Low-frequency stimulation of bilateral anterior nucleus of thalamus inhibits amygdale-kindled seizures in rats.

Brain stimulation with low-frequency is emerging as an alternative treatment for refractory epilepsy. The anterior nucleus thalamus (ANT) is thought to be a key structure in the circuits of seizure generation and propagation. The present study aimed to investigate the effects of low frequency stimulation (LFS) targeting ANT on amygdala-kindled seizures in Sprague-Dawley rats. Electrodes were implanted into the right basolateral amygdala and the right or bilateral ANT of Sprague-Dawley rats. When fully kindled seizures were achieved by daily electrical stimulation of the amygdala, LFS (15 min train of 0.1 ms pulses at 1 Hz and 200-500 μA) was applied to the unilateral or bilateral ANT immediately before the kindling stimulation (pre-treatment). Our study showed that LFS of the bilateral ANT significantly decreased the incidence of generalized seizures (GS) and seizure stage, as well as shortened duration of afterdischarge and GS demonstrating an inhibition of the severity of seizures. Moreover, LFS elevated the afterdischarge threshold (ADT) and GS threshold indicating an inhibition of susceptibility to seizures. On the other hand, LFS of the unilateral ANT failed to show any significance in inhibiting seizures. Our study demonstrated that bilateral LFS in ANT could significantly inhibit amygdala-kindled seizures by preventing both afterdischarge generation and propagation. It provided further evidence for clinical use of LFS in ANT.