A new approach to studying thermo-regulation in the prostate during hyperthermia will be developed which will attempt for the first time to measure and model several key aspects of microvascular flow on local tissue heat transfer. In particular their specific aims are to 1) examine blood perfusion rates within the canine prostate using a thermal clearance method - Thermal Pulse Decay (TPD). Thermal pulses will be delivered to the prostatic tissue and temperature decays in the tissue be measured subsequently by thermistor bead probes (0.3mm dia.) Local blood perfusion rates will be determined by fitting the actual temperature measurements to predictions from the bioheat transfer model; 2) study the microvascular architecture in the canine prostate using computer visualization. A series of vascular branch images on contiguous slices obtained from the plastic filled canine prostatic vascular casts will be viewed under an optical microscope and recorded onto a disk. Three dimensional structures of these vascular branches will be reconstructed by imputing these images and processing them in a visualization environment. Having the three dimensional image will allow them to clearly observe and accurately measure vascular branching angles and diameters within the structure; 3) develop a three dimensional heat transfer model to predict temperature distributions in the canine prostate during the transurethral microwave hyperthermia. This model will be built based on the quantitative vasculature information and local blood perfusion rates to account for the thermal contribution from the flowing blood. The validity of the model will be examined by performing temperature mapping in the in vivo canine prostate during the transurethral microwave hyperthermia; 4) perform parametric studies using the new heat transfer model developed in aim 3. The effect of microwave power, the temperature of cooling water between the microwave antenna and the urethral wall, and local blood perfusion rate on the tissue temperature rise during hyperthermia will be examined. Successful completion of this proposed research will lay an important foundation for future study in hyperthermia treatment of Benign Prostatic Hyperplasia (BPH), a common problem among elderly men.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
First Independent Research Support & Transition (FIRST) Awards (R29)
Project #
7R29CA067970-03
Application #
2517641
Study Section
Radiation Study Section (RAD)
Project Start
1995-09-01
Project End
2000-08-31
Budget Start
1997-09-01
Budget End
1998-08-31
Support Year
3
Fiscal Year
1997
Total Cost
Indirect Cost
Name
Purdue University
Department
Engineering (All Types)
Type
Schools of Engineering
DUNS #
072051394
City
West Lafayette
State
IN
Country
United States
Zip Code
47907
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Chen, Cuiye; Xu, Lisa X (2002) Tissue temperature oscillations in an isolated pig kidney during surface heating. Ann Biomed Eng 30:1162-71
Liu, J; Zhu, L; Xu, L X (2000) Studies on the three-dimensional temperature transients in the canine prostate during transurethral microwave thermal therapy. J Biomech Eng 122:372-9
Zhu, L; Xu, L X (1999) Evaluation of the effectiveness of transurethral radio frequency hyperthermia in the canine prostate: temperature distribution analysis. J Biomech Eng 121:584-90
Liu, J; Chen, X; Xu, L X (1999) New thermal wave aspects on burn evaluation of skin subjected to instantaneous heating. IEEE Trans Biomed Eng 46:420-8
Liu, J; Xu, L X (1999) Estimation of blood perfusion using phase shift in temperature response to sinusoidal heating at the skin surface. IEEE Trans Biomed Eng 46:1037-43
Xu, L X; Zhu, L; Holmes, K R (1998) Thermoregulation in the canine prostate during transurethral microwave hyperthermia, Part I: Temperature response. Int J Hyperthermia 14:29-37
Xu, L X; Zhu, L; Holmes, K R (1998) Blood perfusion measurements in the canine prostate during transurethral hyperthermia. Ann N Y Acad Sci 858:21-9
Xu, L X; Zhu, L; Holmes, K R (1998) Thermoregulation in the canine prostate during transurethral microwave hyperthermia, Part II: Blood flow response. Int J Hyperthermia 14:65-73