OBJECTIVE: To investigate the central mechanism of hypoglycemic effect induced by ear acupuncture. METHODS: Extracellular single-unit recordings were carried out in nucleus tractus solitarius (NTS) of rats after infusion of glucose, insulin via jugular venous and electroacupuncture at auricular concha, observing responses of glucose-sensitive neurons and insulin-sensitive neurons in NTS to electroacupuncture stimulation at auricular concha. RESULTS: There existed glucose-sensitive neurons and insulin-sensitive neurons in NTS. Among glucose-sensitive neurons, inhibitory ones accounted for 37.3%, and excitable ones accounted for 10.9%. Among the insulin-sensitive neurons, excitable ones accounted for 33.3%, and inhibitory ones accounted for 4.9%. When electroacupuncture was given at auricular concha, 49.3% (34/69) of total neurons recorded in NTS showed increase in firing rate, while 4.3% (3/69) showed decrease in firing rate. Among the 34 exciting-responsive neurons, there were 18 neurons responding to glucose infusion with a discharge decreased in frequency, and there were 8 neurons responding to insulin infusion with a discharge increased in firing rate. CONCLUSION: Acupuncture stimulation at auricular concha can irritate the neurons in NTS, which show largely inhibitory and excitable response to glucose and insulin infusion, respectively. The hypoglycemic effect induced by auricular acupuncture possibly results from regulating these neurons' firing activities.
OBJECTIVE: To investigate the central mechanism of hypoglycemic effect induced by ear acupuncture. METHODS: Extracellular single-unit recordings were carried out in nucleus tractus solitarius (NTS) of rats after infusion of glucose, insulin via jugular venous and electroacupuncture at auricular concha, observing responses of glucose-sensitive neurons and insulin-sensitive neurons in NTS to electroacupuncture stimulation at auricular concha. RESULTS: There existed glucose-sensitive neurons and insulin-sensitive neurons in NTS. Among glucose-sensitive neurons, inhibitory ones accounted for 37.3%, and excitable ones accounted for 10.9%. Among the insulin-sensitive neurons, excitable ones accounted for 33.3%, and inhibitory ones accounted for 4.9%. When electroacupuncture was given at auricular concha, 49.3% (34/69) of total neurons recorded in NTS showed increase in firing rate, while 4.3% (3/69) showed decrease in firing rate. Among the 34 exciting-responsive neurons, there were 18 neurons responding to glucose infusion with a discharge decreased in frequency, and there were 8 neurons responding to insulin infusion with a discharge increased in firing rate. CONCLUSION: Acupuncture stimulation at auricular concha can irritate the neurons in NTS, which show largely inhibitory and excitable response to glucose and insulin infusion, respectively. The hypoglycemic effect induced by auricular acupuncture possibly results from regulating these neurons' firing activities.