Voltage gated sodium channels (NaV) 1.7 are highly expressed on the axons of somatic afferent neurons and are thought to play an important role in the signaling of inflammatory pain. NaV 1.7 channels are classified as Tetrodotoxin (TTX) sensitive, meaning that they are blocked by TTX concentrations of less than 300 nM. These findings prompted us to determine in decerebrated, unanesthetized rats, the role played by NaV 1.7 channels in the transmission of muscle afferent input evoking the exercise pressor reflex. We first showed that the exercise pressor reflex, which was evoked by static contraction of the triceps surae muscles, was reversibly attenuated by application of 50 nM TTX, but not 5 nM TTX, to the L4-L5 dorsal roots (control: 21±1 mmHg, TTX: 8±2 mmHg, restored: 21±3 mmHg; n=6; p<0.01). We next found that the peak pressor responses to contraction were significantly attenuated by dorsal root application of 100 nM Ssm6a, a compound that is a selective NaV 1.7 channel inhibitor. Removal of Ssm6a restored the reflex to its control level (control: 19±3 mmHg, Ssm6a: 10±1 mmHg, recovery: 19±4 mmHg; n=6; p<0.05). Compound action potentials recorded from the L4 and L5 dorsal roots and evoked by single pulse stimulation of the sciatic nerve showed that both TTX and Ssm6a attenuated input from group III as well as group IV afferents. We conclude that NaV 1.7 channels play a role in the thin fiber muscle afferent pathway evoking the exercise pressor reflex.