Microwave ablation therapy is a hyperthermic treatment for killing cancerous tumours whereby microwave energy is dispersed into a target tissue region. Modelling can provide a prediction for the outcome of ablation, this paper explores changes in size and shape of temperature and Specific absorption rate fields throughout the course of simulated treatment with different probe concepts. Here, an axisymmetric geometry of a probe embedded within a tissue material is created, solving coupled electromagnetic and bioheat equations using the finite element method, utilizing hp discretisation with the NGSolve library. Results show dynamic changes across all metrics, with different responses from different probe concepts. The sleeve probe yielded th...
Purpose: This work focuses on the characterisation of the ablated area induced by a microwave therma...
Microwave Thermal Ablation (MTA) is a minimally invasive therapeutic technique aimed at destroying p...
Haemmerich, D.; Berjano, E. (2010). Current trends in mathematical modeling of high-temperature ther...
Microwave ablation therapy is a hyperthermic treatment for killing cancerous tumours whereby microwa...
Microwave ablation (MWA) therapy is a hyperthermic treatment for cancerous tumors whereby microwave ...
Microwave thermal ablation (MTA) therapy for cancer treatments relies on the absorption of electroma...
Reliable and accurate information regarding the heat distribution inside biologica.I tissue due to m...
(1) Background: Microwave ablation (MWA) is a common tumor ablation surgery. Because of the high tem...
Microwave ablation is recognized as a minimally invasive, fast-recovery treatment for destroying can...
Microwave ablation becomes a promising thermal modality for treating cancerous tumor cells in patien...
Microwave thermal ablation (MTA) therapies exploit the local absorption of an electromagnetic field ...
Through 5,000 years of practice, physicians, surgeons, or people in general have utilized thermal th...
Microwave thermal ablation is a cancer treatment that exploits local heating caused by a microwave e...
To evaluate, characterise and compare the extent of tissue shrinkage induced from three different co...
Knowledge of the frequency dependence of the dielectric properties of the lung tissues and temperatu...
Purpose: This work focuses on the characterisation of the ablated area induced by a microwave therma...
Microwave Thermal Ablation (MTA) is a minimally invasive therapeutic technique aimed at destroying p...
Haemmerich, D.; Berjano, E. (2010). Current trends in mathematical modeling of high-temperature ther...
Microwave ablation therapy is a hyperthermic treatment for killing cancerous tumours whereby microwa...
Microwave ablation (MWA) therapy is a hyperthermic treatment for cancerous tumors whereby microwave ...
Microwave thermal ablation (MTA) therapy for cancer treatments relies on the absorption of electroma...
Reliable and accurate information regarding the heat distribution inside biologica.I tissue due to m...
(1) Background: Microwave ablation (MWA) is a common tumor ablation surgery. Because of the high tem...
Microwave ablation is recognized as a minimally invasive, fast-recovery treatment for destroying can...
Microwave ablation becomes a promising thermal modality for treating cancerous tumor cells in patien...
Microwave thermal ablation (MTA) therapies exploit the local absorption of an electromagnetic field ...
Through 5,000 years of practice, physicians, surgeons, or people in general have utilized thermal th...
Microwave thermal ablation is a cancer treatment that exploits local heating caused by a microwave e...
To evaluate, characterise and compare the extent of tissue shrinkage induced from three different co...
Knowledge of the frequency dependence of the dielectric properties of the lung tissues and temperatu...
Purpose: This work focuses on the characterisation of the ablated area induced by a microwave therma...
Microwave Thermal Ablation (MTA) is a minimally invasive therapeutic technique aimed at destroying p...
Haemmerich, D.; Berjano, E. (2010). Current trends in mathematical modeling of high-temperature ther...