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Slow waves and unitary activity evoked by cutaneous stimulation from the rat cuneate nucleus (1980)

Armstrong-James, M. ; Ewart, W. R.

Springer

Experimental brain research 39 (1980), S. 327-340

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ISSN: 1432-1106

Keywords: Slow waves ; Unitary activity ; Cuneate nucleus

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Depth profiles of averaged evoked potentials (AEPs) and simultaneously generated unitary activity have been recorded from the cuneate nucleus of the rat in response to controlled tactile stimulation of the ipsilateral forepaw. Four separate components of the AEPs were isolated, N1, N2, P, and N3. N1corresponds to the classical N wave previously described by other workers; four fractions of N1 are described. The classical P wave which follows N1 reverses at 150–350 μm depth to become a negative wave of identical time course, the N2 wave, at deeper locations. N2 peaks deeper than N1 within the non-relay portion of the cuneate nucleus, or below in the subnuclear reticular førmation where it is the only significant evoked component. Its strong susceptibility to high Mg++ C.S.F. superperfusion suggests a polysynaptic origin. It is argued that the depth distribution and time course of N2 does not support its function relating to depolarisation of primary afferents (PAD) in the vicinity of synaptically driven cuneate cells. Alternative possibilities for its origin are discussed. An additional sustained component of the AEP, the N3 component, is described and evaluated. N3 is co-extensive with N1, has a long time course and simple exponential decay, and is the component most resistant to high Mg++ C.S.F. superperfusion. A similar component to N3 has been described by previous workers in the spinal cord, where it has been shown to arise from glia depolarised by K+ effluxing from discharging afferents and cells. A similar origin for N3 is suggested, and its possible involvement with PAD discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237122

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The role of the anterior intralaminar nuclei and N-methyl D-aspartate receptors in the generation of spontaneous bursts in rat neocortical neurones (1986)

Fox, K. ; Armstrong-James, M.

Springer

Experimental brain research 63 (1986), S. 505-518

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ISSN: 1432-1106

Keywords: Intralaminar nuclei ; Neocortex ; Somatosensory ; NMDA ; 2APV ; Thalamo-cortical

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The nature of spontaneous unitary activity of rat neocortex was investigated during slow wave sleep and urethane anaesthesia. Neurones in layer IV and V locations fired in a burst-pause pattern at a low burst repetition rate (0.5–4 per second) during both stage 3/4 sleep and urethane anaesthesia. Occasionally an alternative mode of firing (spindle clusters), associated with focal spindle wave activity, was also found to occur in both states. Using dual microelectrode implants it was found that the onset times of bursts (but not spindle clusters), coincided in the same and opposing cortices, whether in functionally similar or disparate areas. The highest probability was that burst onsets occurred simultaneously (resolution =2.56 ms, interquartile range=40 ms). Spontaneous unitary activity was investigated in the thalamus for temporal correlation with spontaneous unitary activity in neocortex under urethane anaesthesia. Neurones of the anterior intralaminar group (aIL) consistently fired in a burst-pause pattern such that each aIL burst showed a strong tendency to precede a cortical burst. Unilateral electrical stimulation of the aIL nuclei evoked widespread bilateral entrainment of cortical bursts. In contrast stimulation of VP1, or cutaneous sites, evoked only short duration spike responses together with burst abolition in the appropriate restricted Sm1 area. Ionophoresis of NMDA (N-Methyl D-Aspartate) onto Sm1 neurones increased the probability of cortical burst responses to aIL stimulation in addition to decreasing the latency by 20–40 ms (n=11). lonophoresis of 2APV (2-amino 5-phosphono valeric acid) caused simultaneous abolition of spontaneous cortical bursts and bursts evoked by aIL stimulation. Short latency responses to cutaneous and VP1 stimulation were unaffected by ionophoresis of 2APV sufficient to cause burst elimination, suggesting that this pathway does not operate via a 2APV sensitive receptor mechanism. Anatomical features of the aIL nuclei and their overall cortical projection pattern are discussed in relationship to these findings. The activation of cortical NMDA/APV sensitive receptors by aIL afferents in the “spontaneous” generation of bursts in cortical cells is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237474

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Threshold effects of N-methyl D-aspartate (NMDA) and 2-amino 5-phosphono valeric acid (2APV) on the spontaneous activity of neocortical single neurones in the urethane anaesthetised rat (1985)

Armstrong-James, M. ; Caan, A. W. ; Fox, K.

Springer

Experimental brain research 60 (1985), S. 209-213

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ISSN: 1432-1106

Keywords: Neocortex ; NMDA ; 2APV ; Somatosensory

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Spontaneous activity of single neurones in neocortex was sampled using pairs of microelectrodes in rats anaesthetised with urethane. In confirmation of previous studies, many cells recorded from middle layers characteristically fired in bursts, the onset times of which were synchronous both unilaterally and bilaterally. Iontophoresis of 2APV onto such cells either caused an abolition of bursts or a reduction in spikes per burst. In the latter case action potentials which occurred later in the burst were preferentially abolished. Iontophoresis of NMDA onto the same cells caused a prolongation of bursts with minimal effect on intraburst interspike interval. In interactive trials with the two drugs the effect of NMDA could be abolished by 2APV, and NMDA counteracted the effect of 2APV. It is concluded that spontaneous burst generation in neocortex during urethane anaesthesia is generated through a cortical NMDA/2APV-sensitive receptor mechanism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237036

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