Modulating individual axons and axonal populations in the peripheral nerve using transverse intrafascicular multichannel electrodes.
Yuyang XiePeijun QinTianruo GuoAmr Al AbedNigel H LovellDavid TsaiPublished in: Journal of neural engineering (2023)

We began by implementing a flexible and scalable Python / MATLAB-based toolkit for automatically creating models of nerve stimulation in the hybrid NEURON / COMSOL ecosystems. We then developed a sciatic nerve model containing 14 fascicles with 1,170 myelinated (A-type, 30%) and unmyelinated (C-type, 70%) fibers to study fiber responses over a variety of TIME arrangements (monopolar and hexapolar) and stimulation waveforms (kilohertz stimulation and cathodic ramp modulation). 
Main results: 
Our toolkit obviates the conventional need to re-create the same nerve in two disparate modeling environments and automates bi-directional transfer of results. Our population-based simulations suggested that kilohertz stimuli provide selective activation of targeted C fibers near the stimulating electrodes but also tended to activate non-targeted A fibers further away. However, C fiber selectivity can be enhanced by hexapolar TIME arrangements that confined the spatial extent of electrical stimuli. Improved upon prior findings, we devised a high-frequency waveform that incorporates cathodic DC ramp to completely remove undesirable onset responses. 
Conclusion: 
Our toolkit allows agile, iterative design cycles involving the nerve and TIME, while minimizing the potential operator errors during complex simulation. The nerve model created by our toolkit allowed us to study and optimize the design of next-generation intrafascicular implants for improved spatial and fiber-type selectivity. 
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Keyphrases
- peripheral nerve
- high frequency
- transcranial magnetic stimulation
- spinal cord injury
- dendritic cells
- climate change
- computed tomography
- risk assessment
- signaling pathway
- magnetic resonance
- solid state
- drug delivery
- patient safety
- reduced graphene oxide
- optical coherence tomography
- genetic diversity
- electronic health record
- monte carlo