Skip to content

K Rasmussen

2 papers in the library · 150 citations · publishing 1983-1984

Papers

Activity of serotonin-containing neurons in nucleus centralis superior of freely moving cats.

Experimental neurology February 1, 1984 K Rasmussen, J Heym, B L Jacobs 125 citations

Serotonergic neurons in the nucleus centralis superior (NCS) of freely moving cats fire most rapidly during active waking (mean 2.94 spikes/s), slow down during slow-wave sleep (mean 1.38 spikes/s), and are least active during REM sleep (mean 0.46 spikes/s). Their activity does not increase with transient muscle movements but decreases just before and during sleep spindles. Most NCS serotonergic neurons are excited by sudden sounds or lights. A serotonin-like drug reduces their firing by about 44%. A subset of these neurons shows much smaller changes across sleep-wake states and is inhibited, rather than excited, by sensory stimuli. These patterns are compared with serotonergic neurons in other brain regions.

Raphe neurons: firing rate correlates with size of drug response.

European journal of pharmacology June 3, 1983 B L Jacobs, J Heym, K Rasmussen 25 citations

In unanesthetized and unrestrained cats, serotonergic neurons in several raphe nuclei showed a strong negative correlation between their spontaneous firing rate during waking and their response to systemic injections of the serotonin agonists 5-MeODMT or LSD. The authors propose that both the baseline activity of these neurons and the size of their response to serotonin-like drugs can be explained by the density of autoreceptors on each neuron.