Add to ORKGIn this work, two different bioheat models are implemente d to model a thermal ablation of hepatocellular carcinoma liver tumor . A mixed constant and pulsating heat source protocol is developed, evaluating the thermal damage level on the tumor rim. A porous media based model and a modified Pennes’ bioheat equation are developed to consider the realistic variation of both blood volume fraction (porosity) in the first model, and perfusion term in the second one , from tumor core, tumor rim, and the sur rounding healthy tissue. The results are presented in terms of temperature fields, thermal damage and dimension of the ablated zone achieved
The Radio Frequency (RF) thermal ablation is a clinical practice introduced first to treat the liver...
This research aims to develop a methodology for modeling three-dimensional radio frequency (RF) abla...
Hyperthermia treatment is nowadays recognized as the fourth additional cancer therapy technique foll...
Thermal ablation of tumors is a minimally invasive technique more and more employed in cancer treatm...
Thermal ablation has a primary role in cancer treatment due to its minimal invasiveness, and the imp...
The objective of this study was to compare three different heat transfer models for radiofrequency a...
Thermal ablation is a minimally or noninvasive cancer therapy technique that involves fewer complica...
Background and objectives Thermal ablation of tumors plays a key role to fight cancer, since it i...
textThermal ablation, which uses localized heating by external energy sour-ces to destroy abnormal t...
The relevance of thermal ablation in cancer treatment is growing through the years, because it invol...
Mostly thanks to its noninvasiveness, thermal ablation is a widely used technique to treat tumors in...
Effects of different boundary conditions prescribed across the boundaries of radiofrequency ablation...
One of the most used cancer treatments is the thermal ablation, in which necrosis in tumor tissues i...
In recent years, minimally invasive methods have become popular for the treatment of hepatic cancer....
Thermal expansion blat ges surrounding tissue, entail a control of heating power for appropriate tem...
The Radio Frequency (RF) thermal ablation is a clinical practice introduced first to treat the liver...
This research aims to develop a methodology for modeling three-dimensional radio frequency (RF) abla...
Hyperthermia treatment is nowadays recognized as the fourth additional cancer therapy technique foll...
Thermal ablation of tumors is a minimally invasive technique more and more employed in cancer treatm...
Thermal ablation has a primary role in cancer treatment due to its minimal invasiveness, and the imp...
The objective of this study was to compare three different heat transfer models for radiofrequency a...
Thermal ablation is a minimally or noninvasive cancer therapy technique that involves fewer complica...
Background and objectives Thermal ablation of tumors plays a key role to fight cancer, since it i...
textThermal ablation, which uses localized heating by external energy sour-ces to destroy abnormal t...
The relevance of thermal ablation in cancer treatment is growing through the years, because it invol...
Mostly thanks to its noninvasiveness, thermal ablation is a widely used technique to treat tumors in...
Effects of different boundary conditions prescribed across the boundaries of radiofrequency ablation...
One of the most used cancer treatments is the thermal ablation, in which necrosis in tumor tissues i...
In recent years, minimally invasive methods have become popular for the treatment of hepatic cancer....
Thermal expansion blat ges surrounding tissue, entail a control of heating power for appropriate tem...
The Radio Frequency (RF) thermal ablation is a clinical practice introduced first to treat the liver...
This research aims to develop a methodology for modeling three-dimensional radio frequency (RF) abla...
Hyperthermia treatment is nowadays recognized as the fourth additional cancer therapy technique foll...