Nature of thalamo‐cortical relations during spontaneous barbiturate spindle activity

Abstract

The relation between thalamic and cortical spontaneous spindles was investigated in cats anesthetized with barbiturates. Simultaneous recordings with multiple electrodes in the thalamus and cortex revealed a high correlation between thalamic and cortical spindle activity, both with regard to the occurrence of the spindles as well as to their individual waves, provided a critical location of the electrodes was secured. The results indicate a point-to-point relation between a group of thalamic cells and a small cortical area to which these cells project. In the spontaneous rhythm, the cortical columns are probably individually controlled by a thalamic rhythmic entity. This point-to-point relation was found in all the major sensory projection systems and in one thalamic ''association'' nucleus and its corresponding ''association'' cortex. Cortical barbiturate spindles appeared either as local spindles in a restricted cortical area or as compound spindles in several areas. Spindles recorded from electrodes separated by 2 mm or more were clearly different with regard to intraspindle wave frequency, duration, and the time of start and stop of the spindle. These differences increased with increasing distance between the electrodes, and were most pronounced when the corticograms of the 2 hemispheres were compared. Spontaneous spindle activity interfered with orthodromic transmission through n. ventralis posterolateralis (VPL) and medial geniculate nucleus (MG), judged by depression of the thalamic and cortical responses to peripheral nerve volleys or clicks. Such inhibition required the afferent volley to be delivered at a particular time of the spontaneous oscillations. Further, orthodromic volleys reset the rhythmic spindle waves in the appropriate thalamic and cortical areas. These findings lead to a new concept of the thalamic pace-maker function. During barbiturate anesthesia, small assemblages of thalamic neurones seem to have the ability to generate independent rhythmic discharges, and thereby control the rhythm of the particular cortical column to which this thalamic group projects. During barbiturate anesthesia, many facultative pace-makers seem to be present in the thalamus. The total number may be as large as 25,000-35,000. Usually, many of these rhythmic thalamic units beat in synchrony or near synchrony.