Journal ArticleOne requirement of a chronically implantable, wireless neural interface device is the integration of electronic circuitry with the microelectrode array. Since the electronic IC dissipates a certain amount of power, it will affect the temperature in the tissues surrounding the implant site. In this paper, the thermal influence of an integrated, 3-dimensional Utah Electrode Array, to be implanted in the brain was investigated with simulations using the finite element method (FEM). A temperature increase in the brain tissue was predicted using preliminary simulations with simplified models. The model and method used in the simulations were verified by simple in vitro experiments
Patients with medical implants are often unable to receive magnetic resonance imaging (MRI) diagnost...
The influence of tethering silicon microelectrode arrays on the cortical brain tissue reaction was c...
A 3D anatomical computational model is developed to assess thermal effects due to exposure to the el...
A chronically implantable, wireless neural interface device will require integrating electronic circ...
The goal of this study is to estimate the thermal impact of a titanium skull unit (SU) implanted on ...
Conceived and designed the experiments: TI RR CH. Performed the experiments: YZ LT. Analyzed the dat...
Implantable neural interfaces are designed to provide a high spatial and temporal precision control ...
Journal ArticleIn an integrated wireless neural interface based on the Utah electrode array, the im...
<p>A clinically viable brain-machine interface (BMI) requires a fully-implanted wireless neural acqu...
Medication resistant neurological and psychiatric disorders, RNPD, are devastating multicausal chron...
Radio-frequency brain lesioning is a method for reducing e.g. symptoms of movement disorders. A smal...
Journal ArticleIn an integrated wireless neural interface based on the Utah electrode array, the im...
Radio-frequency (RF) lesioning is a method utilising high frequency currents for thermal coagulation...
Clinical electrical stimulation systems — such as pacemakers and deep brain stimulators (DBS) — are ...
Technical means that create for regenerating lost functions of the human body primarily focused on t...
Patients with medical implants are often unable to receive magnetic resonance imaging (MRI) diagnost...
The influence of tethering silicon microelectrode arrays on the cortical brain tissue reaction was c...
A 3D anatomical computational model is developed to assess thermal effects due to exposure to the el...
A chronically implantable, wireless neural interface device will require integrating electronic circ...
The goal of this study is to estimate the thermal impact of a titanium skull unit (SU) implanted on ...
Conceived and designed the experiments: TI RR CH. Performed the experiments: YZ LT. Analyzed the dat...
Implantable neural interfaces are designed to provide a high spatial and temporal precision control ...
Journal ArticleIn an integrated wireless neural interface based on the Utah electrode array, the im...
<p>A clinically viable brain-machine interface (BMI) requires a fully-implanted wireless neural acqu...
Medication resistant neurological and psychiatric disorders, RNPD, are devastating multicausal chron...
Radio-frequency brain lesioning is a method for reducing e.g. symptoms of movement disorders. A smal...
Journal ArticleIn an integrated wireless neural interface based on the Utah electrode array, the im...
Radio-frequency (RF) lesioning is a method utilising high frequency currents for thermal coagulation...
Clinical electrical stimulation systems — such as pacemakers and deep brain stimulators (DBS) — are ...
Technical means that create for regenerating lost functions of the human body primarily focused on t...
Patients with medical implants are often unable to receive magnetic resonance imaging (MRI) diagnost...
The influence of tethering silicon microelectrode arrays on the cortical brain tissue reaction was c...
A 3D anatomical computational model is developed to assess thermal effects due to exposure to the el...