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Anatomical substrates of auditory selective attention: behavioral and electrophysiological effects of posterior association cortex lesions

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ABSTRACT

Even-related brain potentials (ERPs) and reaction times (RTs) were recorded in an auditory selective attention task in control subjects and two groups of patients with lesions centered in (1) the temporal/parietal junction (T/P, n = 9); and (2) the inferior parietal lobe (IPL, n = 7). High pitched tones were presented to one ear and low pitched tones to the other in random sequences that included infrequent longer-duration tones and occasional novel sounds. Subjects attended to a specified ear and pressed a button to the longer-duration tones in that ear. IPL and T/P lesions slowed reaction times (RTs) and increased error rates, but improved one aspect of performance — patients showed less distraction than controls when targets followed novel sounds. T/P lesions reduced the amplitude of early sensory ERPs, initially over the damaged hemisphere (N1a, 70–110 ms) and then bilaterally (N1b, 110–130 ms, and N1c 130–160 ms). The reduction was accentuated for tones presented contralateral to the lesion, suggesting that N1 generators receive excitatory input primarily from the contralateral ear. IPL lesions reduced N1 amplitudes to both low frequency tones and novel sounds. Nd components associated with attentional selection were diminished over both hemispheres in the T/P group and over the lesioned hemisphere in the IPL group independent of ear of stimulation. Target and novel N2s tended to be diminished by IPL lesions but were unaffected by T/P lesions. The mismatch negativity was unaffected by either T/P or IPL lesions. The results support different roles of T/P and IPL cortex in auditory selective attention.

AUTHORS

  • David L. Woods

  • Robert T. Knight

  • Donatella Scabini

Date: 1993

DOI: 10.1016/0926-6410(93)90007-R

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A dry electrode for EEG recording

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https://drive.google.com/open?id=1NRj6LHUJcfP6gv7BRXK7cbeVT8uodgpT

Abstract:

This paper describes the design, fabrication and testing of a prototype dry surface electrode for EEG signal recording. The new dry electrode has the advantages of no need for skin preparation or conductive paste, potential for reduced sensitivity to motion artifacts and an enhanced signal-to-noise ratio. The electrode's sensing element is a 3 mm stainless steel disk which has a 2000 A (200 nm) thick nitride coating deposited onto one side. The back side of the disk is attached to an impedance converting amplifier. The prototype electrode was mounted on a copper plate attached to the scalp by a Velcro strap. The performance of this prototype dry electrode was compared to commercially available wet electrodes in 3 areas of electroencephalogram (EEG) recording: (1) spontaneous EEG, (2) sensory evoked potentials, and (3) cognitive evoked potentials. In addition to the raw EEG, the power spectra of the signals from both types of electrodes were also recorded. The results suggest that the dry electrode performs comparably to conventional electrodes for all types of EEG signal analysis. This new electrode may be useful for the production of high resolution surface maps of brain activity where a large number of electrodes or prolonged recording times are required.

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Anatomical substrates of auditory selective attention: behavioral and electrophysiological effects of posterior association cortex lesions

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Authors:

  • David L. Woods

  • Robert T. Knight

Date: 1993

PubMed: 8003922

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Abstract:

Event-related brain potentials (ERPs) and reaction times (RTs) were recorded in an auditory selective attention task in control subjects and two groups of patients with lesions centered in (1) the temporal/parietal junction (T/P, n = 9); and (2) the inferior parietal lobe (IPL, n = 7). High pitched tones were presented to one ear and low pitched tones to the other in random sequences that included infrequent longer-duration tones and occasional novel sounds. Subjects attended to a specified ear and pressed a button to the longer-duration tones in that ear. IPL and T/P lesions slowed reaction times (RTs) and increased error rates, but improved one aspect of performance--patients showed less distraction than controls when targets followed novel sounds. T/P lesions reduced the amplitude of early sensory ERPs, initially over the damaged hemisphere (N1a, 70-110 ms) and then bilaterally (N1b, 110-130 ms, and N1c 130-160 ms). The reduction was accentuated for tones presented contralateral to the lesion, suggesting that N1 generators receive excitatory input primarily from the contralateral ear. IPL lesions reduced N1 amplitudes to both low frequency tones and novel sounds. Nd components associated with attentional selection were diminished over both hemispheres in the T/P group and over the lesioned hemisphere in the IPL group independent of ear of stimulation. Target and novel N2s tended to be diminished by IPL lesions but were unaffected by T/P lesions. The mismatch negativity was unaffected by either T/P or IPL lesions. The results support different roles of T/P and IPL cortex in auditory selective attention.

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Association Cortex Contributions to the Human P3

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ABSTRACT

Event-related potentials (ERPs) assess the timing and neurophysiological basis of cognition in humans. The P3 ERP component (Desmedt et al., 1965; Sutton et al., 1965) has been associated with psychological constructs including orientation, attention, stimulus evaluation, and memory. The functional significance and neural generators of the P3 are under active investigation (Desmedt et al., 1979; Donchin, 1979; Hillyard and Picton, 1987).






AUTHORS

  • Shuhei Yamaguchi

  • Robert T. Knight

Date: 1993

DOI: doi.org/10.1007/978-1-4757-1379-4_6

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Effects of posterior association cortex lesions on brain potentials preceding self-initiated movements

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Authors:

  • Jaswinder Singh

  • Robert T. Knight

Date: 1993

PubMed: 8478676

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Abstract:

To assess the role of subregions of the posterior association cortex in movement control, we recorded movement-related potentials (MRPs) in patients who had lesions centered in the temporal-parietal junction (T-PCx; damaged areas 22, caudal 39, 40, and 42; n = 7), superior parietal cortex (ParCx; damaged areas 5, 7, rostral 39, and 40; n = 5), and posterior association cortex lesions involving both the temporal-parietal junction and the superior parietal structures (PosCx; damaged areas 7, 22, 39, 40, 41, and 42; n = 5) and in 14 age-matched normal controls. MRPs were recorded in a self-paced button-press task in which subjects performed a switch closure with the right, left, or both hands (experiment I, experiment II, and experiment III, respectively) under counter-balanced experimental conditions. Data epochs beginning 1400 msec prior to and extending to 600 msec after each motor response were recorded from scalp sites over the precentral, central, and parietal regions. Normal controls and patients with T-PCx lesions generated comparable vertex maximal, symmetrical readiness potentials (onset 1000 msec), contralaterally enhanced NS' values (onset 500 msec), and MP values (onset 100 msec) preceding voluntary self-paced movements. Extensive lesions involving the posterior association cortex reduced MRP amplitudes. Patients with selective ParCx lesions also had marked reduction of MRPs under all experimental conditions. The MRP findings coupled with clinical and behavioral data on patients with parietal-cortex lesions indicate that the superior parietal regions are part of a neural system necessary for movement preparation.

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Factors of the Wisconsin Card Sorting Test as measures of frontal-lobe function in schizophrenia and in chronic alcoholism.

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ABSTRACT

The purpose of this study was to examine the factor structure of the Wisconsin Card Sorting Test (WCST). The scores of 22 patients with schizophrenia, 20 patients with chronic alcoholism, and 16 normal control subjects were entered into a principal components analysis, which yielded three factors: Perseveration, Inefficient Sorting, and Nonperseverative Errors. WCST performance of seven patients with lesions invading the dorsolateral prefrontal cortex, available from another study, provided criterion validity for the Perseveration factor and, less strongly, for the Inefficient Sorting factor. Two patterns of performance characterized the three patient groups: the schizophrenic group and frontal lobe group had the highest Perseveration factor scores, whereas the alcoholic group had the highest Inefficient Sorting scores; the Nonperseverative Errors factor showed no significant group differences. Construct validity of these factors involved assessing, in all but the frontal group, the degree of overlap (convergent validity) and separation (discriminant validity) of each WCST factor with scores from tests of other cognitive functions. The convergent and discriminant validity of the Perseveration factor, but not the remaining two factors, received support only within the group of schizophrenic patients.






AUTHORS

  • Edith V. Sullivan

  • Daniel H. Mathalon 

  • Robert B. Zipursky

  • Zoe Kersteen-Tucker 

  • Robert T. Knight

  • Adolf Pfefferbaum

Date: 1993

DOI: 10.1016/0165-1781(93)90019-D

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Differential effects of semantic and identity priming in patients with left and right hemisphere lesions

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Authors:

  • Avishai Henik

  • Nina F. Dronkers

  • Robert T. Knight

  • Alicia Osimani

Date: 1993

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Abstract:

Patients with single brain lesions in the anterior or posterior left and right hemispheres and a group of controls were studied in two priming experiments. The first experiment employed associative pairs (DOCTOR-NURSE) and the second employed identical pairs (NURSE-nurse). Short and long prime-target stimulus onset asynchronies (SOAs) (i.e., 250 and 1850 msec) were manipulated within block in both experiments. In the first experiment, patients with left hemisphere injury showed a deficient priming effect while patients with right hemisphere injury and controls showed a normal pattern. In contrast, all groups showed an identity priming effect in the second experiment. These results indicate that while entries in the mental lexicon are available for the groups of patients studied, the spread of activation to related concepts in this lexicon is disrupted in the left hemisphere-damaged group.

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Cognitive neuropsychology is more than single-case studies

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Authors:

  • Lynn C. Robertson

  • Robert T. Knight

  • Robert Rafal

  • Arthur P. Shimamura

Date: 1993

PubMed: 8347215

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Abstract:

S. M. Sokol et al. (1991) claim that "The Cognitive Neuropsychology Approach" (p. 355) is limited to the single-case study design. The present article takes issue with this claim. Contrary to the beliefs of Sokol et al., we argue (a) that cognitive modularity is best studied by group design, (b) that the possibility of neural reorganization in patients should be tested through converging evidence from different populations using various methods, and (c) that cognitive neuropsychology can benefit from being a part of cognitive neuroscience where both neural and cognitive mechanisms underlying normal cognition are relevant.

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P3-like potentials in rats

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Authors:

  • Shuhei Yamaguchi

  • Howard Globus

  • Robert T. Knight

Date: 1992

PubMed: 7681756

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Abstract:

Auditory event-related potentials (ERPs) were recorded from the skull surface in unrestrained, unanesthetized rats. Infrequent deviant tones presented randomly within a sequence of repetitive tones enhanced a long-latency positive component peaking at 240 msec. This rodent ERP was comparable to the human P3a component in latency and sensitivity to stimulus probability. The rodent may provide a useful model for investigation of the neural sources of the P3.

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Multiple brain systems generating the rat auditory evoked potential. II. Dissociation of auditory cortex and non-lemniscal generator systems

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Authors:

  • Gregory V. Simpson

  • Robert T. Knight

Date: 1992

PubMed: 8448670

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Abstract:

This study addressed the issue of multiple parallel auditory processing systems and their relationship to the skull-recorded auditory evoked potentials (AEPs) in the unanesthetized, unrestrained rat. In the preceding paper (Brain Res., 602 (1993) 240-250) it has been shown that auditory cortex activity does not contribute significantly to the vertex maximal AEPs recorded from the dorsal skull of the rat. In the present study, mapping of the AEP skull distribution revealed two sets of components: one set maximal at the dorsal skull vertex, and another set at the lateral skull), but not the early (P7-P11, N15) lateral skull components generated in auditory cortex. Bilateral auditory cortex ablation eliminated the lateral skull maximal AEP components, but not the dorsal skull maximal components. These findings support extensive parallel processing of auditory inputs (reflected by the dorsal AEPs) in the absence of primary auditory cortex. Ablation of primary auditory cortex did result in a modulation of the dorsal skull AEPs, indicative of an interaction between the geniculocortical system and the parallel system which generates the dorsal AEPs.

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Multiple brain systems generating the rat auditory evoked potential. I. Characterization of the auditory cortex response

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Authors:

  • Gregory V. Simpson

  • Robert T. Knight

Date: 1992

PubMed: 8448669

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Abstract:

The objectives of this study were to characterize the auditory cortex response in the rat and to examine its contributions to the auditory evoked potentials (AEPs) recorded from the dorsal and lateral skull. This was accomplished by simultaneously recording AEPs from the cortical surface and from skull screw electrodes in anesthetized animals. The initial positive-negative response (P17-N32) was largely restricted to the cortical region corresponding to area 41. More detailed examination of the AEP mapping revealed multiple subcomponents (P9, P14, P17, P19) underlying the initial positivity, with differing topographies. Stimulus-response properties further dissociated the multiple positive subcomponents. Reversible local neurochemical suppression confirmed the auditory cortical origin of these AEPs. The auditory cortex-generated AEPs were refractory to barbiturate anesthesia which eliminated all dorsal skull AEPs, indicating that primary auditory cortical AEPs do not make a significant contribution to the dorsal skull-recorded ('vertex') AEPs. The findings raise issues regarding multiple parallel auditory processing systems and their associated AEPs.

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Intact implicit memory in patients with frontal lobe lesions

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Authors:

  • Arthur P. Shimamura

  • Felicia B. Gershberg

  • Paul J. Jurica

  • Jennifer A. Mangels

  • Robert T. Knight

Date: 1992

PubMed: 1436439

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Abstract:

Patients with frontal lobe lesions and control subjects were administered tests of word-stem completion priming. In this implicit memory test, subjects are first presented words (e.g. MOTEL, PARADE) in an incidental learning paradigm. Following word presentation, subjects are shown word stems (e.g. MOT, PAR) and asked to produce the first word that comes to mind. Patients with frontal lobe lesions exhibited normal levels of word-stem completion. These findings indicate that implicit memory can operate normally despite damage to the prefrontal cortex. The present results substantiate previous neuropsychological and positron emission tomography findings which indicate that word priming depends critically on posterior cortical areas.

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Abnormal premovement brain potentials in schizophrenia

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Authors:

  • Jaswinder Singh

  • Robert T. Knight

  • Nicholas Rosenlicht

  • Joan M. Kotun

  • Dennis J. Beckley

  • David L. Woods

Date: 1992

PubMed: 1358184

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Abstract:

We assessed scalp-recorded movement related potentials (MRPs) generated prior to voluntary movements in chronic, medicated schizophrenics (n = 9) and age matched normal controls (n = 9). MRPs were recorded in a self-paced button press task in which subjects pressed a button with either their right, left or both thumbs (experimental condition I, II and III respectively). Controls generated a slowly rising readiness potential (RP) at about 1000 ms, a negative shift (NS') at about 450 ms and a motor potential (MP) at about 100 ms prior to movement. The initial MRP components (RP and NS') were reduced in schizophrenics indicating an impairment of the voluntary preparatory process in schizophrenia. Results of the present study indicate a similarity of MRP findings in schizophrenics and reported MRPs (Singh and Knight, 1990) in patients with unilateral lesions of the dorsolateral prefrontal cortex. These findings provide further support for frontal lobe dysfunction in schizophrenia.

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Potential of telephonic and television technology for appraising and diagnosing neurogenic communication disorders in remote settings

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Authors:

  • Robert T. Wertz

  • Nina F. Dronkers

  • Ellen Bernstein-Ellis

  • Lisa K. Sterling

  • Yvonne Shubitowski

  • Roberta Elman

  • Gregory K Shenaut

  • Robert T. Knight

  • Jon L. Deal

Date: 1992

External link to publication

Abstract:

Telephonic and television technology was employed in a simulation study to determine its potential for providing appraisal and diagnosis of patients who suffer neurogenic communication disorders and reside in remote settings. Traditional, face-to-face appraisal and diagnosis was compared with appraisal and diagnosis by closed circuit television and computer-controlled video laserdisc over the telephone. Significant agreement in diagnosis among the three appraisal conditions and essentially the same performance on appraisal measures in all conditions suggests either closed circuit television or computer-controlled video laserdisc over the telephone could be substituted for traditional, face-to-face appraisal and diagnosis to reach patients who reside where traditional services do not exist.

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Effects of temporal-parietal lesions on the somatosensory P3 to lower limb stimulation

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Authors:

  • Shuhei Yamaguchi

  • Robert T. Knight

Date: 1991

PubMed: 1372228

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Abstract:

Temporal-parietal junction lesions reduce the auditory and upper limb somatosensory P3 event-related potential (ERP) to target and novel stimuli. The current study examined the somatosensory P3 to target and novel stimuli delivered to the sole of the foot in patients with unilateral temporal-parietal lesions (n = 6). Age-matched controls (n = 10) generated a parietal maximal target P3 and a frontal-central maximal novelty P3 ERP to foot stimulation. Unilateral temporal-parietal lesions abolished target and novelty P3 responses over all scalp sites for stimuli delivered contralateral to the lesion. The P3 was also reduced to ipsilateral stimuli at electrodes over the lesioned hemisphere with partial P3 preservation observed at electrode sites over the non-lesioned hemisphere. These results parallel the findings for upper limb stimulation and support the critical role of temporal-parietal cortex in P3 generation.

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Anterior and posterior association cortex contributions to the somatosensory P300

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Authors:

  • Shuhei Yamaguchi

  • Robert T. Knight

Date: 1991

PubMed: 2066773

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Abstract:

A P300 (P3)-evoked response is generated in a variety of mammalian species upon detection of significant environmental events. The P3 component has been proposed to index a neural system involved in attention and memory capacity. We investigated the contribution of anterior and posterior association cortex to somatosensory P3 generation. Somatosensory event-related potentials (ERPs) were recorded in controls (n = 10) and patients with unilateral lesions in temporal- parietal junction (n = 8), lateral parietal cortex (n = 8), or dorsolateral frontal cortex (n = 10). Subjects pressed a button to mechanical taps of the fifth finger (targets; p = 0.12), randomly interposed in sequences of taps to the second (standards; p = 0.76) and the third or fourth finger (tactile novels; p = 0.06). Occasional shock stimuli were delivered to the wrist (shock novels; p = 0.06). The scalp- recorded P3 was differentially affected by anterior and posterior association cortex lesions. Subjects with temporal-parietal lesions showed markedly reduced P3s to all types of stimuli at all scalp locations. The reductions were largest at the parietal electrode site over the lesioned hemisphere. Parietal patients had normal P3s for all stimulus types except for contralateral shock novels, which generated reduced P3s. Frontal lesions had reductions of the novelty P3 over frontal sites with minimal changes in the target P3. The data support the existence of multiple intracranial P3 sources. The data further indicate that association cortex in the temporal-parietal junction is critical for generating the scalp-recorded target and novelty P3s, whereas dorsolateral frontal cortex contributes preferentially to novelty P3 generation. The N2 component was reduced by parietal and frontal lesions in patients who had intact target P3s, suggesting that different neural systems underlie N2 and P3 generation.

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Cortical substrates supporting visual search in humans

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Authors:

  • Mirjam Eglin

  • Lynn C. Robertson

  • Robert T. Knight

Date: 1991

PubMed: 1822736

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Abstract:

Serial and parallel visual search tasks were presented to patients with focal lesions in dorsolateral frontal, lateral parietal, or temporal-parietal cortex. In the unilateral display conditions, search efficiency in all patient groups was similar to the normal control group for stimuli both on the ipsi- and on the contralesional side of the displays. In contrast, in the bilateral display conditions, all patient groups showed a marked delay in initiating search on the side contralateral to the lesion as compared to normal controls. This delay was more pronounced when attention demands on the ipsilateral side increased, either by making target-distractor discrimination more difficult (serial search task), or by increasing the number of ipsilateral distractor items. The contralateral deficit was evident in all patient groups, supporting the notion that dorsolateral frontal as well as posterior parietal and temporal-parietal cortex plays a critical role in visual spatial attention.

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Normal global-local analysis in patients with dorsolateral frontal lobe lesions

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Authors:

  • Lynn C. Robertson

  • Michele Lazzara

  • Robert T. Knight

Date: 1991

PubMed: 1762675

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Abstract:

The role of prefrontal cortex in the analysis of global and local levels of a visual stimulus was assessed by measuring reaction time to identify a target at one level or the other. Unlike patients with temporal-parietal lesions (STG), there were no global-local performance deficits in right or left prefrontal groups (RFL or LFL). Reallocation of attention to global and local levels was measured by examining changes in performance when the probability of a target appearing at one level or the other varied. While patients with lateral parietal lesions (IPL) have been shown to have deficits in these conditions, both RFL and LFL showed normal changes in performance. In sum, the performance of prefrontal groups differed from both IPL and STG groups but not from normal controls. These results strengthen previous arguments that posterior association cortex is crucial in responding to global and local levels of a pattern.

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Differential auditory processing continues during sleep

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Authors:

  • Lynn Nielsen-Bohlman

  • Robert T. Knight

  • David L. Woods

  • Kelly Woodward

Date: 1991

PubMed: 1717233

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Abstract:

Auditory evoked potentials (AEPs) were used to examine selective stimulus processing in sleep. In waking, repetitive stimuli generate exogenous P1, N1 and P2 components of the auditory evoked potential (AEP). Deviant stimuli generate endogenous cognitive components including the mismatch negativity (MMN), N2 and P3 components. We examined long-latency auditory evoked potentials elicited by repetitive and deviant stimuli during waking and stage II-IV sleep to assess whether stimulus deviance is detected during sleep. The waking P1, N1b and P2 had maximal amplitudes at fronto-central scalp sites, with additional peaks (N1a, N1c) at temporal sites. Deviant tones generated a frontal maximal MMN, and complex novel tones generated an additional P3 component maximal at centro-parietal sites. During stages II-IV sleep N1a, b, c amplitudes were reduced. During stage II sleep all stimuli generated increased P2 amplitudes and a late negative component (N340). Deviant stimuli generated greater P2 and N340 amplitudes than frequent stimuli in stage II sleep, as well as an additional P420 component. In stage III-IV sleep the P420 was absent and the AEP was dominated by a negativity of long duration whose amplitude increased in response to deviant stimuli. These data indicate that auditory evoked activity changes from wakefulness to sleep. The differential response to deviant sounds observed during waking and all sleep stages supports the theory that selective processing of auditory stimuli persists during sleep.