This paper deals with the electric field generated inside the bodies of people moving in proximity to magnetic resonance scanners. Different types of scanners (tubular and open) and various kinds of movements (translation, rotation, and revolution) are analyzed, considering the homogeneous human model proposed in some technical Standards. The computations are performed through the Boundary Element Method, adopting a reference frame attached to the body, which significantly reduces the computational burden. The induced electric fields are evaluated in terms of both spatial distributions and local time evolutions. The possibility of limiting the study to the head without affecting the accuracy of the results is also investigated. Finally, a f...
Determining the induced electric fields in the human body is a fundamental problem in bioelectromagn...
Purpose: To numerically evaluate the electric field/current density magnitudes and spatial distribut...
In MRI, healthcare workers may be exposed to strong static and dynamic magnetic fields outside of th...
A computational procedure, based on the boundary element method, has been developed in order to eva...
In modern magnetic resonance imaging (MRI), patients are exposed to strong, nonuniform static magnet...
In modern magnetic resonance imaging, both patients and health care workers are exposed to strong. n...
In modern magnetic resonance imaging (MRI), both patients and radiologists are exposed to strong, no...
This paper presents a potential-based formulation conceived to estimate the electric field induced i...
This paper presents a potential-based formulation conceived to estimate the electric field induced i...
Purpose: To numerically evaluate the electric field/current density magnitudes and spatial distribut...
In modern MRI, occupational workers are exposed to strong, non-uniform static magnetic fields genera...
Purpose. In order to provide adequate risk-reducing procedures for MRI personnel (radiographers, an...
The paper proposes and discusses a boundary element procedure able to predict the distribution of th...
The purpose of this work is to estimate the induced electric field E due to movements of magnetic re...
MRI has become an invaluable tool for diagnostic medicine. Its operation is based on the principles ...
Determining the induced electric fields in the human body is a fundamental problem in bioelectromagn...
Purpose: To numerically evaluate the electric field/current density magnitudes and spatial distribut...
In MRI, healthcare workers may be exposed to strong static and dynamic magnetic fields outside of th...
A computational procedure, based on the boundary element method, has been developed in order to eva...
In modern magnetic resonance imaging (MRI), patients are exposed to strong, nonuniform static magnet...
In modern magnetic resonance imaging, both patients and health care workers are exposed to strong. n...
In modern magnetic resonance imaging (MRI), both patients and radiologists are exposed to strong, no...
This paper presents a potential-based formulation conceived to estimate the electric field induced i...
This paper presents a potential-based formulation conceived to estimate the electric field induced i...
Purpose: To numerically evaluate the electric field/current density magnitudes and spatial distribut...
In modern MRI, occupational workers are exposed to strong, non-uniform static magnetic fields genera...
Purpose. In order to provide adequate risk-reducing procedures for MRI personnel (radiographers, an...
The paper proposes and discusses a boundary element procedure able to predict the distribution of th...
The purpose of this work is to estimate the induced electric field E due to movements of magnetic re...
MRI has become an invaluable tool for diagnostic medicine. Its operation is based on the principles ...
Determining the induced electric fields in the human body is a fundamental problem in bioelectromagn...
Purpose: To numerically evaluate the electric field/current density magnitudes and spatial distribut...
In MRI, healthcare workers may be exposed to strong static and dynamic magnetic fields outside of th...