{Reference Type}: Journal Article
{Title}: Non-invasive ventral cervical magnetoneurography as a proxy of in vivo lipopolysaccharide-induced inflammation.
{Author}: Bu Y;Burks J;Yang K;Prince J;Borna A;Coe CL;Simmons A;Tu XM;Baker D;Kimball D;Rao R;Shah V;Huang M;Schwindt P;Coleman TP;Lerman I;
{Journal}: Commun Biol
{Volume}: 7
{Issue}: 1
{Year}: 2024 Jul 29
{Factor}: 6.548
{DOI}: 10.1038/s42003-024-06435-8
{Abstract}: Maintenance of autonomic homeostasis is continuously calibrated by sensory fibers of the vagus nerve and sympathetic chain that convey compound action potentials (CAPs) to the central nervous system. Lipopolysaccharide (LPS) intravenous challenge reliably elicits a robust inflammatory response that can resemble systemic inflammation and acute endotoxemia. Here, we administered LPS intravenously in nine healthy subjects while recording ventral cervical magnetoneurography (vcMNG)-derived CAPs at the rostral Right Nodose Ganglion (RNG) and the caudal Right Carotid Artery (RCA) with optically pumped magnetometers (OPM). We observed vcMNG RNG and RCA neural firing rates that tracked changes in TNF-α levels in the systemic circulation. Further, endotype subgroups based on high and low IL-6 responders segregate RNG CAP frequency (at 30-120 min) and based on high and low IL-10 response discriminate RCA CAP frequency (at 0-30 min). These vcMNG tools may enhance understanding and management of the neuroimmune axis that can guide personalized treatment based on an individual's distinct endophenotype.