B. Olausson

Projection from the thalamic intralaminar nuclei on the isocortex of the rat: a surface potential study

SummaryCortical surface potentials evoked from thalamic intralaminar nuclei have been studied in rats anaesthetized with chloralose. Stimulation with low current intensity in central lateral nucleus (CL), evoked potentials in large areas of the rat isocortex. In the posterior parietal cortex responses with a short latency negativity were evoked which followed high frequency repetitive stimulation. Its latency and ability to follow high frequency stimulation indicated a monosynaptic connection from CL to this part of the cortex. The short latency potential was followed by a second negativity with longer latency and varying amplitude. This second negativity did not follow repetitive stimulation exceeding 10 Hz, and was also reduced by supplementary doses of anaesthetics, indicating a polysynaptic origin. Stimulation at different CL sites elicited cortical potentials with short latency in a topographical pattern. Laminar analysis in the parietal and motor cortex suggested both a superficial and a deep layer termination of afferents from CL. Similar topografical relations and afferent layer distributions have previously been found in cats. The role of the thalamocortical projection from CL to parietal cortex in arousal, attention and pain mechanisms is discussed.

Localized responses in the midsuprasylvian gyrus of the cat following stimulation of the central lateral nucleus in thalamus.

SummaryEvoked responses were mapped in the cerebral cortex following low intensity electrical stimulation in serial penetrations of the medial and intralaminar nuclei of the thalamus of the cat. A projection was found from one of the intralaminar nuclei, the central lateral nucleus (CL) to the midsuprasylvian gyrus, mainly areas 5 and 7. The projection is suggested to be direct, since the evoked responses had a short latency initial positivity. The most characteristic type of response consisted of this early positivity followed by two successive negativities. The earlier, so called first negativity followed high frequency stimulation and was recorded in a smaller area of the cortex than the later, so called second negativity. The first negativity is suggested to depend on monosynaptic depolarization and activation of cortical cells. The second negativity failed at frequencies higher than 10 Hz and was strongly depressed by the administration of barbiturates; it is suggested to depend on polysynaptic depolarization and cellular activity. In electrode penetrations of the cortex both negativities reversed at the border between cortical layers II and III, indicating a superficial termination of thalamic afferents in the cortex. The cortical evoked response to CL stimulation was facilitated by light mechanical and low intensity electrical stimulation of the periphery, as well as by electrical stimulation of the tooth pulp. The possible significance and function of this projection is discussed in relation to arousal, attention and pain.

Projection of tooth pulp afferents to the thalamus of the cat

SummaryElectrical stimulation of tooth pulp afferents in cats evoked short latency focal potentials in the basal ventromedial nucleus of thalamus (VMB), in the border zone between this nucleus and the arcuate nucleus of the ventrobasal complex (VBA), and in the marginal zone of VBA and the external nucleus of the ventrobasal complex (VBX). No responses were found in the centre of VBA and VBX. Very few responses were found in the intralaminar region. The projection from the tooth pulps was bilateral, but the best responses following stimulation of the ipsi- and the contralateral tooth pulps could be evoked at slightly different locations within VMB. The mean latency of the responses was shorter following stimulation of the contralateral tooth pulp than following stimulation of the ipsilateral one. Electrical stimulation in VMB, VBA, and VBX evoked focal potentials in thalamocortical projection fibres, which were recorded from in the white matter below areas SI and SII after decortication by suction. Conditioning stimulation of the tooth pulps suppressed these responses within 200 ms if the stimulating electrode was placed at the border between VBA and VMB, suggesting that tooth pulp stimulation activates a thalamocortical projection with a postexcitatory inhibition. Finally, lesions were made in the thalamus and their effects were checked on the cortical responses to tooth pulp stimulation. If the lesion included the region of VMB bordering to VBA the cortical responses decreased in amplitude. It is concluded that VMB and the borderzone between VMB and VBA are important relays between the nociceptors of the tooth pulp and the sensory cortex

Influence of changes of tooth temperature on reflex and central activity evoked by stimulation of tooth pulp afferents

The importance of the temperature of the dentine was studied in teeth prepared for electrical stimulation. During experiments with the mouth open, the temperature of teeth covered by cement was normal. The digastric EMG and the brainstem--evoked response following electrical stimulation of the tooth pulp as well as the threshold for eliciting a jaw-opening response remained constant throughout prolonged experiments. However, heat produced by the cement used to fixate the tooth electrodes could have damaged the tooth if the dentine temperature had exceeded 45 degrees C. A careful preparation of the tooth pulp by repeated application of thin layers of cement allowed an adequate preparation without damage to tooth pulp afferents.

Properties of single neurons in the cat midsuprasylvian gyrus

SummaryResponses of cells in the midsuprasylvian gyrus (MSSG) of cats were investigated following electrical stimulation of the central lateral nucleus (CL) of the thalamus and tooth pulp, low-threshold cutaneous or visual afferents. Electrical stimulation in CL induced excitation in many cells located in cortical areas 5 and 7. Cells in these areas also received input from somato-sensory and visual afferents. Cells in MSSG showed a wide convergence from tooth pulp, low-threshold cutaneous afferents and from the CL. The majority of wide convergent cells in area 5 were found in layers IV and V, while cells excited by CL and tooth pulp were found in layers II and III. Similarities were found between CL and tooth pulp evoked responses with regard to the excitation-inhibition pattern. The excitation evoked from CL and tooth pulp was less often followed by a hyperpolarizing potential compared to that seen after low-threshold lip, paw and visual afferent stimulation. Stimulation sites in the lateral parts of CL-evoked responses with the shortest latencies in area 5. In this part of the cortex, short latency synaptic potentials were found in cells in superficial layers. In the same area, synaptic potentials of short latency were also evoked by electrical stimulation of tooth pulp, lip and paw. Light-flash stimulation evoked responses with the shortest latencies in area 7. The results of this study demonstrate that putative nociceptive information reaches the parietal association cortex and that part of this input may be relayed via CL. We suggest that the excitatory influences of nociceptive and CL stimulation is related to behavioral arousal and attention mechanisms.