1998
DOI: 10.1016/s0306-4522(97)00615-5
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Do silent dopaminergic neurons exist in rat substantia nigra in vivo?

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Cited by 36 publications
(20 citation statements)
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“…In accordance with the generally accepted view (Bunney and Grace 1978; for additional references, see Dai and Tepper 1998), we have interpreted the present changes in the number of DA neurons per track as reflecting those in the number of neurons spontaneously generating action potentials (i.e., some neurons are normally silent). On the other hand, Dai and Tepper (1998) have recently suggested that virtually all SNC DA neurons (Ͼ98%) are spontaneously active, even in anesthetized animals.…”
Section: Changes Following Intermittent Cocaine Injectionssupporting
confidence: 84%
See 2 more Smart Citations
“…In accordance with the generally accepted view (Bunney and Grace 1978; for additional references, see Dai and Tepper 1998), we have interpreted the present changes in the number of DA neurons per track as reflecting those in the number of neurons spontaneously generating action potentials (i.e., some neurons are normally silent). On the other hand, Dai and Tepper (1998) have recently suggested that virtually all SNC DA neurons (Ͼ98%) are spontaneously active, even in anesthetized animals.…”
Section: Changes Following Intermittent Cocaine Injectionssupporting
confidence: 84%
“…On the other hand, Dai and Tepper (1998) have recently suggested that virtually all SNC DA neurons (Ͼ98%) are spontaneously active, even in anesthetized animals. According to these investigators, changes in the number of active neurons per track following D 2 blockade are secondary to such factors as increased firing rates or decreased electrotonic lengths of recorded neurons, which would spuriously increase the likelihood of finding slow-firing neurons or those that are distant from the recording electrode.…”
Section: Changes Following Intermittent Cocaine Injectionsmentioning
confidence: 99%
See 1 more Smart Citation
“…While drug-induced changes in the number of cells per track might well indicate changes in the proportion of spontaneously active neurons, alternative explanations have been proposed including changes in firing rate and/or changes in the extent to which the action potential invades the dendrites thereby altering the size of the extracellular field potential of the neuron. Both of these would alter the probability of encountering a neuron while lowering a microelectrode through a designated region of the brain (see discussions in Diana et al 1995a andDai andTepper 1998). For example, a reduction in the number of dopaminergic cells per track was observed after chronic ethanol administration and subsequent withdrawal and attributed to a reduced number of spontaneously active neurons due to depolarization block (Shen and Chiodo 1993).…”
Section: Effects Of Chronic Antipsychotic Drug Administrationthe mentioning
confidence: 99%
“…Almost all nigrostriatal dopaminergic neurons fire spontaneously in vivo (Tepper et al, 1984;Dai and Tepper, 1998; but see Chiodo, 1988;Floresco et al, 2003) at relatively slow rates averaging between 4 and 5 spikes/s (Bunney et al, 1973;Deniau et al, 1978;Guyenet and Aghajanian, 1978;Bunney, 1979;Grace and Bunney, 1983). The spontaneous activity exists along a continuum of firing patterns that is only loosely related to the mean rate Freeman et al, 1985;Hyland et al, 2002).…”
Section: Introductionmentioning
confidence: 99%