The mismatch negativity and the P3a components of the auditory event-related potentials in autistic low-functioning subjects

Ferri, Raffaele; Elia, Maurizio; Agarwal, Nivedita; Lanuzza, Bartolo; Musumeci, S; Pennisi, Giovanni

doi:10.1016/s1388-2457(03)00153-6

Cited by 185 publications

(164 citation statements)

References 37 publications

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“…Evidence for enhanced frequency discrimination ability of isolated pure tone stimuli has been found in children with ASD (Bonnel et al, 2003;Heaton, et al, 2008;O'Riordan and Passetti, 2006) and in adults with autism (although not in adults with Asperger's syndrome) in combined four-interval with two-forced choice (2IFC) frequency discrimination tasks (Bonnel et al, 2010). Furthermore, a similar pattern of ability has been observed also at neural levels in electrophysiological studies investigating neural response to changes of frequency in individuals with ASD, at the pre-attentive level (Ferri et al, 2003;Gomot et al, 2011;Gomot, Giard, Adrien, Barthelemy, and Bruneau, 2002;Kujala et al, 2010;Lepistö et al, 2008;.…”

mentioning

confidence: 76%

“…Under this view, the preference for insistence to sameness and the repetitive behaviours people with ASD display are thought to relate to their hyper/hypo sensitivities to detect change. Studies in preattentional auditory novelty detection and pre-attentive neural responses (e.g., MMN) in children with ASD have provided evidence of enhanced (Ferri et al, 2003), intact (Ceponiene et al, 2003;Kamner, Verbaten, Cuperus, Camfferman, and van Engeland, 1995) and reduced (Gomot et al, 2006;Seri, Cerquiglini, Pisani, and Curatolo, 1999) frequency detection. A similar pattern of results is also evident in the findings across the studies on low-level discrimination ability in ASD.…”

Section: Discussionmentioning

confidence: 99%

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The Relationship Between Auditory Processing and Restricted, Repetitive Behaviors in Adults with Autism Spectrum Disorders

Kargas

López

Reddy

et al. 2014

J Autism Dev Disord

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mentioning

confidence: 76%

Section: Discussionmentioning

confidence: 99%

The Relationship Between Auditory Processing and Restricted, Repetitive Behaviors in Adults with Autism Spectrum Disorders

Kargas

López

Reddy

et al. 2014

J Autism Dev Disord

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“…In low-functioning children with autism, Gomot et al (2006) found shorted MMN latencies to pitch change (Gomot et al 2002(Gomot et al , 2006, while Ferri et al (2003) found larger MMN amplitude for pitch changes (Ferri et al 2003). In both of these studies, controls consisted of typically developing children.…”

Section: Mismatch Negativity (Mmn)mentioning

confidence: 96%

“…In an ACRT task with high functioning children, Oades et al found a shorter N1 latency with normal performance in autism compared to age matched controls (Oades et al 1988(Oades et al , 1990. Finally, Ferri et al (2003), in a study comparing children with autism with age-matched controls, found similar shorter latency of N1 in a standard oddball paradigm, with normal reaction times and accuracies (Ferri et al 2003).…”

Section: Low-level Auditory Processingmentioning

confidence: 96%

Event Related Potentials in the Understanding of Autism Spectrum Disorders: An Analytical Review

Jeste

Nelson

2008

J Autism Dev Disord

162

160

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In this paper we critically review the literature on the use of event related potentials (ERPs) to elucidate the neural sources of the core deficits in autism. We review auditory and visual ERP studies, and then review the use of ERPs in the investigation of executive function. We conclude that, in autism, impairments likely exist in both low and higher level auditory and visual processing, with prominent impairments in the processing of social stimuli. We also discuss the putative neural circuitry underlying these deficits. As we look to the future, we posit that tremendous insight can be gained by applying ERPs to the definition of endophenotypes, which, in turn, can facilitate early diagnosis and the creation of informed interventions for children with autism. KeywordsEvent related potential (ERP); Autism; Auditory processing; Visual processing Since autism was first described by Kanner over fifty years ago (Kanner 1943), the neurobiology of this disorder has become the focus of intense scientific investigation. While extensive efforts have been made in describing the behaviors that define autism, only in recent years has progress been made to elucidate the underlying neural circuitry involved in autism, through structural and, more recently, functional neuroimaging. Through these studies has come a heightened interest in aberrant neural circuitry in autism. Of the neuroimaging tools that have been used to elucidate brain circuitry, functional electrophysiology stands alone in capacity to define early (i.e. in infancy) neural markers and endophenotypes. This technique, therefore, warrants further scrutiny. Using functional electrophysiology, defined by evoked potentials and then by event related potentials (ERPs), researchers have begun to elucidate sources of the core deficits in autism

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“…Superior pitch processing has been established regardless of stimulus complexity (e.g., for pure tones, complex tones, contours, nonwords, words and sentences) using a variety of psychophysical tasks (e.g., identification, discrimination, categorization, memory and labeling) (e.g., Bonnel et al 2003Bonnel et al , 2010Heaton 2005;Heaton et al 2008a, b, c;Järvinen-Pasley and Heaton 2007;Jones et al 2009;O'Riordan and Passetti 2006;Stanutz et al 2014). The majority of research using event-related potentials (ERP) also revealed enhanced neural detection of frequency changes in ASD at the pre-attentive level (using mismatch negativity or MMN) (e.g., Ferri et al 2003;Gomot et al 2002;Kujala et al 2007; but see Jansson-Verkasalo et al 2003; see Haesen et al 2011 for an extensive recent review of the psychophysical and electrophysiological literature on auditory processing in ASD). Relevant is also the increased prevalence of absolute pitch and musical savants in the ASD population (e.g., DePape et al 2012;Heaton et al 2008a, b, c;Miller 1989;Mottron et al 2013) and the increased prevalence of autistic traits among possessors of absolute pitch (e.g., Dohn et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Fragile Spectral and Temporal Auditory Processing in Adolescents with Autism Spectrum Disorder and Early Language Delay

Boets

Verhoeven

Wouters

et al. 2014

J Autism Dev Disord

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We investigated low-level auditory spectral and temporal processing in adolescents with autism spectrum disorder (ASD) and early language delay compared to matched typically developing controls. Auditory measures were designed to target right versus left auditory cortex processing (i.e. frequency discrimination and slow amplitude modulation (AM) detection versus gap-in-noise detection and faster AM detection), and to pinpoint the task and stimulus characteristics underlying putative superior spectral processing in ASD. We observed impaired frequency discrimination in the ASD group and suggestive evidence of poorer temporal resolution as indexed by gapin-noise detection thresholds. These findings question the evidence of enhanced spectral sensitivity in ASD and do not support the hypothesis of superior right and inferior left hemispheric auditory processing in ASD.

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The mismatch negativity and the P3a components of the auditory event-related potentials in autistic low-functioning subjects

Cited by 185 publications

References 37 publications

The Relationship Between Auditory Processing and Restricted, Repetitive Behaviors in Adults with Autism Spectrum Disorders

The Relationship Between Auditory Processing and Restricted, Repetitive Behaviors in Adults with Autism Spectrum Disorders

Event Related Potentials in the Understanding of Autism Spectrum Disorders: An Analytical Review

Fragile Spectral and Temporal Auditory Processing in Adolescents with Autism Spectrum Disorder and Early Language Delay

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