Some Effects of the Stimulus Repetition Rate on N₁ and N₂ in Transtympanic and Surface Recordings

Abstract

The early auditory evoked electrical activity has been recorded in man at the promontory (transtympanic approach) and on the scalp vertex-mastoid derivation), in response to clicks delivered at different rates. Latency and amplitude of the first two peaks (N₁ and N₂), as a function of the repetition rate, have been measured and compared. The differences between the latencies of transtympanic and surface N₁ are very small, at any rate, with a maximum value of 0.08 msec. In the transtympanic recording, the latency difference between N₂ and N₁ is constant throughout the whole range of rate values, from 3 to 100 clicks per second. In the surface responses, on the contrary, the latency difference between N₂ and N₁ tends to increase as the rate is increased. The amplitude of the transtympanic N₂ is consistently reduced at click rates above 20–50 per second (more markedly than the amplitude of N₁), while the amplitude of the surface N₂ is much more insensitive to the rate increase. Some implications of these results are discussed with respect to the origin of N₂ in the two recording conditions.