AI Article Synopsis
- Magnetic fields that switch at high frequencies (kHz) can cause peripheral nerve stimulation (PNS) in the body, and this has primarily been studied below 10 kHz.
- Previous studies above ~25 kHz showed inconsistent results with high variability, but new research involving 8 volunteers measured PNS at frequencies from 200 Hz to 88.1 kHz.
- Results indicated that instead of continuously decreasing, the PNS thresholds hit a minimum around 25 kHz and then increased by 39% from that point to 88.1 kHz, highlighting the need for more research on the biological mechanisms behind magnetostimulation at these higher frequencies.
Article Abstract
Magnetic fields switching at kilohertz frequencies induce electric fields in the body that can cause peripheral nerve stimulation (PNS). Magnetically induced PNS, i.e. magnetostimulation, has been extensively studied below 10 kHz. It is widely characterized using a hyperbolic strength-duration curve (SDC), where the PNS thresholds monotonically decrease with frequency. The very few studies performed at higher frequencies found significant deviations from the hyperbolic SDC above ~ 25 kHz, however, those measurements are sparse and show large variability. We fill the gap in the data by measuring PNS in the head of 8 volunteers using a solenoidal coil at 16 frequencies between 200 Hz and 88.1 kHz. Contrary to the hyperbolic SDC, PNS thresholds did not decrease monotonically with frequency, but reached a minimum ~ 25 kHz. The thresholds then increased by 39% from 25 kHz to 88.1 kHz on average across subjects. Our measurements can be used for guidance and validation of neurodynamic models and to inform PNS limits of magnetic resonance imaging (MRI) gradient coils and magnetic particle imaging (MPI) systems. The observed deviation of the experimentally measured thresholds from the hyperbolic SDC calls for further study of the underlying biological mechanisms of magnetostimulation beyond 25 kHz.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11527250 | PMC |
| http://dx.doi.org/10.21203/rs.3.rs-4864083/v1 | DOI Listing |
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