1994

, , , , ,

Auditory event-related potentials dissociate early and late memory processes

, , , , ,

Authors:

  • Linda L. Chao

  • Lynn Nielsen-Bohlman

  • Robert T. Knight

Date: 1994

PubMed: 7535221

View PDF

Abstract:

Event-related potentials (ERPs) to environmental sounds were recorded from 15 young control subjects in an auditory recognition memory task. Subjects listened to a continuous string of binaurally presented sounds, 20% of which were presented once and 80% were repeated. Of the repeated sounds, some repeated immediately after the initial presentation (2 sec; short delay repetition) while others repeated after 2-6 intervening sounds (4-12 sec; long delay repetition). Subjects were instructed to indicate whether they had heard the sounds before by pressing a "yes" or "no" button. The initial stimulus presentation and long delay repetition stimuli generated both an N4 component and a prolonged latency P3 component while the short delay repetition stimuli elicited no N4 component and an earlier latency P3 component. Subjects' responses were faster and more accurate for short delay repetition. All stimuli generated a sustained frontal negative component (SFN). These data indicate that auditory recognition memory for environmental sounds may involve two processes. The P3 generated by both short and long delay repetition stimuli may index activation of a neocortical template matching system. The N4 generated by initial stimulus presentations and long delay repetition is proposed to measure additional activation of limbic memory systems at long retention intervals.


, , , , , , ,

Lesions of frontal cortex diminish the auditory mismatch negativity

, , , , , , ,

Authors:

  • Kimmo Ahlo

  • David L. Woods

  • Alain Algazi

  • Robert T. Knight

  • Risto Näätänen

Date: 1994

PubMed: 7525232

View PDF

Abstract:

Event-related brain potentials to non-attended auditory stimuli were recorded from patients with dorsolateral prefrontal cortex (DPFCx) lesions and from age-matched control subjects as they performed a visual reaction time task. Auditory stimuli consisted of monaural sequences of repetitive standard tones (1000 Hz) and occasional deviant tones of a higher frequency (1300 Hz). In comparison with control subjects, DPFCx patients showed enhanced P1 amplitudes (mean peak latency 50 msec), consistent with reduced frontally mediated gating of sensory input to the auditory cortex. The mismatch negativity (MMN) elicited by deviant tones was reduced in DPFCx patients over a broad latency range (130-210 msec), especially over the lesioned hemisphere and for tones delivered to the ear ipsilateral to the lesion. The results suggest that DPFCx and DPFCx-temporal projections play a critical role in involuntary orienting to physical changes in sequences of non-attended auditory stimuli.


, , ,

Auditory event-related potentials dissociate early and late memory processes

, , ,

Authors:

  • Linda L. Chao

  • Lynn Nielsen-Bohlman

  • Robert T. Knight

Date: 1994

PubMed: 7535221

View PDF

Abstract:

Event-related potentials (ERPs) to environmental sounds were recorded from 15 young control subjects in an auditory recognition memory task. Subjects listened to a continuous string of binaurally presented sounds, 20% of which were presented once and 80% were repeated. Of the repeated sounds, some repeated immediately after the initial presentation (2 sec; short delay repetition) while others repeated after 2-6 intervening sounds (4-12 sec; long delay repetition). Subjects were instructed to indicate whether they had heard the sounds before by pressing a "yes" or "no" button. The initial stimulus presentation and long delay repetition stimuli generated both an N4 component and a prolonged latency P3 component while the short delay repetition stimuli elicited no N4 component and an earlier latency P3 component. Subjects' responses were faster and more accurate for short delay repetition. All stimuli generated a sustained frontal negative component (SFN). These data indicate that auditory recognition memory for environmental sounds may involve two processes. The P3 generated by both short and long delay repetition stimuli may index activation of a neocortical template matching system. The N4 generated by initial stimulus presentations and long delay repetition is proposed to measure additional activation of limbic memory systems at long retention intervals.

, ,

Electrophysiological dissociation of rapid memory mechanisms in humans

, ,

Authors:

  • Lynn Nielsen-Bohlman

  • Robert T. Knight

Date: 1994

PubMed: 7948852

View PDF

Abstract:

Human memory involves an interaction between transient working memory and a long-term store. We found electrophysiological evidence supporting the existence of two distinct mechanisms subserving these processes. Stimuli held in memory for less than 4 s generate large, early latency P300 potentials which may index activation of a frontally-mediated rapid working memory system. Stimuli held in memory for over 4 s selectively generate N400 potentials which may reflect activation of mesial temporal cortices involved in access to the long-term store. These results suggest that memory processing in the initial 10 s after stimulus detection involves at least two distinct distributed cortical-limbic systems.

, , ,

Electrophysiological dissociation of rapid memory mechanisms in humans

, , ,

Authors:

  • Lynn Nielsen-Bohlman

  • Robert T. Knight

Date: 1994

PubMed: 7948852

View PDF

Abstract:

Human memory involves an interaction between transient working memory and a long-term store. We found electrophysiological evidence supporting the existence of two distinct mechanisms subserving these processes. Stimuli held in memory for less than 4 s generate large, early latency P300 potentials which may index activation of a frontally-mediated rapid working memory system. Stimuli held in memory for over 4 s selectively generate N400 potentials which may reflect activation of mesial temporal cortices involved in access to the long-term store. These results suggest that memory processing in the initial 10 s after stimulus detection involves at least two distinct distributed cortical-limbic systems.


, , , ,

Lesions of frontal cortex diminish the auditory mismatch negativity

, , , ,

Authors:

  • Kimmo Ahlo

  • David L. Woods

  • Alain Algazi

  • Robert T. Knight

  • Risto Näätänen

Date: 1994

PubMed: 7525232

View PDF

Abstract:

Event-related brain potentials to non-attended auditory stimuli were recorded from patients with dorsolateral prefrontal cortex (DPFCx) lesions and from age-matched control subjects as they performed a visual reaction time task. Auditory stimuli consisted of monaural sequences of repetitive standard tones (1000 Hz) and occasional deviant tones of a higher frequency (1300 Hz). In comparison with control subjects, DPFCx patients showed enhanced P1 amplitudes (mean peak latency 50 msec), consistent with reduced frontally mediated gating of sensory input to the auditory cortex. The mismatch negativity (MMN) elicited by deviant tones was reduced in DPFCx patients over a broad latency range (130-210 msec), especially over the lesioned hemisphere and for tones delivered to the ear ipsilateral to the lesion. The results suggest that DPFCx and DPFCx-temporal projections play a critical role in involuntary orienting to physical changes in sequences of non-attended auditory stimuli.

, , , ,

CT findings of hypoxic basal ganglia damage

, , , ,

Authors:

  • Thomas Yee

  • Arthur Gronner

  • Robert T. Knight

Date: 1994

PubMed: 8202772

View PDF

Abstract:

The outcome of hypoxic ischemic injury ranges from complete recovery to a persistent vegetative state or death, depending on the length of time the patient remains unconscious and the degree of associated cardiac failure. We describe three patients who were comatose from a hypoxic and/or ischemic injury and whose principal computed tomographic (CT) finding was bilateral basal ganglia hypodensities. Two of these patients were discharged from the hospital with minimal residual neurologic deficits. These cases and review of the literature suggest that ischemic basal ganglia signs on CT scan are not necessarily a predictor of severe neurologic sequelae.



, , , ,

Attention Regulation and Human Prefrontal Cortex

, , , ,

ABSTRACT

The prefrontal cortex is critical for integrative cognitive function, although it is unlikely that this capacity resides in specialized modules in prefrontal regions. Rather, prefrontal cortex appears to modulate activity in multiple cortical and subcortical regions through an extensive network of bidirectional pathways. The net result of neuronal activity in these distributed prefrontal systems sums to produce the higher level capacity attributed to this area.






AUTHORS

  • Robert T. Knight

Date: 1994

DOI: 10.1007/978-3-642-85007-3_11

View PDF


, , , ,

Event-Related Potentials Dissociate Immediate and Delayed Memory

, , , ,

ABSTRACT

According to the competition account of lexical selection in word production, conceptually driven word retrieval involves the activation of a set of candidate words in left temporal cortex and competitive selection of the intended word from this set, regulated by frontal cortical mechanisms. However, the relative contribution of these brain regions to competitive lexical selection is uncertain. In the present study, five patients with left prefrontal cortex lesions (overlapping in ventral and dorsal lateral cortex), eight patients with left lateral temporal cortex lesions (overlapping in middle temporal gyrus), and 13 matched controls performed a picture-word interference task. Distractor words were semantically related or unrelated to the picture, or the name of the picture (congruent condition). Semantic interference (related vs. unrelated), tapping into competitive lexical selection, was examined. An overall semantic interference effect was observed for the control and left-temporal groups separately. The left-frontal patients did not show a reliable semantic interference effect as a group. The left-temporal patients had increased semantic interference in the error rates relative to controls. Error distribution analyses indicated that these patients had more hesitant responses for the related than for the unrelated condition. We propose that left middle temporal lesions affect the lexical activation component, making lexical selection more susceptible to errors.





AUTHORS

  • Lynn Nielsen-Bohlman

  • Robert T. Knight

Date: 1994

DOI: 10.1007/978-1-4612-0283-7_7

View PDF


, , , , ,

Search deficits in neglect patients are dependent on size of the visual scene.

, , , , ,

Authors:

  • Mirjam Eglin

  • Lynn C. Robertson

  • Robert T. Knight

  • Peter Brugger

Date: 1994

DOI: 10.1037/0894-4105.8.3.451

View PDF

Abstract:

Patients with hemispatial neglect are impaired at moving their attention to a target on the contralesional display side. In the present study, visual display area was varied independently of the number of items displayed within the area. Patients searched for the absence of a simple visual feature in displays that produce serial search performance in normals (R. Klein, 1988; A. Treisman & J. Souther, 1985; J. M. Wolfe & C. W. Pokorny, 1990). The contralesional delay was enhanced for stimulus arrays that were distributed over a larger display area, which suggests that neglect is more severe when attention has to be moved over a larger distance. The directional disengage deficit in neglect (M. I. Posner, J. A. Walker, F. A. Friedrich, & R. D. Rafal, 1984, 1987) therefore depends on the target's relative position within a display, the number of ipsilesional items competing for attention (M. Eglin, L. C. Robertson, & R. T. Knight, 1989), and the distance of the contralesional attention movements.