Title :
Thermal ablation for cancer treatment by using microwave energy in a simple lung model
Author :
Sanpanich, Arthorn ; Khongkhanon, C. ; Kajornpredanon, Y. ; Thanangkul, S. ; Apaiwong, C. ; Sroykham, W. ; Petsarb, K. ; Phairoh, C. ; Angkhananuwat, W. ; Phasukkit, P.
Author_Institution :
Inst. of Mol. Biosci., Mahidol Univ., Nakhon Pathom, Thailand
Abstract :
Lung cancer or pulmonary cancer is one of a dangerous cancer threatening human life since a long time ago. Even though, a conventional surgery is widely accepted as a gold standard for this cancer treatment, however a new medical maneuver still be investigated to perform with this disease. In this paper, we trail a simulation of thermal ablation by using microwave energy at 2.45GHz, 30 Watts for 10 seconds with an opened-ring coaxial applicator in a simple lung tissue model. An air tracheal also placed in this model in order to compare for a thermal distribution. Although, this model is quite differing from a porous material, but our simulation results of temperature distribution and destructive area at 60 □C guide us some useful information for a real ex vivo with swine tissue in the near future work.
Keywords :
biological tissues; biomedical equipment; biothermics; cancer; lung; microwave heating; physiological models; radiation therapy; temperature distribution; cancer treatment; destructive area; ex vivo swine tissue; frequency 2.45 GHz; lung cancer; lung tissue model; microwave energy; opened-ring coaxial applicator; porous material; power 30 W; pulmonary cancer; surgery; temperature 60 degC; thermal ablation simulation; thermal distribution; time 10 s; tracheal air; Dielectrics; Lead; Materials; Microwave technology; Numerical models; Microwave thermal ablation; simple lung model; temperature distribution simulation;
Conference_Titel :
Biomedical Engineering International Conference (BMEiCON), 2014 7th
Conference_Location :
Fukuoka
DOI :
10.1109/BMEiCON.2014.7017383
