Advanced search
Publication Cover
Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 54, 2008 - Issue 1
Submit an article Journal homepage
575
Views
65
CrossRef citations to date
0
Altmetric
Original Articles

Non-Fourier Heat Conduction Effect on Laser-Induced Thermal Damage in Biological Tissues

Jianhua Zhou Department of Mechanical and Aerospace Engineering, University of Missouri, Columbia, Missouri, USA
,
Yuwen Zhang Department of Mechanical and Aerospace Engineering, University of Missouri, Columbia, Missouri, USA
&
J. K. Chen Department of Mechanical and Aerospace Engineering, University of Missouri, Columbia, Missouri, USACorrespondence[email protected]
Pages 1-19 | Received 25 Jul 2007, Accepted 13 Feb 2008, Published online: 14 Apr 2008

REFERENCES

  • A. J. Welch , The Thermal Response of Laser Irradiated Tissue , IEEE J. Quantum Electron. , vol. 20 , pp. 1471 – 1481 , 1984 .
  • C. M. Beacco , S. R. Mordon , and J. M. Brunetaud , Development and Experimental In Vivo Validation of Mathematical Modeling of Laser Coagulation , Lasers Surg. Med. , vol. 14 , pp. 362 – 373 , 1994 .
  • S. A. Prahl and S. D. Pearson , Rate Process Models for Thermal Welding , in S. L. Jacques (ed.), Laser-Tissue Interaction VIII: Proc. SPIE , San Jose , CA , vol. 2975 , pp. 245 – 252 , SPIE Press , Bellingham , WA , 1997 .
  • D. Zhu , Q. M. Luo , and G. M. Zhu , Kinetic Thermal Response and Damage in Laser Coagulation of Tissue , Lasers Surg. Med. , vol. 31 , pp. 313 – 321 , 2002 .
  • S. H. Diaz , E. J. Lavernia , and B. J. F. Wong , Modeling the Thermal Response of Porcine Cartilage During Laser Irradiation , IEEE J. Select. Top. Quantum Electron. , vol. 7 , pp. 944 – 951 , 2001 .
  • J. H. Zhou , J. K. Chen , and Y. Zhang , Theoretical Analysis of Thermal Damage in Biological Tissues Caused by Laser Irradiation, Mol. Cell. Biomech. , vol. 4, pp. 27–39, 2007.
  • J. S. Rastegar , Hyperbolic Heat Conduction in Pulsed Laser Irradiation of Tissue , in M. J. Berry and G. M. Harpole (eds.), Thermal and Optical Interactions with Biological and Related Composite Materials: Proc. SPIE , Los Angeles , CA , vol. 1064 , pp. 114 – 117 , SPIE Press , Bellingham , WA , 1989 .
  • W. Kaminski , Hyperbolic Heat Conduction Equation for Materials with a Nonhomogeneous Inner Structure , ASME J. Heat Transfer , vol. 112 , pp. 555 – 560 , 1990 .
  • K. Mitra , S. Kumar , A. Vedavarz , and M. K. Moallemi , Experimental Evidence of Hyperbolic Heat Conduction in Processed Meat , ASME J. Heat Transfer , vol. 117 , pp. 568 – 573 , 1995 .
  • M. N. Özisik and D. Y. Tzou , On the Wave Theory in Heat Conduction , ASME J. Heat Transfer , vol. 116 , pp. 526 – 535 , 1994 .
  • Z.-S. Deng and J. Liu , Non-Fourier Heat Conduction Effects on Prediction of Temperature Transients and Thermal Stress in Skin Cryopreservation , J. Thermal Stress , vol. 26 , pp. 779 – 798 , 2003 .
  • W. Q. Lu , J. Liu , and Y. Zeng , Simulation of the Thermal Wave Propagation in Biological Tissues by the Dual Reciprocity Boundary Element Method , Eng. Anal. Boundary Elem. , vol. 22 , pp. 167 – 174 , 1998 .
  • J. Liu , X. Chen , and L. X. Xu , New Thermal Wave Aspects on Burn Evaluation of Skin Subjected to Instantaneous Heating , IEEE Trans. Biomed. Eng. , vol. 46 , pp. 420 – 428 , 1999 .
  • J. Liu , Preliminary Survey on the Mechanisms of the Wave-like Behaviors of Heat Transfer in Living Tissue , Forschung Ing. , vol. 66 , pp. 1 – 10 , 2000 .
  • T. C. Shih , H. S. Kou , C. T. Liauh , and W. L. Lin , The Impact of Thermal Wave Characteristics on Thermal Dose Distribution During Thermal Therapy: A Numerical Study , Med. Phys. , vol. 32 , pp. 3029 – 3036 , 2005 .
  • A. Banerjee , A. A. Ogale , C. Das , K. Mitra , and C. Subramanian , Temperature Distribution in Different Materials due to Short Pulse Laser Irradiation , Heat Transfer Eng. , vol. 26 , pp. 41 – 49 , 2005 .
  • H. Q. Yang , Characteristics-Based, High-Order Accurate and Nonoscillatory Numerical Method for Hyperbolic Heat Conduction , Numer. Heat Transfer B , vol. 18 , pp. 221 – 241 , 1990 .
  • H. Q. Yang , Solution of Two-Dimensional Hyperbolic Heat Conduction by High-Resolution Numerical Methods , Numer. Heat Transfer A , vol. 21 , pp. 333 – 349 , 1992 .
  • H. H. Pennes , Analysis of Tissue and Arterial Blood Temperatures in the Resting Forearm , J. Appl. Physiol. , vol. 1 , pp. 93 – 122 , 1948 .
  • C. K. Charny , Mathematical Models of Bioheat Transfer , Adv. Heat Transfer , vol. 22 , pp. 19 – 155 , 1992 .
  • K. R. Diller and T. P. Ryan , Heat Transfer in Living Systems: Current Opportunities , ASME J. Heat Transfer , vol. 120 , pp. 810 – 829 , 1998 .
  • J. Liu , Bioheat Transfer Model , in M. Akay (ed.), Wiley Encyclopedia of Biomedical Engineering , Wiley , Hoboken , NJ , 2006 .
  • S. C. Jiang and X. X. Zhang , Dynamic Modeling of Photothermal Interactions for Laser-Induced Interstitial Thermotherapy: Parameter Sensitivity Analysis , Lasers Med. Sci. , vol. 20 , pp. 122 – 131 , 2005 .
  • J. F. Edd , L. Horowitz , R. V. Davalos , L. M. Mir , and B. Rubinsky , In Vivo Results of a New Focal Tissue Ablation Technique: Irreversible Electroporation, IEEE Trans. Biomed. Eng. , vol. 53 , pp. 1409 – 1415 , 2006 .
  • J. P. Abraham and E. M. Sparrow , A Thermal-Ablation Bioheat Model Including Liquid-to-Vapor Phase Change, Pressure- and Mecrosis-Dependent Perfusion, and Moisture-Dependent Properties, Int. J. Heat Mass Transfer , vol. 50, pp. 2537–2544, 2007.
  • J. Mahon , S. Rheinish , A. Shishegar , and J. Chiu , Invasive Therapeutic Probe , U.S. Patent 670604 , March 16 , 2004 , www.wikipatents.com/6706040.html .
  • D. Y. Tzou and J. Li , Thermal Wave Emanating from a Fast-Moving Heat Source with a Finite Dimension , ASME J. Heat Transfer , vol. 115 , pp. 526 – 532 , 1993 .
  • A. J. Welch and C. M. Gardner , Monte Carlo Model for Determination of the Role of Heat Generation in Laser-Irradiated Tissue , ASME J. Biomech. Eng. , vol. 119 , pp. 489 – 495 , 1997 .
  • A. J. Welch and M. J. C. van Gemert , Optical-Thermal Response of Laser-Irradiated Tissue , chap. 2 , Plenum Press , New York , 1995 .
  • W. G. Egan and T. W. Hilgeman , Optical Properties of Inhomogeneous Materials—Applications to Geology, Astronomy, Chemistry and Engineering , chap. 6 , Academic Press , New York , 1979 .
  • T. J. Farrell , M. S. Patterson , and B. C. Wilson , A Diffusion Theory Model of Spatially Resolved, Steady-State Diffuse Reflectance for the Non-invasive Determination of Tissue Optical Properties In Vivo , Med. Phys. , vol. 19 , pp. 879 – 888 , 1992 .
  • G. Yoon , A. J. Welch , M. Motamedi , and M. C. J. van Gemert , Development and Application of Three-Dimensional Light Distribution Model for Laser Irradiated Tissue , IEEE J. Quantum Electron. , vol. 23 , pp. 1721 – 1732 , 1987 .
  • J. H. Zhou , D. Y. Liu , J. Z. Xu , and X. L. Huai , Seven-Flux Modeling of Laser Light Propagation in Biological Tissue in Cylindrical Coordinates (in Chinese) Acta Photonica Sinica , vol. 31 , pp. 662 – 667 , 2002 .
  • H.-T. Chen and J.-Y. Lin , Numerical Solution of Two-Dimensional Nonlinear Hyperbolic Heat Conduction Problems , Numer. Heat Transfer B , vol. 25 , pp. 287 – 307 , 1994 .
  • T. T. Lam and W. K. Yeung , A Numerical Scheme for Non-Fourier Heat Conduction, Part II: Two-Dimensional Problem Formulation and Verification , Numer. Heat Transfer B , vol. 41 , pp. 543 – 564 , 2002 .
  • W. Wu and X. Li , Application of the Time Discontinuous Galerkin Finite Element Method to Heat Wave Simulation , Int. J. Heat Mass Transfer , vol. 49 , pp. 1679 – 1684 , 2006 .
  • W. Shen and S. Han , Numerical Solution of Two-Dimensional Axisymmetric Hyperbolic Heat Conduction , Comput. Mech. , vol. 29 , pp. 122 – 128 , 2002 .
  • F. Jiang , D. Liu , and J. Zhou , Non-Fourier Heat Conduction Phenomena in Porous Material Heated by Microsecond Laser Pulse , Microscale Thermophys. Eng. , vol. 6 , pp. 331 – 346 , 2002 .
  • J. Zhou and J. Liu , Numerical Study on 3-D Light and Heat Transport in Biological Tissues Embedded with Large Blood Vessels During Laser-Induced Thermotherapy , Numer. Heat Transfer A , vol. 45 , pp. 415 – 449 , 2004 .
  • Y. Yamada , T. Tien , and M. Ohta , Theoretical Analysis of Temperature Variation of Biological Tissues Irradiated by Light , in L. S. Fletcher and T. Aihara (eds.), Proc. ASME/JSME Thermal Engineering Joint Conf. Maui , HI , pp. 575 – 581 , ASME , New York , 1995 .
  • D. W. Tang and N. Araki , Non-Fourier Heat Conduction Behavior in Finite Mediums under Pulse Surface Heating , Mater. Sci. Eng. A , vol. 292 , pp. 173 – 178 , 2000 .
  • W. F. Cheong , S. A. Prahl , and A. J. Welch , A Review of the Optical Properties of Biological Tissues , IEEE J. Quantum Electron. , vol. 26 , pp. 2166 – 2185 , 1990 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.