Abstract
Firing behaviour of frog (Rana temporaria) single trochlear motoneurons and multi-unit activity of trochlear nerve were studied during sinusoidal linear accelerations or ramp-hold stimuli (side-up, side-down) in the dark. Frequencies of sinusoidal stimulation ranged from 0.05 Hz to 2 Hz and peak accelerations were between 0.001g and 0.1g.
Phase lead of trochlear nerve mass activity relative to imposed acceleration decreased with increasing frequency from 43±10° at 0.1 Hz to 13±6° at 1 Hz for transverse acceleration, and from 37±9° at 0.1 Hz to 1.5±5° at 1 Hz for longitudinal acceleration.
The majority of trochlear motoneurons, characterized by short antidromic latencies (<3 ms), had response phases ranging from 52°±6° at 0.05 Hz to 18°±11° at 2 Hz. Their phase behaviour was thus similar to that observed in the nerve multi-unit activity. Response sensitivities typically increased with increasing frequency and showed a clear dependency on stimulus amplitude. In addition, some motoneurons were recorded at antidromic latencies between 3 ms and 6 ms. These units showed less phase lead at frequencies below 0.2 Hz and a rather constant sensitivity in the frequency range tested.
The present results together with previous work on primary otolith afferents indicate that information in phasic, phasic-tonic and tonic afferents may be transmitted rather faithfully to motoneurons. This implies that, unlike the case in higher vertebrates, very little central processing occurs in the amphibian maculo-ocular reflex.
| Original language | English |
|---|---|
| Pages (from-to) | 233-240 |
| Number of pages | 8 |
| Journal | Journal of Comparative Physiology A |
| Volume | 154 |
| Issue number | 2 |
| DOIs | |
| Publication status | Published - Mar 1984 |
User-Defined Keywords
- Phase Behaviour
- Peak Acceleration
- Linear Acceleration
- Firing Behaviour
- High Vertebrate