From Event: SPIE BiOS, 2019
Neuromodulation has the potential to treat various diseases (i.e., heart failure, obesity). Several clinical trials have recently failed because of the inability to modulate small-diameter fibers. Previously, we demonstrated preferential inhibition of small-diameter fibers using infrared neuromodulation (IRN). To understand the mechanism of action, we did a mathematical analysis which suggested that any modality acting primarily on the axonal surface would preferentially affect small-diameter axons. To test our hypothesis, we examined whether isotonic glucose solution would give results similar to IRN.
We stimulated the left and right pleural-abdominal connective nerves of Aplysia californica and recorded the resulting compound action potentials (CAPs). We designed a chamber with three isolated compartments through which the nerve passes sequentially. Aplysia saline is perfused in the two outer chambers while the middle chamber can be perfused with either Aplysia saline or an isotonic glucose solution (10.21 w/v %). The width of the middle chamber is adjustable to vary the length of nerve perfused by the isotonic glucose solution. As the length of the middle chamber increases, recorded CAPs are initially unaffected, then show a loss of peaks representing small-diameter axons, then show no activity. We can restore full, unchanged CAPs by washing out the glucose solution and replacing it with Aplysia saline. These results support the hypothesis that any modality (e.g., both IRN and isotonic glucose solution) acting primarily on the axonal surface would preferentially affect small-diameter axons. Future studies will compare IRN with isotonic glucose block.
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Junqi Zhuo, Matthew T. McPheeters, Elizabeth M. Jackson, Sachin S. Shankar, Mohit Ganguly, E. D. Jansen, Hillel J. Chiel, and Michael W. Jenkins, "Comparing infrared neuromodulation (IRN) with isotonic glucose solution for selective inhibition of small-diameter axons (Conference Presentation)," Proc. SPIE 10866, Optogenetics and Optical Manipulation 2019, 108660O (Presented at SPIE BiOS: February 03, 2019; Published: 7 March 2019); https://doi.org/10.1117/12.2510417.6011364228001.