Golombeck Ma scite author profile

Golombeck Ma

2Publications

8Citation Statements Received

1Citation Statement Given

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Magnetic Resonance Imaging With Implanted Neurostimulators: Numerical Calculation of the Induced Heating

Ma¹,

Thiele²,

Dössel³

2002

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Magnetic resonance imaging (MRI) is still contraindicated in patients with implanted active medical devices, as the applied radiofrequency (RF) fields can lead to significant heating of the implants and the electrodes. A head model with an implanted deep brain stimulation electrode (DBS) was exposed to a continuous RF-field similar to the excitational field used in MRI at a frequency of 64 MHz. In this study a two-step procedure for the accurate estimation of electrode-heating during MRI is presented. First the energy loss was calculated in the frequency domain during an applied RF-pulse. Then a thermodynamic algorithm taking heat transfer mechanisms into account was used. The applied method showed to be numerically stable and gave more accurate results than first calculated using a simple worst-case approximation.

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Numerical Calculations of Switched Magnetic Field Gradients During Magnetic Resonance Imaging

Ma²,

Dössel³

2002

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During magnetic resonance imaging (MRI) pulse-sequences the human body is exposed to switched magnetic gradient fields. These gradients become stronger and are switched faster for fast imaging. Effects resulting from these fields with trapezoidal waveforms are on the one hand sensory perception of induced currents and on the other hand muscular and cardiac stimulation. All three components of the current density induced by gradient pulse sequence were analysed in a high-resolution model of the human torso. The evaluation of the calculated data was performed thoroughly in the region of the heart muscle of the torso model to find out how different waveforms of the switched gradient field influence strength and direction of induced currents.

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Golombeck Ma

Magnetic Resonance Imaging With Implanted Neurostimulators: Numerical Calculation of the Induced Heating

Numerical Calculations of Switched Magnetic Field Gradients During Magnetic Resonance Imaging

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