Computational Study on the Thermal Effects of Implantable Magnetic Stimulation Based on Planar Coils
- Author(s)
- Hee-Jin Park; Jae Hun Seol; Jeonghun Ku; Sohee Kim
- Keimyung Author(s)
- Ku, Jeong Hun
- Department
- Dept. of Biomedical Engineering (의용공학과)
- Journal Title
- IEEE Transactions on Biomedical Engineering
- Issued Date
- 2016
- Volume
- 63
- Issue
- 1
- Keyword
- Brain temperature; Finite-element analysis (FEA); Implantable magnetic stimulation; Planar coil; Temperature increase
- Abstract
- Goal: Micromagnetic stimulation using coils sufficiently
small to be implanted has been suggested as a potential
method to overcome the limitations of electrical stimulation. We
investigated the temperature increases in the brain implanted with
planar coils. Methods:We conducted computational simulations on
the thermal effects of implantable magnetic stimulation in a brain
model using finite-element analysis, by varying geometric parameters
of planar spiral coils, and repetitive stimulation pulse patterns.
Results: It was revealed that the temperature increase in the brain
can be controlled by a careful design of coils to implant. The coil
diameter greater than 8 mm was required to induce a temperature
rise in the brain of less than 1 °C. If the coil diameter was larger
than 10 mm, the subsequent temperature rises in the brain tissue
was maintained consistently at about 0.24 °C or lower. Conclusion:
Selection of the number of coil turns must rely on tradeoffs between
the required current and voltage that the implanted source
can generate, as the required voltage increases while the required
current decreases with increasing number of coil turns. Additionally,
the coil insulation with a thickness of a few micrometers was
found to suppress the temperature rise in the brain effectively.
Significance: Although these simulations employed only one
threshold value of 10 V/m, which is rather on the lower end of
stimulation threshold, the simulation results are expected to serve
as guidelines for designing planar coils to be implanted in the brain
for magnetic stimulation.
Index Terms—Brain temperature, finite-element analysis (FEA),
implantable magnetic stimulation, planar coil, temperature
increase.
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