Stimulus Intensity Control and the Cortical Evoked Response

Buchsbaum, Monte S.; Silverman, Julian

doi:10.1097/00006842-196801000-00002

Cited by 325 publications

(109 citation statements)

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“…Evidence from both older and more recent work suggests a relationship between high intensity dependence of sensory evoked potentials and such distinct personality traits as high sensation seeking, novelty seeking, extraversion, impulsivity, and psychopathy (Barrat et al 1987;Carrillo-de-la-Pena 1992;Hegerl and Juckel 1993;Hegerl et al 1989Hegerl et al , 1995aHegerl et al , 1995bJuckel et al 1995;Lukas 1987;Raine 1989;Raine and Venables 1990;Stenberg et al 1988;Zuckerman 1990;Zuckerman et al 1988). Within the augmenting/reducing concept first proposed by Buchsbaum and Silverman (1968) a high intensity dependence (augmenting) of sensory evoked activity is viewed as reflecting a central mechanism regulating neuronal sensitivity and providing the organism with an optimal level of sensory stimulation. Moreover, a relationship between high intensity dependence of sensory evoked potentials and the development of drug or alcohol abuse is also discussed in the older literature (Zuckerman 1972).…”

Section: Discussionmentioning

confidence: 99%

“…For this purpose, we recorded auditory evoked potentials (AEP) and used the method of dipole source analysis. An old debate exists on the dependence of the amplitude of sensory evoked potentials on stimulus intensity (Buchsbaum and Silverman 1968;review in: Carillo-dela-Pena 1992;Von Knorring and Perris 1981;Von Knorring 1982;Zuckerman et al 1974Zuckerman et al , 1988. In more recent years, extensive work suggested that a high intensity dependence is associated with a low functioning of serotonergic neurotransmission (Hegerl and Juckel 1993;Hegerl et al 1994Hegerl et al , 1996Von Knorring 1982;Von Knorring and Perris 1981).…”

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confidence: 99%

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High Intensity Dependence of Auditory Evoked Dipole Source Activity Indicates Decreased Serotonergic Activity in Abstinent Ecstasy (MDMA) Users

Tuchtenhagen

2000

Neuropsychopharmacology

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Neurotoxic damage of central serotonergic systems has been demonstrated in numerous animal studies after exposure to methylenedioxyamphetamines (ecstasy). (Battaglia et al. 1987Molliver et al. 1990;O'Hearn et al. 1988;Ricaurte et al. 1985Ricaurte et al. , 1988Ricaurte et al. , 1992Schmidt et al. 1987, Wilson et al. 1989. Notably, monkeys seem to be more susceptible to the neurotoxic effects of ecstasy than lower mammals. Although recovery from neurotoxic damage was almost complete in most rats after 12 months, in nonhuman primates, neurotoxic brain alterations were still detectable as long as 18 months after MDMA-exposure Fischer et al. 1995;Ricaurte et al. 1988Ricaurte et al. , 1992. The lowest MDMA dose, which elicited long-term structural damage in serotonergic neurons of nonhuman primates, was 5mg/kg SC twice daily for 4 days . Although some heavy users take ecstasy in quantities that approach those experimental doses, the ma- Received May 25, 1999; revised October 20, 1999; accepted October 27, 1999. N EUROPSYCHOPHARMACOLOGY 2000 -VOL . 22 , NO . 6 Auditory Evoked Source Activity in Ecstasy Users 609 jority of recreational users do not. However, the threshold dose for human neurotoxicity is not clear, and humans may be more susceptible than primates. In addition, it is possible that the cumulative doses ingested by typical recreational users over a longer period of regular use bear a similar neurotoxic risk as high experimental doses administered within a short period of time.In a recent positron emission tomography (PET) study with the selective 5-HT transporter ligand McN-5652, abstinent ecstasy users showed decreased brain 5-HT transporter binding as compared with controls, and this decrease correlated with the extent of previous ecstasy use . Hence, this finding probably reflects neurotoxic brain damage. Serotonergic systems are involved in numerous functions including regulation of mood and drive, cognition, vegetative function, pain, and neuroendocrine secretion. So far, mild memory impairments (Bolla et al. 1998;Krystal et al. 1992;Morgan 1999), elevated impulsivity (Morgan 1998) and neuroendocrine abnormalities (Gerra et al. 1998;Price et al. 1989) have been demonstrated in abstinent ecstasy users. In addition, depressive and anxiety disorders after ecstasy use might also reflect, at least in part, a neurotoxic serotonergic damage (Benazzi and Mazzoli 1991;Gouzoulis-Mayfrank et al. 1996;Green et al. 1995;McCann and Ricaurte 1991;McGuire et al. 1994;Pallanti and Mazzi 1992).The aim of our investigation was to study an aspect of information processing in abstinent ecstasy users, which is thought to reflect the level of central serotonergic neurotransmission (Hegerl and Juckel 1993). For this purpose, we recorded auditory evoked potentials (AEP) and used the method of dipole source analysis. An old debate exists on the dependence of the amplitude of sensory evoked potentials on stimulus intensity (Buchsbaum and Silverman 1968; review in: Carillo-dela-Pena 1992;Von Knorring and Perris 1981;Von Kn...

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

High Intensity Dependence of Auditory Evoked Dipole Source Activity Indicates Decreased Serotonergic Activity in Abstinent Ecstasy (MDMA) Users

Tuchtenhagen

2000

Neuropsychopharmacology

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“…Interestingly, the pattern of increased P2 amplitude intensity slopes observed in the present sample of combat veterans with PTSD is strikingly similar to that reported in our previous study of female Vietnam nurse veterans with PTSD [11] (Figures 1 and 2). Additionally, the repeated measures ANOVA for P2 amplitude revealed a significant main effect for stimulus (F (3,129) = 53.0, p < 0.001) and a significant diagnosis × stimulus interaction (F (3,129) = 3.8, p = 0.04) but no main effect for diagnosis (F (1,43) = 1.3, p = 0.26). Follow-up t-test comparisons indicated that the groups did not significantly differ in P2 amplitude to the 74 dB (t (43) = 0.0 p = 0.99), 84 dB (t (43) = -1.0, p = 0.37), 94 dB (t (43) = -1.2, p = 0.24), or 104 dB (t (43) = -1.6, p = 0.11) tone.…”

Section: Electrophysiological Datamentioning

confidence: 91%

“…Because PTSD is characterized by heightened nervous system sensitivity, Paige and colleagues proposed that veterans with PTSD would show a reduction in the amplitude of the P2 component at higher tone-intensity levels, producing a shallow amplitude intensity slope [1]. Termed "reducing" by early investigators [3], this ERP response pattern of decreased intensity dependence is believed to reflect a protectively tuned sensory system that protects the organism from sensory overload via a central gating mechanism. In contrast, the opposite pattern of increasing amplitudes in response to increasing stimulus intensities (i.e., "augmenting" or increased intensity dependence) has been linked to a cortex tuned to seek out increases in stimulus intensity.…”

Section: Introductionmentioning

confidence: 99%

Intensity dependence of auditory P2 in monozygotic twins discordant for Vietnam combat: Associations with posttraumatic stress disorder

Metzger

Pitman²,

Miller³

et al. 2008

JRRD

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Abstract-Two studies have reported decreased intensity dependence of the P2 event-related potential (ERP) in male combat veterans with posttraumatic stress disorder (PTSD), a response pattern presumed to reflect central nervous systeminduced protective inhibition and heightened central serotonergic activity. We used an identical twin, case-control design to investigate whether intensity dependence abnormalities reflect pretrauma vulnerability or are an acquired consequence of PTSD. ERPs were measured in male Vietnam combat veterans and their noncombat-exposed monozygotic twin brothers during a four-tone, stimulus-intensity modulation procedure. Contrary to previous findings in male veterans, the PTSD group had significantly steeper P2 amplitude intensity slopes, similar to those reported for female veterans and abused children with PTSD. Additionally, increased P2 amplitude intensity slope was associated with increased PTSD symptom severity, particularly the severity of reexperiencing symptoms. A mixed-model, random-effects analysis that included the combat-unexposed twins revealed a significant diagnosis by combat exposure interaction. Inspection of group means suggests that the observed increased P2 intensity dependence is a consequence of PTSD. Our findings further suggest that low serotonergic tone may emerge as one potential consequence of this disorder.

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“…When stimuli are delivered at increasing intensity, the evoked cortical responses increase in certain individu als, but decrease in others. 98 This so called augmentingreducing response has been widely studied, mainly in the context of auditory stimuli. The intensity depend ence of AEPs (IDAP) is expressed by the amplitudestimulus intensity slope of the cortical N1-P2 wave, where N1 is the greatest negative component 60-150 ms post stimulus and P1 is the greatest positivity from 120-200 ms. Interestingly, IDAP correlates inversely with central serotonergic transmission, as evaluated indirectly by biochemical and pharmacological methods.…”

Section: Amplitude-stimulus Intensity Functionmentioning

confidence: 99%

Altered processing of sensory stimuli in patients with migraine

et al. 2014

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| Migraine is a cyclic disorder, in which functional and morphological brain changes fluctuate over time, culminating periodically in an attack. In the migrainous brain, temporal processing of external stimuli and sequential recruitment of neuronal networks are often dysfunctional. These changes reflect complex CNS dysfunction patterns. Assessment of multimodal evoked potentials and nociceptive reflex responses can reveal altered patterns of the brain's electrophysiological activity, thereby aiding our understanding of the pathophysiology of migraine. In this Review, we summarize the most important findings on temporal processing of evoked and reflex responses in migraine. Considering these data, we propose that thalamocortical dysrhythmia may be responsible for the altered synchronicity in migraine. To test this hypothesis in future research, electrophysiological recordings should be combined with neuroimaging studies so that the temporal patterns of sensory processing in patients with migraine can be correlated with the accompanying anatomical and functional changes.

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Stimulus Intensity Control and the Cortical Evoked Response

Cited by 325 publications

References 19 publications

High Intensity Dependence of Auditory Evoked Dipole Source Activity Indicates Decreased Serotonergic Activity in Abstinent Ecstasy (MDMA) Users

High Intensity Dependence of Auditory Evoked Dipole Source Activity Indicates Decreased Serotonergic Activity in Abstinent Ecstasy (MDMA) Users

Intensity dependence of auditory P2 in monozygotic twins discordant for Vietnam combat: Associations with posttraumatic stress disorder

Altered processing of sensory stimuli in patients with migraine

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