Towards enhanced functionality of vagus neuroprostheses through in silico optimized stimulation
Bioelectronic therapies modulating the vagus nerve are promising for cardiovascular,
inflammatory, and mental disorders. Clinical applications are however limited by side-effects …
inflammatory, and mental disorders. Clinical applications are however limited by side-effects …
Multifaceted understanding of human nerve implants to design optimized electrodes for bioelectronics
Bioelectronic medicine is a promising venue for treatment of disabilities using implantable
neural interfaces. Peripheral neurostimulation of residual nerves recently enabled multiple …
neural interfaces. Peripheral neurostimulation of residual nerves recently enabled multiple …
Symbiotic electroneural and musculoskeletal framework to encode proprioception via neurostimulation: ProprioStim
Peripheral nerve stimulation in amputees achieved the restoration of touch, but not
proprioception, which is critical in locomotion. A plausible reason is the lack of means to …
proprioception, which is critical in locomotion. A plausible reason is the lack of means to …
Design of an adaptable intrafascicular electrode (AIR) for selective nerve stimulation by model-based optimization
Peripheral nerve stimulation is being investigated as a therapeutic tool in several clinical
scenarios. However, the adopted devices have restricted ability to obtain desired outcomes …
scenarios. However, the adopted devices have restricted ability to obtain desired outcomes …
[HTML][HTML] Selective intrafascicular stimulation of myelinated and unmyelinated nerve fibers through a longitudinal electrode: A computational study
Carbon nanotube (CNT) fiber electrodes have demonstrated exceptional spatial selectivity
and sustained reliability in the context of intrafascicular electrical stimulation, as evidenced …
and sustained reliability in the context of intrafascicular electrical stimulation, as evidenced …