P. R.
, 2000, “
Thermal Ablation Therapy for Focal Malignancy: A Unified Approach to Underlying Principles, Techniques, and Diagnostic Imaging Guidance
,”
AJR, Am. J. Roentgenol.
0361-803X,
174
(
2
), pp.
323
331
.
2.
Nour
,
S. G.
,
Aschoff
,
A. J.
,
Mitchell
,
I. C. S.
,
Emancipator
,
S. N.
,
Duerk
,
J. L.
, and
Lewin
,
J. S.
, 2002, “
MR Imaging-Guided Radio-Frequency Thermal Ablation of the Lumbar Vertebrae in Porcine Models
,”
Radiology
0033-8419,
224
(
2
), pp.
452
462
.
3.
Pinto
,
C. H.
,
Taminiau
,
A. H. M.
,
Vanderschueren
,
G.
,
Hogendoorn
,
P. C. W.
,
Bloem
,
J. L.
, and
Obermann
,
W. R.
, 2002, “
Technical Considerations in CT-Guided Radiofrequency Thermal Ablation of Osteoid Osteoma: Tricks of the Trade
,”
AJR, Am. J. Roentgenol.
0361-803X,
179
(
6
), pp.
1633
1642
.
4.
Hayes
,
L. J.
,
Diller
,
K. R.
,
Pearce
,
J. A.
,
Schick
,
M. R.
, and
Colvin
,
D. P.
, 1985, “
Prediction of Transient Temperature Fields and Cumulative Tissue Destruction for Radio Frequency Heating of A Tumor
,”
Med. Phys.
0094-2405,
12
(
6
), pp.
684
692
.
5.
Rossi
,
S.
,
DiStasi
,
M.
,
Buscarini
,
E.
,
Quaretti
,
P.
,
Garbagnati
,
F.
,
Squassante
,
L.
,
Paties
,
C. T.
,
Silverman
,
D. E.
, and
Buscarini
,
L.
, 1996, “
Percutaneous RF Interstitial Thermal Ablation in the Treatment of Hepatic Cancer
,”
AJR, Am. J. Roentgenol.
0361-803X,
167
(
3
), pp.
759
768
.
6.
Chen
,
X.
,
Barkauskas
,
K. J.
,
Nour
,
S. G.
,
Duerk
,
J. L.
,
Abdul-Karim
,
F. W.
, and
Saidel
,
G. M.
, 2007, “
Magnetic Resonance Imaging and Model Prediction for Thermal Ablation of Tissue
,”
J. Magn. Reson Imaging
1053-1807,
26
(
1
), pp.
123
132
.
7.
Buscarini
,
E.
, and
Buscarini
,
L.
, 2004, “
Radiofrequency Thermal Ablation With Expandable Needle of Focal Liver Malignancies: Complication Report
,”
Eur. J. Radiol.
0720-048X,
14
(
1
), pp.
31
37
.
8.
Johnson
,
P. C.
, and
Saidel
,
G. M.
, 2002, “
Thermal Model for Fast Simulation During Magnetic Resonance Imaging Guidance of Radio Frequency Tumor Ablation
,”
Ann. Biomed. Eng.
0090-6964,
30
, pp.
1152
1161
.
9.
Galea
,
A. M.
, and
Howe
,
R. D.
, 2004, “
Liver Vessel Parameter Estimation From Tactile Imaging Information
,”
Proceedings of Medical Simulation: International Symposium-ISMS 2004
,
Springer-Verlag
,
Cambridge, MA
, Vol.
3078
, pp.
59
66
.
10.
Breen
,
M. S.
,
Breen
,
M.
,
Butts
,
K.
,
Chen
,
L.
,
Saidel
,
G. M.
, and
Wilson
,
D. L.
, 2007, “
MRI-Guided Thermal Ablation Therapy: Model and Parameter Estimates to Predict Cell Death From MR Thermometry Images
,”
Ann. Biomed. Eng.
0090-6964,
35
, pp.
1391
1403
.
11.
Vaezy
,
S.
,
Andrew
,
M.
,
Kaczkowski
,
P.
, and
Crum
,
L.
, 2001, “
Image-Guided Acoustic Therapy
,”
Annu. Rev. Biomed. Eng.
1523-9829,
3
, pp.
375
390
.
12.
Schiesser
,
W. E.
, and
Silebi
,
C. A.
, 1997,
Computational Transport Phenomena: Numerical Methods for the Solution of Transport Problems
,
Cambridge University Press
,
Cambridge
.
13.
Hindmarsh
,
A. C.
, 1983, “
ODEPACK, A Systematized Collection of ODE Solvers
,”
IMACS Transactions on Scientific Computation
, Vol.
1
, pp.
55
64
.
14.
Schiesser
,
W. E.
, 1991,
The Numerical Method of Lines Integration of Partial Differential Equations
,
Academic
,
San Diego, CA
, Chaps. 2 and 3, pp.
45
141
.
15.
Zhang
,
C. X.
,
Zhang
,
S.
,
Zhang
,
Z.
, and
Chen
,
Y. Z.
, 2005, “
Effects of Large Blood Vessel Locations During High Intensity Focused Ultrasound Therapy for Hepatic Tumors: A Finite Element Study
,”
Proceedings of the 2005 IEEE Engineering in Medicine and Biology 27th Annual Conference 2005
,
Shanghai
,
China
, pp.
209
202
.
16.
Robertson
,
J.
,
Leen
,
E.
,
Goldberg
,
J. A.
,
Angerson
,
W. J.
,
Sutherland
,
G. R.
, and
McArdle
,
C. S.
, 1992, “
Flow Measurement Using Duplex Doppler Ultrasound: Haemodynamic Changes in Patients With Colorectal Liver Metastases
,”
Clin. Phys. Physiol. Meas.
0143-0815,
13
(
4
), pp.
299
310
.
17.
Curley
,
S. A.
, 2001, “
Radiofrequency Ablation of Malignant Liver Tumors
,”
Oncologist
1083-7159,
6
(
1
), pp.
14
23
.
18.
Curley
,
S. A.
, 2003, “
Radiofrequency Ablation of Malignant Liver Tumors
,”
Ann. Surg. Oncol.
1068-9265,
10
, pp.
338
347
.
19.
Buscarini
,
E.
, and
Buscarini
,
L.
, 2004, “
Radiofrequency Thermal Ablation With Expandable Needle of Focal Liver Malignancies: Complication Report
,”
Eur. Radiol.
0938-7994,
14
(
1
), pp.
31
37
.
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