Your search keyword '"Jumana Ahmad"' showing total 32 results

1. Exploratory evidence for differences in GABAergic regulation of auditory processing in autism spectrum disorder

Author

Qiyun Huang, Hester Velthuis, Andreia C. Pereira, Jumana Ahmad, Samuel F. Cooke, Claire L. Ellis, Francesca M. Ponteduro, Nicolaas A. J. Puts, Mihail Dimitrov, Dafnis Batalle, Nichol M. L. Wong, Lukasz Kowalewski, Glynis Ivin, Eileen Daly, Declan G. M. Murphy, and Gráinne M. McAlonan

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Altered reactivity and responses to auditory input are core to the diagnosis of autism spectrum disorder (ASD). Preclinical models implicate ϒ-aminobutyric acid (GABA) in this process. However, the link between GABA and auditory processing in humans (with or without ASD) is largely correlational. As part of a study of potential biosignatures of GABA function in ASD to inform future clinical trials, we evaluated the role of GABA in auditory repetition suppression in 66 adults (n = 28 with ASD). Neurophysiological responses (temporal and frequency domains) to repetitive standard tones and novel deviants presented in an oddball paradigm were compared after double-blind, randomized administration of placebo, 15 or 30 mg of arbaclofen (STX209), a GABA type B (GABAB) receptor agonist. We first established that temporal mismatch negativity was comparable between participants with ASD and those with typical development (TD). Next, we showed that temporal and spectral responses to repetitive standards were suppressed relative to responses to deviants in the two groups, but suppression was significantly weaker in individuals with ASD at baseline. Arbaclofen reversed weaker suppression of spectral responses in ASD but disrupted suppression in TD. A post hoc analysis showed that arbaclofen-elicited shift in suppression was correlated with autistic symptomatology measured using the Autism Quotient across the entire group, though not in the smaller sample of the ASD and TD group when examined separately. Thus, our results confirm: GABAergic dysfunction contributes to the neurophysiology of auditory sensory processing alterations in ASD, and can be modulated by targeting GABAB activity. These GABA-dependent sensory differences may be upstream of more complex autistic phenotypes.

Published

2023

2. From mechanisms to markers: novel noninvasive EEG proxy markers of the neural excitation and inhibition system in humans

Author

Jumana Ahmad, Claire Ellis, Robert Leech, Bradley Voytek, Pilar Garces, Emily Jones, Jan Buitelaar, Eva Loth, Francisco Páscoa dos Santos, Adrián F. Amil, Paul F. M. J. Verschure, Declan Murphy, and Grainne McAlonan

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Brain function is a product of the balance between excitatory and inhibitory (E/I) brain activity. Variation in the regulation of this activity is thought to give rise to normal variation in human traits, and disruptions are thought to potentially underlie a spectrum of neuropsychiatric conditions (e.g., Autism, Schizophrenia, Downs’ Syndrome, intellectual disability). Hypotheses related to E/I dysfunction have the potential to provide cross-diagnostic explanations and to combine genetic and neurological evidence that exists within and between psychiatric conditions. However, the hypothesis has been difficult to test because: (1) it lacks specificity—an E/I dysfunction could pertain to any level in the neural system- neurotransmitters, single neurons/receptors, local networks of neurons, or global brain balance - most researchers do not define the level at which they are examining E/I function; (2) We lack validated methods for assessing E/I function at any of these neural levels in humans. As a result, it has not been possible to reliably or robustly test the E/I hypothesis of psychiatric disorders in a large cohort or longitudinal patient studies. Currently available, in vivo markers of E/I in humans either carry significant risks (e.g., deep brain electrode recordings or using Positron Emission Tomography (PET) with radioactive tracers) and/or are highly restrictive (e.g., limited spatial extent for Transcranial Magnetic Stimulation (TMS) and Magnetic Resonance Spectroscopy (MRS). More recently, a range of novel Electroencephalography (EEG) features has been described, which could serve as proxy markers for E/I at a given level of inference. Thus, in this perspective review, we survey the theories and experimental evidence underlying 6 novel EEG markers and their biological underpinnings at a specific neural level. These cheap-to-record and scalable proxy markers may offer clinical utility for identifying subgroups within and between diagnostic categories, thus directing more tailored sub-grouping and, therefore, treatment strategies. However, we argue that studies in clinical populations are premature. To maximize the potential of prospective EEG markers, we first need to understand the link between underlying E/I mechanisms and measurement techniques.

Published

2022

3. Facial expression recognition is linked to clinical and neurofunctional differences in autism

Author

Hannah Meyer-Lindenberg, Carolin Moessnang, Bethany Oakley, Jumana Ahmad, Luke Mason, Emily J. H. Jones, Hannah L. Hayward, Jennifer Cooke, Daisy Crawley, Rosemary Holt, Julian Tillmann, Tony Charman, Simon Baron-Cohen, Tobias Banaschewski, Christian Beckmann, Heike Tost, Andreas Meyer-Lindenberg, Jan K. Buitelaar, Declan G. Murphy, Michael J. Brammer, and Eva Loth

Subjects

Autism, Autism spectrum disorder, Facial expression recognition, Clustering analysis, Stratification biomarkers, Social brain, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Difficulties in social communication are a defining clinical feature of autism. However, the underlying neurobiological heterogeneity has impeded targeted therapies and requires new approaches to identifying clinically relevant bio-behavioural subgroups. In the largest autism cohort to date, we comprehensively examined difficulties in facial expression recognition, a key process in social communication, as a bio-behavioural stratification biomarker, and validated them against clinical features and neurofunctional responses. Methods Between 255 and 488 participants aged 6–30 years with autism, typical development and/or mild intellectual disability completed the Karolinska Directed Emotional Faces task, the Reading the Mind in the Eyes Task and/or the Films Expression Task. We first examined mean-group differences on each test. Then, we used a novel intersection approach that compares two centroid and connectivity-based clustering methods to derive subgroups based on the combined performance across the three tasks. Measures and subgroups were then related to clinical features and neurofunctional differences measured using fMRI during a fearful face-matching task. Results We found significant mean-group differences on each expression recognition test. However, cluster analyses showed that these were driven by a low-performing autistic subgroup (~ 30% of autistic individuals who performed below 2SDs of the neurotypical mean on at least one test), while a larger subgroup (~ 70%) performed within 1SD on at least 2 tests. The low-performing subgroup also had on average significantly more social communication difficulties and lower activation in the amygdala and fusiform gyrus than the high-performing subgroup. Limitations Findings of autism expression recognition subgroups and their characteristics require independent replication. This is currently not possible, as there is no other existing dataset that includes all relevant measures. However, we demonstrated high internal robustness (91.6%) of findings between two clustering methods with fundamentally different assumptions, which is a critical pre-condition for independent replication. Conclusions We identified a subgroup of autistic individuals with expression recognition difficulties and showed that this related to clinical and neurobiological characteristics. If replicated, expression recognition may serve as bio-behavioural stratification biomarker and aid in the development of targeted interventions for a subgroup of autistic individuals.

Published

2022

4. The meaning of significant mean group differences for biomarker discovery

Author

Eva Loth, Jumana Ahmad, Chris Chatham, Beatriz López, Ben Carter, Daisy Crawley, Bethany Oakley, Hannah Hayward, Jennifer Cooke, Antonia San José Cáceres, Danilo Bzdok, Emily Jones, Tony Charman, Christian Beckmann, Thomas Bourgeron, Roberto Toro, Jan Buitelaar, Declan Murphy, and Guillaume Dumas

Subjects

Biology (General), QH301-705.5

Abstract

Over the past decade, biomarker discovery has become a key goal in psychiatry to aid in the more reliable diagnosis and prognosis of heterogeneous psychiatric conditions and the development of tailored therapies. Nevertheless, the prevailing statistical approach is still the mean group comparison between “cases” and “controls,” which tends to ignore within-group variability. In this educational article, we used empirical data simulations to investigate how effect size, sample size, and the shape of distributions impact the interpretation of mean group differences for biomarker discovery. We then applied these statistical criteria to evaluate biomarker discovery in one area of psychiatric research—autism research. Across the most influential areas of autism research, effect size estimates ranged from small (d = 0.21, anatomical structure) to medium (d = 0.36 electrophysiology, d = 0.5, eye-tracking) to large (d = 1.1 theory of mind). We show that in normal distributions, this translates to approximately 45% to 63% of cases performing within 1 standard deviation (SD) of the typical range, i.e., they do not have a deficit/atypicality in a statistical sense. For a measure to have diagnostic utility as defined by 80% sensitivity and 80% specificity, Cohen’s d of 1.66 is required, with still 40% of cases falling within 1 SD. However, in both normal and nonnormal distributions, 1 (skewness) or 2 (platykurtic, bimodal) biologically plausible subgroups may exist despite small or even nonsignificant mean group differences. This conclusion drastically contrasts the way mean group differences are frequently reported. Over 95% of studies omitted the “on average” when summarising their findings in their abstracts (“autistic people have deficits in X”), which can be misleading as it implies that the group-level difference applies to all individuals in that group. We outline practical approaches and steps for researchers to explore mean group comparisons for the discovery of stratification biomarkers. Author summary Currently, a striking paradox is often found in neuropsychiatric research. On the one hand, most clinicians and researchers accept that many neuropsychiatric conditions involve tremendous individual variability. On the other hand, the prevailing statistical approach is still the mean group comparison between “cases” and “controls.” Statistically significant mean group differences tell us that a given characteristic in brain, behaviour, or genes is on average different between the 2 groups. Yet, they do not delineate variability within groups. Moreover, using autism research as an example, we show that in up to 95% of abstracts, when reporting or interpreting findings, researchers omit the “on average.” This can be misleading because it evokes the impression as though the group-level difference would generalise to all individuals with that condition. Here, we used simulations to show that the latter statement is only true at very large effect sizes. We demonstrate that across different areas of autism research, mean group differences with small to large effects indicate that approximately 45% to 68% [cases] do not have an atypicality on cognitive tests or brain structure. However, we also show that across normal and nonnormal distributions, subgroups may exist despite small or nonsignificant overall effects. We propose practical approaches and steps for researchers to use mean group comparisons as the starting point for the discovery of clinically relevant subgroups.

Published

2021

5. Modeling flexible behavior in childhood to adulthood shows age-dependent learning mechanisms and less optimal learning in autism in each age group.

Author

Daisy Crawley, Lei Zhang, Emily J H Jones, Jumana Ahmad, Bethany Oakley, Antonia San José Cáceres, Tony Charman, Jan K Buitelaar, Declan G M Murphy, Christopher Chatham, Hanneke den Ouden, Eva Loth, and EU-AIMS LEAP group

Subjects

Biology (General), QH301-705.5

Abstract

Flexible behavior is critical for everyday decision-making and has been implicated in restricted, repetitive behaviors (RRB) in autism spectrum disorder (ASD). However, how flexible behavior changes developmentally in ASD remains largely unknown. Here, we used a developmental approach and examined flexible behavior on a probabilistic reversal learning task in 572 children, adolescents, and adults (ASD N = 321; typical development [TD] N = 251). Using computational modeling, we quantified latent variables that index mechanisms underlying perseveration and feedback sensitivity. We then assessed these variables in relation to diagnosis, developmental stage, core autism symptomatology, and associated psychiatric symptoms. Autistic individuals showed on average more perseveration and less feedback sensitivity than TD individuals, and, across cases and controls, older age groups showed more feedback sensitivity than younger age groups. Computational modeling revealed that dominant learning mechanisms underpinning flexible behavior differed across developmental stages and reduced flexible behavior in ASD was driven by less optimal learning on average within each age group. In autistic children, perseverative errors were positively related to anxiety symptoms, and in autistic adults, perseveration (indexed by both task errors and model parameter estimates) was positively related to RRB. These findings provide novel insights into reduced flexible behavior in relation to clinical symptoms in ASD.

Published

2020

6. Competitive interactions affect working memory performance for both simultaneous and sequential stimulus presentation

Author

Jumana Ahmad, Garrett Swan, Howard Bowman, Brad Wyble, Anna C. Nobre, Kimron L. Shapiro, and Fiona McNab

Subjects

Medicine, Science

Abstract

Abstract Competition between simultaneously presented visual stimuli lengthens reaction time and reduces both the BOLD response and neural firing. In contrast, conditions of sequential presentation have been assumed to be free from competition. Here we manipulated the spatial proximity of stimuli (Near versus Far conditions) to examine the effects of simultaneous and sequential competition on different measures of working memory (WM) for colour. With simultaneous presentation, the measure of WM precision was significantly lower for Near items, and participants reported the colour of the wrong item more often. These effects were preserved when the second stimulus immediately followed the first, disappeared when they were separated by 500 ms, and were partly recovered (evident for our measure of mis-binding but not WM precision) when the task was altered to encourage participants to maintain the sequentially presented items together in WM. Our results show, for the first time, that competition affects the measure of WM precision, and challenge the assumption that sequential presentation removes competition.

Published

2017

7. The EU-AIMS Longitudinal European Autism Project (LEAP): design and methodologies to identify and validate stratification biomarkers for autism spectrum disorders

Author

Eva Loth, Tony Charman, Luke Mason, Julian Tillmann, Emily J. H. Jones, Caroline Wooldridge, Jumana Ahmad, Bonnie Auyeung, Claudia Brogna, Sara Ambrosino, Tobias Banaschewski, Simon Baron-Cohen, Sarah Baumeister, Christian Beckmann, Michael Brammer, Daniel Brandeis, Sven Bölte, Thomas Bourgeron, Carsten Bours, Yvette de Bruijn, Bhismadev Chakrabarti, Daisy Crawley, Ineke Cornelissen, Flavio Dell’ Acqua, Guillaume Dumas, Sarah Durston, Christine Ecker, Jessica Faulkner, Vincent Frouin, Pilar Garces, David Goyard, Hannah Hayward, Lindsay M. Ham, Joerg Hipp, Rosemary J. Holt, Mark H. Johnson, Johan Isaksson, Prantik Kundu, Meng-Chuan Lai, Xavier Liogier D’ardhuy, Michael V. Lombardo, David J. Lythgoe, René Mandl, Andreas Meyer-Lindenberg, Carolin Moessnang, Nico Mueller, Laurence O’Dwyer, Marianne Oldehinkel, Bob Oranje, Gahan Pandina, Antonio M. Persico, Amber N. V. Ruigrok, Barbara Ruggeri, Jessica Sabet, Roberto Sacco, Antonia San José Cáceres, Emily Simonoff, Roberto Toro, Heike Tost, Jack Waldman, Steve C. R. Williams, Marcel P. Zwiers, Will Spooren, Declan G. M. Murphy, and Jan K. Buitelaar

Subjects

Biomarkers, Cognition, Neuroimaging, MRI, EEG, Eye-tracking, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background The tremendous clinical and aetiological diversity among individuals with autism spectrum disorder (ASD) has been a major obstacle to the development of new treatments, as many may only be effective in particular subgroups. Precision medicine approaches aim to overcome this challenge by combining pathophysiologically based treatments with stratification biomarkers that predict which treatment may be most beneficial for particular individuals. However, so far, we have no single validated stratification biomarker for ASD. This may be due to the fact that most research studies primarily have focused on the identification of mean case-control differences, rather than within-group variability, and included small samples that were underpowered for stratification approaches. The EU-AIMS Longitudinal European Autism Project (LEAP) is to date the largest multi-centre, multi-disciplinary observational study worldwide that aims to identify and validate stratification biomarkers for ASD. Methods LEAP includes 437 children and adults with ASD and 300 individuals with typical development or mild intellectual disability. Using an accelerated longitudinal design, each participant is comprehensively characterised in terms of clinical symptoms, comorbidities, functional outcomes, neurocognitive profile, brain structure and function, biochemical markers and genomics. In addition, 51 twin-pairs (of which 36 had one sibling with ASD) are included to identify genetic and environmental factors in phenotypic variability. Results Here, we describe the demographic characteristics of the cohort, planned analytic stratification approaches, criteria and steps to validate candidate stratification markers, pre-registration procedures to increase transparency, standardisation and data robustness across all analyses, and share some ‘lessons learnt’. A clinical characterisation of the cohort is given in the companion paper (Charman et al., accepted). Conclusion We expect that LEAP will enable us to confirm, reject and refine current hypotheses of neurocognitive/neurobiological abnormalities, identify biologically and clinically meaningful ASD subgroups, and help us map phenotypic heterogeneity to different aetiologies.

Published

2017

8. The EU-AIMS Longitudinal European Autism Project (LEAP): clinical characterisation

Author

Tony Charman, Eva Loth, Julian Tillmann, Daisy Crawley, Caroline Wooldridge, David Goyard, Jumana Ahmad, Bonnie Auyeung, Sara Ambrosino, Tobias Banaschewski, Simon Baron-Cohen, Sarah Baumeister, Christian Beckmann, Sven Bölte, Thomas Bourgeron, Carsten Bours, Michael Brammer, Daniel Brandeis, Claudia Brogna, Yvette de Bruijn, Bhismadev Chakrabarti, Ineke Cornelissen, Flavio Dell’ Acqua, Guillaume Dumas, Sarah Durston, Christine Ecker, Jessica Faulkner, Vincent Frouin, Pilar Garcés, Lindsay Ham, Hannah Hayward, Joerg Hipp, Rosemary J. Holt, Johan Isaksson, Mark H. Johnson, Emily J. H. Jones, Prantik Kundu, Meng-Chuan Lai, Xavier Liogier D’ardhuy, Michael V. Lombardo, David J Lythgoe, René Mandl, Luke Mason, Andreas Meyer-Lindenberg, Carolin Moessnang, Nico Mueller, Laurence O’Dwyer, Marianne Oldehinkel, Bob Oranje, Gahan Pandina, Antonio M. Persico, Barbara Ruggeri, Amber N. V. Ruigrok, Jessica Sabet, Roberto Sacco, Antonia San Jóse Cáceres, Emily Simonoff, Roberto Toro, Heike Tost, Jack Waldman, Steve C. R. Williams, Marcel P. Zwiers, Will Spooren, Declan G. M. Murphy, and Jan K. Buitelaar

Subjects

Autism, Autism spectrum disorder, Phenotype, Behaviours, Heterogeneity, Sex, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background The EU-AIMS Longitudinal European Autism Project (LEAP) is to date the largest multi-centre, multi-disciplinary observational study on biomarkers for autism spectrum disorder (ASD). The current paper describes the clinical characteristics of the LEAP cohort and examines age, sex and IQ differences in ASD core symptoms and common co-occurring psychiatric symptoms. A companion paper describes the overall design and experimental protocol and outlines the strategy to identify stratification biomarkers. Methods From six research centres in four European countries, we recruited 437 children and adults with ASD and 300 controls between the ages of 6 and 30 years with IQs varying between 50 and 148. We conducted in-depth clinical characterisation including a wide range of observational, interview and questionnaire measures of the ASD phenotype, as well as co-occurring psychiatric symptoms. Results The cohort showed heterogeneity in ASD symptom presentation, with only minimal to moderate site differences on core clinical and cognitive measures. On both parent-report interview and questionnaire measures, ASD symptom severity was lower in adults compared to children and adolescents. The precise pattern of differences varied across measures, but there was some evidence of both lower social symptoms and lower repetitive behaviour severity in adults. Males had higher ASD symptom scores than females on clinician-rated and parent interview diagnostic measures but not on parent-reported dimensional measures of ASD symptoms. In contrast, self-reported ASD symptom severity was higher in adults compared to adolescents, and in adult females compared to males. Higher scores on ASD symptom measures were moderately associated with lower IQ. Both inattentive and hyperactive/impulsive ADHD symptoms were lower in adults than in children and adolescents, and males with ASD had higher levels of inattentive and hyperactive/impulsive ADHD symptoms than females. Conclusions The established phenotypic heterogeneity in ASD is well captured in the LEAP cohort. Variation both in core ASD symptom severity and in commonly co-occurring psychiatric symptoms were systematically associated with sex, age and IQ. The pattern of ASD symptom differences with age and sex also varied by whether these were clinician ratings or parent- or self-reported which has important implications for establishing stratification biomarkers and for their potential use as outcome measures in clinical trials.

Published

2017

9. GABAergic regulation of auditory repetition suppression in adults with and without Autism Spectrum Disorder

Author

Qiyun Huang, Hester Velthuis, Andreia C. Pereira, Jumana Ahmad, Samuel F. Cooke, Claire L. Ellis, Francesca M. Ponteduro, Nicolaas A. J. Puts, Mihail Dimitrov, Dafnis Batalle, Nichol M. L. Wong, Lukasz Kowalewski, Glynis Ivin, Eileen Daly, Declan G. M. Murphy, and Gráinne M. McAlonan

Abstract

Suppressing responses to repetitive sounds, while staying vigilant to rare sounds, is a cross-species trait vital for survival, which is altered in autism spectrum disorder (ASD). Preclinical models implicate ϒ-aminobutyric acid (GABA) in this process. Although differences in GABA genes, post-mortem markers and bulk tissue GABA levels have been observed in ASD, the link between GABA and auditory processing in humans (with or without ASD) is largely correlational. Here, we directly evaluated the role of GABA in auditory repetition suppression in 66 adults (n = 28 with ASD). Neurophysiological responses (temporal and frequency domains) to repetitive standard tones and novel deviants presented in an oddball paradigm were compared after double-blind, randomized administration of placebo, 15 or 30 mg of arbaclofen (STX209), a GABA type B (GABAB) receptor agonist. We first established that temporal mismatch negativity was comparable between control participants and those with ASD. Next, we showed that temporal and spectral responses to repetitive standards were suppressed relative to responses to deviants in the two groups, but suppression was significantly weaker in individuals with ASD at baseline. Arbaclofen reversed weaker suppression of spectral responses in ASD but disrupted suppression in controls. An individual ‘sensitivity index’ of arbaclofen-elicited shift in suppression strongly correlated with autistic symptomatology measured using the Autism Quotient. Thus, our results confirm: GABAergic dysfunction is fundamental to the neurophysiology of auditory sensory processing alterations in ASD, which can be modulated by targeting GABABactivity; and these GABA-dependent sensory differences may be upstream of more complex autistic phenotypes.One Sentence SummaryDifferences in GABAergic function are fundamental to autistic (auditory) sensory neurobiology; but are modulated by targeting GABAB.

Published

2023

10. Autism is associated with interindividual variations of gray and white matter morphology

Author

Ting Mei, Natalie J. Forde, Dorothea L. Floris, Flavio Dell’Acqua, Richard Stones, Iva Ilioska, Sarah Durston, Carolin Moessnang, Tobias Banaschewski, Rosemary J. Holt, Simon Baron-Cohen, Annika Rausch, Eva Loth, Bethany Oakley, Tony Charman, Christine Ecker, Declan G.M. Murphy, Christian F. Beckmann, Alberto Llera, Jan K. Buitelaar, Jumana Ahmad, Sara Ambrosino, Bonnie Auyeung, Sarah Baumeister, Sven Bölte, Thomas Bourgeron, Carsten Bours, Michael Brammer, Daniel Brandeis, Claudia Brogna, Yvette de Bruijn, Bhismadev Chakrabarti, Ineke Cornelissen, Daisy Crawley, Guillaume Dumas, Jessica Faulkner, Vincent Frouin, Pilar Garcés, David Goyard, Lindsay Ham, Hannah Hayward, Joerg Hipp, Rosemary Holt, Mark H. Johnson, Emily J.H. Jones, Prantik Kundu, Meng-Chuan Lai, Xavier Liogier d’Ardhuy, Michael V. Lombardo, David J. Lythgoe, René Mandl, Andre Marquand, Luke Mason, Maarten Mennes, Andreas Meyer-Lindenberg, Nico Mueller, Laurence O’Dwyer, Marianne Oldehinkel, Bob Oranje, Gahan Pandina, Antonio M. Persico, Barbara Ruggeri, Amber Ruigrok, Jessica Sabet, Roberto Sacco, Antonia San José Cáceres, Emily Simonoff, Will Spooren, Julian Tillmann, Roberto Toro, Heike Tost, Jack Waldman, Steve C.R. Williams, Caroline Wooldridge, and Marcel P. Zwiers

Subjects

multimodal analysis, multivariate analysis, Cognitive Neuroscience, autism, Radiology, Nuclear Medicine and imaging, Neurology (clinical), gray matter, white matter, Biological Psychiatry, canonical correlation analysis

Abstract

Background: Although many studies have explored atypicalities in gray matter (GM) and white matter (WM) morphology of autism, most of them relied on unimodal analyses that did not benefit from the likelihood that different imaging modalities may reflect common neurobiology. We aimed to establish brain patterns of modalities that differentiate between individuals with and without autism and explore associations between these brain patterns and clinical measures in the autism group. Methods: We studied 183 individuals with autism and 157 nonautistic individuals (age range, 6–30 years) in a large, deeply phenotyped autism dataset (EU-AIMS LEAP [European Autism Interventions—A Multicentre Study for Developing New Medications Longitudinal European Autism Project]). Linked independent component analysis was used to link all participants’ GM volume and WM diffusion tensor images, and group comparisons of modality shared variances were examined. Subsequently, we performed univariate and multivariate brain-behavior correlation analyses to separately explore the relationships between brain patterns and clinical profiles. Results: One multimodal pattern was significantly related to autism. This pattern was primarily associated with GM volume in bilateral insula and frontal, precentral and postcentral, cingulate, and caudate areas and co-occurred with altered WM features in the superior longitudinal fasciculus. The brain-behavior correlation analyses showed a significant multivariate association primarily between brain patterns that involved variation of WM and symptoms of restricted and repetitive behavior in the autism group. Conclusions: Our findings demonstrate the assets of integrated analyses of GM and WM alterations to study the brain mechanisms that underpin autism and show that the complex clinical autism phenotype can be interpreted by brain covariation patterns that are spread across the brain involving both cortical and subcortical areas.

Published

2022

11. GABA B receptor modulation of visual sensory processing in adults with and without autism spectrum disorder

Author

Qiyun Huang, Andreia C. Pereira, Hester Velthuis, Nichol M. L. Wong, Claire L. Ellis, Francesca M. Ponteduro, Mihail Dimitrov, Lukasz Kowalewski, David J. Lythgoe, Diana Rotaru, Richard A. E. Edden, Alison Leonard, Glynis Ivin, Jumana Ahmad, Charlotte M. Pretzsch, Eileen Daly, Declan G. M. Murphy, and Gráinne M. McAlonan

Subjects

General Medicine

Abstract

Differences in GABAergic function are critical to autistic visual sensory neurobiology and can be modulated by targeting GABA B .

Published

2022

12. GABA

Author

Qiyun, Huang, Andreia C, Pereira, Hester, Velthuis, Nichol M L, Wong, Claire L, Ellis, Francesca M, Ponteduro, Mihail, Dimitrov, Lukasz, Kowalewski, David J, Lythgoe, Diana, Rotaru, Richard A E, Edden, Alison, Leonard, Glynis, Ivin, Jumana, Ahmad, Charlotte M, Pretzsch, Eileen, Daly, Declan G M, Murphy, and Gráinne M, McAlonan

Subjects

Adult, Magnetic Resonance Spectroscopy, Receptors, GABA, Autism Spectrum Disorder, Visual Perception, Evoked Potentials, Visual, Humans, gamma-Aminobutyric Acid

Abstract

Sensory atypicalities in autism spectrum disorder (ASD) are thought to arise at least partly from differences in γ-aminobutyric acid (GABA) receptor function. However, the evidence to date has been indirect, arising from correlational studies in patients and preclinical models. Here, we evaluated the role of GABA receptor directly, in 44 adults (

Published

2022

13. Cerebellar Atypicalities in Autism?

Author

Charles Laidi, Dorothea L. Floris, Julian Tillmann, Yannis Elandaloussi, Mariam Zabihi, Tony Charman, Thomas Wolfers, Sarah Durston, Carolin Moessnang, Flavio Dell’Acqua, Christine Ecker, Eva Loth, Declan Murphy, Simon Baron-Cohen, Jan K. Buitelaar, Andre F. Marquand, Christian F. Beckmann, Vincent Frouin, Marion Leboyer, Edouard Duchesnay, Pierrick Coupé, Josselin Houenou, null Tobias Banaschewski, Antonio Persico, Antonia San Jose Caceres, Hannah Hayward, Daisy Crawley, Jessica Faulkner, Jessica Sabet, Claire Ellis, Bethany Oakley, Rosemary Holt, Sara Ambrosino, Nico Bast, Sarah Baumeister, Annika Rausch, Carsten Bours, Ineke Cornelissen, Daniel von Rhein, Larry O’Dwyer, Jumana Ahmad, Emily Simonoff, IMRB - 'Neuropsychiatrie translationnelle' [Créteil] (U955 Inserm - UPEC), Institut Mondor de Recherche Biomédicale (IMRB), Institut National de la Santé et de la Recherche Médicale (INSERM)-IFR10-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-Institut National de la Santé et de la Recherche Médicale (INSERM)-IFR10-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12), Service NEUROSPIN (NEUROSPIN), Université Paris-Saclay-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Radboud University [Nijmegen], IMRB - 'NeuroPsychologie Interventionnelle' [Créteil] (U955 Inserm - UPEC), University of Oslo (UiO), University Medical Center [Utrecht], Universität Heidelberg [Heidelberg] = Heidelberg University, King‘s College London, Goethe-Universität Frankfurt am Main, University of Cambridge [UK] (CAM), Radboud University Medical Center [Nijmegen], Laboratoire Bordelais de Recherche en Informatique (LaBRI), Université de Bordeaux (UB)-École Nationale Supérieure d'Électronique, Informatique et Radiocommunications de Bordeaux (ENSEIRB)-Centre National de la Recherche Scientifique (CNRS), Patch-based processing for medical and natural images (PICTURA), Université de Bordeaux (UB)-École Nationale Supérieure d'Électronique, Informatique et Radiocommunications de Bordeaux (ENSEIRB)-Centre National de la Recherche Scientifique (CNRS)-Université de Bordeaux (UB)-École Nationale Supérieure d'Électronique, Informatique et Radiocommunications de Bordeaux (ENSEIRB)-Centre National de la Recherche Scientifique (CNRS), Universität Heidelberg [Heidelberg], Coupé, Pierrick, Baron-Cohen, Simon [0000-0001-9217-2544], and Apollo - University of Cambridge Repository

Subjects

[SDV.MHEP.AHA] Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO], Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Parcellation, Normative Modelling, Autism Spectrum Disorder, Autism, 220 Statistical Imaging Neuroscience, behavioral disciplines and activities, Magnetic Resonance Imaging, Cohort Studies, Volumetry, nervous system, 130 000 Cognitive Neurology & Memory, Cerebellum, mental disorders, [SDV.MHEP.AHA]Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO], Humans, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], [SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Autistic Disorder, Gray Matter, Biological Psychiatry, Normative modeling, MRI

Abstract

Contains fulltext : 288245.pdf (Publisher’s version ) (Open Access) BACKGROUND: The cerebellum contains more than 50% of the brain's neurons and is involved in social cognition. Cerebellar anatomical atypicalities have repeatedly been reported in individuals with autism. However, studies have yielded inconsistent findings, likely because of a lack of statistical power, and did not capture the clinical and neuroanatomical diversity of autism. Our aim was to better understand cerebellar anatomy and its diversity in autism. METHODS: We studied cerebellar gray matter morphology in 274 individuals with autism and 219 control subjects of a multicenter European cohort, EU-AIMS LEAP (European Autism Interventions-A Multicentre Study for Developing New Medications; Longitudinal European Autism Project). To ensure the robustness of our results, we conducted lobular parcellation of the cerebellum with 2 different pipelines in addition to voxel-based morphometry. We performed statistical analyses with linear, multivariate (including normative modeling), and meta-analytic approaches to capture the diversity of cerebellar anatomy in individuals with autism and control subjects. Finally, we performed a dimensional analysis of cerebellar anatomy in an independent cohort of 352 individuals with autism-related symptoms. RESULTS: We did not find any significant difference in the cerebellum when comparing individuals with autism and control subjects using linear models. In addition, there were no significant deviations in our normative models in the cerebellum in individuals with autism. Finally, we found no evidence of cerebellar atypicalities related to age, IQ, sex, or social functioning in individuals with autism. CONCLUSIONS: Despite positive results published in the last decade from relatively small samples, our results suggest that there is no striking difference in cerebellar anatomy of individuals with autism.

Published

2022

14. The meaning of significant mean group differences for biomarker discovery

Author

Jennifer Cooke, Danilo Bzdok, Declan G. Murphy, Bethany Oakley, Hannah Hayward, Emily J.H. Jones, Roberto Toro, Antonia San José Cáceres, Guillaume Dumas, Thomas Bourgeron, Tony Charman, Christopher H. Chatham, Christian F. Beckmann, Beatriz López, Jan K. Buitelaar, Daisy Crawley, Ben Carter, Jumana Ahmad, Eva Loth, Institute of Psychiatry, Psychology & Neuroscience, King's College London, King‘s College London, University of Greenwich, F. Hoffmann-La Roche [Basel], University of Portsmouth, Montreal Neurological Institute and Hospital, McGill University = Université McGill [Montréal, Canada], Centre for Brain and Cognitive Development [Birkbeck College], Birkbeck College [University of London], Donders Institute for Brain, Cognition and Behaviour, Radboud University [Nijmegen], Génétique humaine et fonctions cognitives - Human Genetics and Cognitive Functions (GHFC (UMR_3571 / U-Pasteur_1)), Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), CHU Sainte Justine [Montréal], Quebec Artificial Intelligence Institute (Mila), EL, JA, BL, BC, DC, BO, HH, JC, ASJC, EJ, TC, CB, TB, RT, JB, DM, and GD have received funding from the Innovative Medicines Initiative 2 Joint Undertaking under grant agreement No 777394 for the project AIMS-2-TRIALS. This Joint Undertaking is a joint support from the European Union's Horizon 2020 research and innovation programme, EFPIA, AUTISM SPEAKS, Autistica, and SFARI., and European Project: 777394,H2020-JTI-IMI2-2016-10-two-stage,AIMS-2-TRIALS(2018)

Subjects

Pervasive Developmental Disorders, Autism Spectrum Disorder, Autism, Individuality, Normal Distribution, Theory of Mind, Social Sciences, Biochemistry, Standard deviation, Medical Conditions, Mathematical and Statistical Techniques, Theory of mind, Statistics, Medicine and Health Sciences, Psychology, Biology (General), Biomarker discovery, Ecology, Mental Disorders, Metaanalysis, Neuropsychiatry, Computational Theory and Mathematics, Neurology, Modeling and Simulation, Physical Sciences, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Statistical Distributions, QH301-705.5, Research and Analysis Methods, Skewness, Education, Normal distribution, Cellular and Molecular Neuroscience, Developmental Neuroscience, Neuropsychology, Genetics, medicine, Humans, Computer Simulation, Meaning (existential), Autistic Disorder, Statistical Methods, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Cognitive Psychology, Computational Biology, Biology and Life Sciences, medicine.disease, Probability Theory, Probability Distribution, [SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics, Sample size determination, Neurodevelopmental Disorders, Case-Control Studies, Sample Size, Developmental Psychology, Cognitive Science, Biomarkers, Mathematics, Neuroscience

Abstract

Over the past decade, biomarker discovery has become a key goal in psychiatry to aid in the more reliable diagnosis and prognosis of heterogeneous psychiatric conditions and the development of tailored therapies. Nevertheless, the prevailing statistical approach is still the mean group comparison between “cases” and “controls,” which tends to ignore within-group variability. In this educational article, we used empirical data simulations to investigate how effect size, sample size, and the shape of distributions impact the interpretation of mean group differences for biomarker discovery. We then applied these statistical criteria to evaluate biomarker discovery in one area of psychiatric research—autism research. Across the most influential areas of autism research, effect size estimates ranged from small (d = 0.21, anatomical structure) to medium (d = 0.36 electrophysiology, d = 0.5, eye-tracking) to large (d = 1.1 theory of mind). We show that in normal distributions, this translates to approximately 45% to 63% of cases performing within 1 standard deviation (SD) of the typical range, i.e., they do not have a deficit/atypicality in a statistical sense. For a measure to have diagnostic utility as defined by 80% sensitivity and 80% specificity, Cohen’s d of 1.66 is required, with still 40% of cases falling within 1 SD. However, in both normal and nonnormal distributions, 1 (skewness) or 2 (platykurtic, bimodal) biologically plausible subgroups may exist despite small or even nonsignificant mean group differences. This conclusion drastically contrasts the way mean group differences are frequently reported. Over 95% of studies omitted the “on average” when summarising their findings in their abstracts (“autistic people have deficits in X”), which can be misleading as it implies that the group-level difference applies to all individuals in that group. We outline practical approaches and steps for researchers to explore mean group comparisons for the discovery of stratification biomarkers., Author summary Currently, a striking paradox is often found in neuropsychiatric research. On the one hand, most clinicians and researchers accept that many neuropsychiatric conditions involve tremendous individual variability. On the other hand, the prevailing statistical approach is still the mean group comparison between “cases” and “controls.” Statistically significant mean group differences tell us that a given characteristic in brain, behaviour, or genes is on average different between the 2 groups. Yet, they do not delineate variability within groups. Moreover, using autism research as an example, we show that in up to 95% of abstracts, when reporting or interpreting findings, researchers omit the “on average.” This can be misleading because it evokes the impression as though the group-level difference would generalise to all individuals with that condition. Here, we used simulations to show that the latter statement is only true at very large effect sizes. We demonstrate that across different areas of autism research, mean group differences with small to large effects indicate that approximately 45% to 68% [cases] do not have an atypicality on cognitive tests or brain structure. However, we also show that across normal and nonnormal distributions, subgroups may exist despite small or nonsignificant overall effects. We propose practical approaches and steps for researchers to use mean group comparisons as the starting point for the discovery of clinically relevant subgroups.

Published

2021

15. Qualitative differences in the spatiotemporal brain states supporting configural face processing emerge in adolescence in autism

Author

Rianne Haartsen, Luke Mason, Pilar Garces, Anna Gui, Tony Charman, Julian Tillmann, Mark H. Johnson, Jan K. Buitelaar, Eva Loth, Declan Murphy, Emily J.H. Jones, Jumana Ahmad, Sara Ambrosino, Tobias Banaschewski, Simon Baron-Cohen, Nico Bast, Sarah Baumeister, Christian Beckmann, Sven Bölte, Thomas Bourgeron, Carsten Bours, Daniel Brandeis, Ineke Cornelissen, Daisy Crawley, Cate Davidson, Flavio Dell’ Acqua, Sarah Durston, Christine Ecker, Claire Ellis, Jessica Faulkner, Hannah Hayward, Joerg Hipp, Rosemary Holt, Meng-Chuan Lai, Claire Leblond, Andreas Meyer-Lindenberg, Carolin Moessnang, Bethany Oakley, Larry O'Dwyer, Antonio Persico, Annika Rausch, Jessica Sabet, Antonia San Jose Caceres, Emily Simonoff, Heike Tost, and Daniel von Rhein

Subjects

Adult, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Adolescent, Autism, Development, EEG, Face inversion effect, Face processing, Cognitive Neuroscience, Brain, Experimental and Cognitive Psychology, Neuropsychology and Physiological Psychology, All institutes and research themes of the Radboud University Medical Center, Humans, Autistic Disorder, Child, Facial Recognition

Abstract

Studying the neural processing of faces can illuminate the mechanisms of compromised social expertise in autism. To resolve a longstanding debate, we examined whether differences in configural face processing in autism are underpinned by quantitative differences in the activation of typical face processing pathways, or the recruitment of non-typical neural systems.We investigated spatial and temporal characteristics of event-related EEG responses to upright and inverted faces in a large sample of children, adolescents, and adults with and without autism. We examined topographic analyses of variance and global field power to identify group differences in the spatial and temporal response to face inversion. We then examined how quasi-stable spatiotemporal profiles - microstates - are modulated by face orientation and diagnostic group.Upright and inverted faces produced distinct profiles of topography and strength in the topographical analyses. These topographical profiles differed between diagnostic groups in adolescents, but not in children or adults. In the microstate analysis, the autistic group showed differences in the activation strength of normative microstates during early-stage processing at all ages, suggesting consistent quantitative differences in the operation of typical processing pathways; qualitative differences in microstate topographies during late-stage processing became prominent in adults, suggesting the increasing involvement of non-typical neural systems with processing time and over development.These findings suggest that early difficulties with configural face processing may trigger later compensatory processes in autism that emerge in later development.

Published

2021

16. How do core autism traits and associated symptoms relate to quality of life? Findings from the Longitudinal European Autism Project

Author

Emily Simonoff, Rosemary Holt, Bethany Oakley, Tobias Banaschewski, Antonia San José Cáceres, Daisy Crawley, Tony Charman, Julian Tillmann, Jan K. Buitelaar, Declan G. Murphy, Eva Loth, Jumana Ahmad, Oakley, Bethany Fm [0000-0002-1968-134X], Charman, Tony [0000-0003-1993-6549], Banaschewski, Tobias [0000-0003-4595-1144], Simonoff, Emily [0000-0002-5450-0823], and Apollo - University of Cambridge Repository

Subjects

030506 rehabilitation, Adolescent, Autism Spectrum Disorder, autism, Personal Satisfaction, Affect (psychology), 03 medical and health sciences, Quality of life (healthcare), well-being, 130 000 Cognitive Neurology & Memory, Developmental and Educational Psychology, medicine, Humans, 0501 psychology and cognitive sciences, Autistic Disorder, Everyday life, Child, Depression (differential diagnoses), Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], 05 social sciences, Original Articles, medicine.disease, anxiety, Mental health, Anxiety Disorders, quality of life, Well-being, depression, Autism, Anxiety, medicine.symptom, 0305 other medical science, Psychology, 050104 developmental & child psychology, Clinical psychology

Abstract

Previous studies have reported reduced quality of life in autism. Improving quality of life for autistic people is, therefore, a key priority for clinical research and practice. However, the relative impact of core autism traits (e.g. social-communication difficulties), as compared to associated mental health symptoms (e.g. anxiety, depression) on quality of life remains poorly understood. This is despite at least 20%–50% of autistic individuals experiencing associated anxiety and/or depression symptoms. Hence, we measured subjective quality of life in 573 six to thirty-year-olds (autism spectrum disorder N = 344), using two widely validated questionnaires. Adults self-reported on the World Health Organization Quality of Life–Brief instrument. Parents of children/adolescents completed the Child Health and Illness Profile. We assessed individual variability across both measures and modelled associations between quality of life, core autism traits, anxiety, and depression symptoms. Across both age groups and quality of life measures, autistic individuals scored lower than comparison individuals, on average, particularly for physical health in adults ( d = −1.24, 95% confidence interval: [−1.56, −0.93]) and school achievement for children/adolescents ( d = −1.06, 95% confidence interval: [−1.29, −0.84]). However, a notable proportion of autistic individuals (36%–71% across quality of life domains) did not have reduced quality of life. Across ages and quality of life measures, severity of associated symptoms was significantly related to reduced quality of life on several domains, after accounting for core autism traits. Most notably, depression symptoms were related to reduced physical/psychological well-being in both adults ( β ⩾ −0.34) and children/adolescents ( β = −0.29, 95% confidence interval: [−0.36, −0.14]). For children/adolescents, anxiety symptoms ( β ⩾ −0.28) and core social-communication difficulties ( β ⩾ −0.22) were also related to subjective quality of life outcomes. Overall, findings indicate that not all autistic individuals experience reduced subjective quality of life. Variability in quality of life is significantly influenced by associated symptoms, across developmental stage. This may provide a tractable target for mental health services to improve quality of life for autistic individuals over the lifespan. Lay abstract Previous studies suggest that some autistic individuals report lower satisfaction, or well-being, with different aspects of everyday life than those without autism. It is unclear whether this might be partly explained by symptoms of anxiety and/or depression, which affect at least 20%–50% of autistic people. In this study, we measured individual differences in well-being in 573 six to thirty-year-olds with and without a diagnosis of autism. We investigated whether individual differences in well-being were explained by autism traits (e.g. social-communication difficulties) and/or anxiety and depression symptoms. We showed that, though well-being was lower for some autistic individuals, compared to those without autism, many autistic individuals reported good well-being. Where well-being was reduced, this was particularly explained by depression symptoms, across all ages. For children/adolescents, anxiety and social-communication difficulties were also related to some aspects of well-being. Our study suggests that support and services for improving mental health, especially depression symptoms, may also improve broader outcomes for autistic people.

Published

2021

17. Modeling flexible behavior in childhood to adulthood shows age-dependent learning mechanisms and less optimal learning in autism in each age group

Author

Hanneke E. M. den Ouden, Daisy Crawley, Tony Charman, Antonia San José Cáceres, Declan G. Murphy, Lei Zhang, Christopher H. Chatham, Emily J.H. Jones, Bethany Oakley, Jan K. Buitelaar, Eva Loth, and Jumana Ahmad

Subjects

0301 basic medicine, Male, Optimal learning, Aging, Pervasive Developmental Disorders, Autism Spectrum Disorder, Autism, Social Sciences, Age dependent, Adolescents, Developmental psychology, Families, 0302 clinical medicine, Learning and Memory, Medical Conditions, Cognition, Task Performance and Analysis, Medicine and Health Sciences, Psychology, Biology (General), Child, Children, Intelligence Tests, General Neuroscience, Behavior change, Age Factors, Neurology, Autism spectrum disorder, Anxiety, Female, medicine.symptom, General Agricultural and Biological Sciences, Research Article, Adult, Adolescent, QH301-705.5, Perseveration, Decision Making, Neuropsychiatric Disorders, Biology, Models, Biological, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Young Adult, All institutes and research themes of the Radboud University Medical Center, Age groups, Developmental Neuroscience, Mental Health and Psychiatry, mental disorders, medicine, Humans, Learning, Autistic Disorder, Behavior, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], General Immunology and Microbiology, Action, intention, and motor control, Cognitive Psychology, Reproducibility of Results, Biology and Life Sciences, medicine.disease, 030104 developmental biology, Age Groups, Neurodevelopmental Disorders, Developmental Psychology, People and Places, Cognitive Science, Population Groupings, Adhd, 170 000 Motivational & Cognitive Control, 030217 neurology & neurosurgery, Neuroscience

Abstract

Flexible behavior is critical for everyday decision-making and has been implicated in restricted, repetitive behaviors (RRB) in autism spectrum disorder (ASD). However, how flexible behavior changes developmentally in ASD remains largely unknown. Here, we used a developmental approach and examined flexible behavior on a probabilistic reversal learning task in 572 children, adolescents, and adults (ASD N = 321; typical development [TD] N = 251). Using computational modeling, we quantified latent variables that index mechanisms underlying perseveration and feedback sensitivity. We then assessed these variables in relation to diagnosis, developmental stage, core autism symptomatology, and associated psychiatric symptoms. Autistic individuals showed on average more perseveration and less feedback sensitivity than TD individuals, and, across cases and controls, older age groups showed more feedback sensitivity than younger age groups. Computational modeling revealed that dominant learning mechanisms underpinning flexible behavior differed across developmental stages and reduced flexible behavior in ASD was driven by less optimal learning on average within each age group. In autistic children, perseverative errors were positively related to anxiety symptoms, and in autistic adults, perseveration (indexed by both task errors and model parameter estimates) was positively related to RRB. These findings provide novel insights into reduced flexible behavior in relation to clinical symptoms in ASD., Computational modeling of flexible choice behavior in autism spectrum disorder and typical development reveals comparable developmental shifts in dominant learning mechanisms and suggests that reduced flexible behavior in autism spectrum disorder is underpinned by less optimal probabilistic reversal learning.

Published

2020

18. Atypical Brain Asymmetry in Autism-A Candidate for Clinically Meaningful Stratification

Author

Dorothea L. Floris, Thomas Wolfers, Mariam Zabihi, Nathalie E. Holz, Marcel P. Zwiers, Tony Charman, Julian Tillmann, Christine Ecker, Flavio Dell’Acqua, Tobias Banaschewski, Carolin Moessnang, Simon Baron-Cohen, Rosemary Holt, Sarah Durston, Eva Loth, Declan G.M. Murphy, Andre Marquand, Jan K. Buitelaar, Christian F. Beckmann, Jumana Ahmad, Sara Ambrosino, Bonnie Auyeung, Sarah Baumeister, Sven Bölte, Thomas Bourgeron, Carsten Bours, Michael Brammer, Daniel Brandeis, Claudia Brogna, Yvette de Bruijn, Bhismadev Chakrabarti, Ineke Cornelissen, Daisy Crawley, Guillaume Dumas, Jessica Faulkner, Vincent Frouin, Pilar Garcés, David Goyard, Lindsay Ham, Hannah Hayward, Joerg Hipp, Mark H. Johnson, Emily J.H. Jones, Prantik Kundu, Meng-Chuan Lai, Xavier Liogier d’Ardhuy, Michael V. Lombardo, David J. Lythgoe, René Mandl, Luke Mason, Maarten Mennes, Andreas Meyer-Lindenberg, Nico Mueller, Bethany Oakley, Laurence O’Dwyer, Marianne Oldehinkel, Bob Oranje, Gahan Pandina, Antonio M. Persico, Barbara Ruggeri, Amber Ruigrok, Jessica Sabet, Roberto Sacco, Antonia San José Cáceres, Emily Simonoff, Will Spooren, Roberto Toro, Heike Tost, Jack Waldman, Steve C.R. Williams, and Caroline Wooldridge

Subjects

medicine.medical_specialty, Language delay, Autism Spectrum Disorder, Cognitive Neuroscience, Stress-related disorders Donders Center for Medical Neuroscience [Radboudumc 13], Audiology, behavioral disciplines and activities, 050105 experimental psychology, Lateralization of brain function, 150 000 MR Techniques in Brain Function, Functional Laterality, 03 medical and health sciences, 0302 clinical medicine, All institutes and research themes of the Radboud University Medical Center, mental disorders, medicine, Autism spectrum disorder, Brain asymmetry, Hemispheric specialization, Heterogeneity, Normative modeling, Humans, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, Autistic Disorder, Biological Psychiatry, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], 05 social sciences, 220 Statistical Imaging Neuroscience, Brain, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, Laterality, Autism, Neurology (clinical), Psychology, 030217 neurology & neurosurgery, Neurotypical, Neuroanatomy

Abstract

Background Autism spectrum disorder (“autism”) is a highly heterogeneous neurodevelopmental condition with few effective treatments for core and associated features. To make progress we need to both identify and validate neural markers that help to parse heterogeneity to tailor therapies to specific neurobiological profiles. Atypical hemispheric lateralization is a stable feature across studies in autism, but its potential as a neural stratification marker has not been widely examined. Methods In order to dissect heterogeneity in lateralization in autism, we used the large EU-AIMS (European Autism Interventions—A Multicentre Study for Developing New Medications) Longitudinal European Autism Project dataset comprising 352 individuals with autism and 233 neurotypical control subjects as well as a replication dataset from ABIDE (Autism Brain Imaging Data Exchange) (513 individuals with autism, 691 neurotypical subjects) using a promising approach that moves beyond mean group comparisons. We derived gray matter voxelwise laterality values for each subject and modeled individual deviations from the normative pattern of brain laterality across age using normative modeling. Results Individuals with autism had highly individualized patterns of both extreme right- and leftward deviations, particularly in language, motor, and visuospatial regions, associated with symptom severity. Language delay explained most variance in extreme rightward patterns, whereas core autism symptom severity explained most variance in extreme leftward patterns. Follow-up analyses showed that a stepwise pattern emerged, with individuals with autism with language delay showing more pronounced rightward deviations than individuals with autism without language delay. Conclusions Our analyses corroborate the need for novel (dimensional) approaches to delineate the heterogeneous neuroanatomy in autism and indicate that atypical lateralization may constitute a neurophenotype for clinically meaningful stratification in autism.

Published

2020

19. Emotion recognition abilities in adults with Anorexia Nervosa are associated with autistic traits

Author

Kate Tchanturia, Declan G. Murphy, Jumana Ahmad, Amy Harrison, Jessica Kerr-Gaffney, Eva Loth, Luke Mason, Emily J.H. Jones, and Hannah Hayward

Subjects

050103 clinical psychology, lcsh:Medicine, BF, ASD, Article, anorexia nervosa, psyc, 03 medical and health sciences, 0302 clinical medicine, emotion recognition, mental disorders, medicine, Feature (machine learning), 0501 psychology and cognitive sciences, Emotion recognition, comorbidity, attention, Group membership, business.industry, lcsh:R, 05 social sciences, General Medicine, medicine.disease, Comorbidity, Autistic traits, Autism spectrum disorder, Anorexia nervosa (differential diagnoses), Autism, business, 030217 neurology & neurosurgery, Clinical psychology

Abstract

Difficulties in socio-emotional functioning are proposed to contribute to the development and maintenance of anorexia nervosa (AN). This study aimed to examine emotion recognition abilities in individuals in the acute and recovered stages of AN compared to healthy controls (HCs). A second aim was to examine whether attention to faces and comorbid psychopathology predicted emotion recognition abilities. The films expressions task was administered to 148 participants (46 AN, 51 recovered AN, 51 HC) to assess emotion recognition, during which attention to faces was recorded using eye-tracking. Comorbid psychopathology was assessed using self-report questionnaires and the Autism Diagnostic Observation Schedule–2nd edition (ADOS-2). No significant differences in emotion recognition abilities or attention to faces were found between groups. However, individuals with a lifetime history of AN who scored above the clinical cut-off on the ADOS-2 displayed poorer emotion recognition performance than those scoring below cut-off and HCs. ADOS-2 scores significantly predicted emotion recognition abilities while controlling for group membership and intelligence. Difficulties in emotion recognition appear to be associated with high autism spectrum disorder (ASD) traits, rather than a feature of AN. Whether individuals with AN and high ASD traits may require different treatment strategies or adaptations is a question for future research.

Published

2020

20. Temporal Profiles of Social Attention Are Different Across Development in Autistic and Neurotypical People

Author

Roberto Sacco, Jumana Ahmad, Daniel Brandeis, Steve C.R. Williams, Carsten Bours, Christine Ecker, Emily Simonoff, Caroline Wooldridge, Andreas Meyer-Lindenberg, Pilar Garcés, Vincent Frouin, Thomas Bourgeron, Eva Loth, Guillaume Dumas, Jan K. Buitelaar, Andre F. Marquand, Hannah Hayward, Bethany Oakley, Joerg F. Hipp, Simon Baron-Cohen, Lindsay Ham, Michael V. Lombardo, Yvette de Bruijn, Jessica Faulkner, Declan G. Murphy, René C.W. Mandl, Sarah Baumeister, Marianne Oldehinkel, Jessica Sabet, Mark H. Johnson, Laurence O'Dwyer, Claudia Brogna, Amber N. V. Ruigrok, Frederick Shic, Bob Oranje, Ineke Cornelissen, Christian F. Beckmann, Tobias Banaschewski, Rosemary Holt, David Goyard, Michael Brammer, Daisy Crawley, Carolin Moessnang, Barbara Ruggeri, Gahan Pandina, Teresa Del Bianco, Julian Tillman, Luke Mason, Antonio M. Persico, Emily J.H. Jones, Sarah Durston, Antonia San José Cáceres, Roberto Toro, Xavier Liogier d'Ardhuy, Jack Waldman, Tony Charman, Meng-Chuan Lai, Marcel P. Zwiers, Flavio Dell'Acqua, Heike Tost, Maarten Mennes, Sven Bölte, Will Spooren, Sara Ambrosino, David J. Lythgoe, and Nico Mueller

Subjects

Adult, Adolescent, Cognitive Neuroscience, Eye contact, Social attention, Disease cluster, 050105 experimental psychology, Developmental psychology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Attention, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, Autistic Disorder, Autism spectrum disorder, Child, Biological Psychiatry, Probability, Eye tracking, 05 social sciences, Contrast (statistics), medicine.disease, Vineland Adaptive Behavior Scale, Social motivation, Neurology (clinical), Growth curve analysis, Stratification, Psychology, 030217 neurology & neurosurgery, Neurotypical

Abstract

Background Sociocommunicative difficulties, including abnormalities in eye contact, are core diagnostic features of autism spectrum disorder (ASD). Many studies have used eye tracking to measure reduced attention to faces in autistic people; however, most of this work has not taken advantage of eye-tracking temporal resolution to examine temporal profiles of attention. Methods We used growth curve analysis to model attention to static social scenes as a function of time in a large (N = 650) sample of autistic participants and neurotypical participants across a wide age range (6–30 years). Results The model yielded distinct temporal profiles of attention to faces in the groups. Initially, both groups showed a relatively high probability of attending to faces, followed by decline after several seconds. The neurotypical participants, however, were significantly more likely to return their attention to faces in the latter part of each 20-second trial, with increasing probability with age. In contrast, the probability of returning to the face in the autistic participants remained low across development. In participants with ASD, more atypical profiles of attention were associated with lower Vineland Adaptive Behavior Scales communication scores and a higher curvature in one data-driven cluster correlated with symptom severity. Conclusions These findings show that social attention not only is reduced in ASD, but also differs in its temporal dynamics. The neurotypical participants became more sophisticated in how they deployed their social attention across age, a pattern that was significantly reduced in the participants with ASD, possibly reflecting delayed acquisition of social expertise.

Published

2020

21. Facial expression recognition as a candidate marker for autism spectrum disorder: how frequent and severe are deficits?

Author

E. J. R. Watson, Lúcia Garrido, A. Duff, Eva Loth, Bradley Duchaine, and Jumana Ahmad

Subjects

Adult, Male, medicine.medical_specialty, Neurology, Adolescent, Emotions, BF, Audiology, Neuropsychological Tests, behavioral disciplines and activities, lcsh:RC346-429, 03 medical and health sciences, 0302 clinical medicine, Developmental Neuroscience, mental disorders, medicine, Feature (machine learning), Humans, 0501 psychology and cognitive sciences, Autism spectrum disorder, Molecular Biology, lcsh:Neurology. Diseases of the nervous system, Facial expression, business.industry, Research, 05 social sciences, Neuropsychology, Case-control study, Biomarker, Middle Aged, medicine.disease, Facial Expression, Psychiatry and Mental health, Case-Control Studies, RC0321, Biomarker (medicine), Autism, Female, business, Facial expression recognition, Facial Recognition, 030217 neurology & neurosurgery, 050104 developmental & child psychology, Developmental Biology, Autism Spectrum disorder

Abstract

Background Impairments in social communication are a core feature of Autism Spectrum Disorder (ASD). Because the ability to infer other people’s emotions from their facial expressions is critical for many aspects of social communication, deficits in expression recognition are a plausible candidate marker for ASD. However, previous studies on facial expression recognition produced mixed results, which may be due to differences in the sensitivity of the many tests used and/or the heterogeneity among individuals with ASD. To ascertain whether expression recognition may serve as a diagnostic marker (which distinguishes people with ASD from a comparison group) or a stratification marker (which helps to divide ASD into more homogeneous subgroups), a crucial first step is to move beyond identification of mean group differences and to better understand the frequency and severity of impairments. Methods This study tested 46 individuals with ASD and 52 age- and IQ-matched typically developing (TD) participants on the Films Expression Task, which combines three key features of real-life expression recognition: naturalistic facial expressions, a broad range of simple and complex emotions, and short presentation time. Test-retest reliability was assessed in 28 individuals who did not participate in the main study and revealed acceptable reliability (ICC r = .74). Results Case-control comparisons showed highly significant mean group differences for accuracy (p = 1.1 × 10− 10), with an effect size (Cohen’s d = 1.6), more than twice as large as the mean effect size reported in a previous meta-analysis (Uljarevic and Hamilton, 2012, J Autism Dev Disord). The ASD group also had significantly increased mean reaction times overall (p = .00015, d = .83) and on correct trials (p = .0002, d = .78). However, whereas 63% of people with ASD showed severe deficits (they performed below two standard deviations of the TD mean, a small subgroup (15.3%) performed normally (within one standard deviation of the mean). Conclusion These findings indicate that the majority of people with ASD have severe expression recognition deficits and that the Films Expression Test is a sensitive task for biomarker research in ASD. Future work is needed to establish whether ASD subgroups with and without expression recognition deficits differ from one another in terms of their symptom profile or neurobiological underpinnings. Electronic supplementary material The online version of this article (10.1186/s13229-018-0187-7) contains supplementary material, which is available to authorized users.

Published

2018

22. Modeling flexible behaviour in autism spectrum disorder and typical development

Author

Jumana Ahmad, Emily J.H. Jones, Jan K. Buitelaar, Daisy Crawley, Declan G. Murphy, Christopher H. Chatham, Zhang L, Eva Loth, Bethany Oakley, Ouden Hd, Tony Charman, and San Jose Caceres A

Subjects

Computer science, Autism spectrum disorder, mental disorders, medicine, medicine.disease, Cognitive psychology

Abstract

Flexible behavior is critical for everyday decision-making and has been implicated in restricted, repetitive behaviors (RRB) in autism spectrum disorder (ASD). However, how flexible behavior changes developmentally in ASD remains largely unknown. Here, we used a developmental approach and examined flexible behavior on a probabilistic reversal learning task in 572 children, adolescents and adults (ASD N=321; typical development, TD; N=251). Using computational modeling, we quantified latent variables that index mechanisms underlying perseveration and feedback sensitivity. We then assessed these variables in relation to diagnosis, developmental stage, core autism symptomatology and associated psychiatric symptoms. Autistic individuals showed on average more perseveration and less feedback sensitivity than TD individuals and, across cases and controls, older age groups showed more feedback sensitivity than younger age groups. Computational modeling revealed that dominant learning mechanisms underpinning flexible behavior differed across developmental stages and reduced flexible behavior in ASD was driven by less optimal learning on average within each age group. In autistic children, perseverative errors were positively related to anxiety symptoms, and in autistic adults, perseveration (indexed by both task errors and model parameters) was positively related to RRB. These findings provide novel insights into reduced flexible behavior in relation to clinical symptoms in ASD.

Published

2019

23. Altered connectivity between cerebellum, visual, and sensory-motor networks in autism spectrum disorder: Results from the EU-AIMS Longitudinal European Autism Project

Author

Marianne Oldehinkel, Maarten Mennes, Andre Marquand, Tony Charman, Julian Tillmann, Christine Ecker, Flavio Dell’Acqua, Daniel Brandeis, Tobias Banaschewski, Sarah Baumeister, Carolin Moessnang, Simon Baron-Cohen, Rosemary Holt, Sven Bölte, Sarah Durston, Prantik Kundu, Michael V. Lombardo, Will Spooren, Eva Loth, Declan G.M. Murphy, Christian F. Beckmann, Jan K. Buitelaar, Jumana Ahmad, Sara Ambrosino, Bonnie Auyeung, Thomas Bourgeron, Carsten Bours, Michael Brammer, Claudia Brogna, Yvette de Bruijn, Bhismadev Chakrabarti, Ineke Cornelissen, Daisy Crawley, Guillaume Dumas, Jessica Faulkner, Vincent Frouin, Pilar Garcés, David Goyard, Lindsay Ham, Hannah Hayward, Joerg Hipp, Mark H. Johnson, Emily J.H. Jones, Meng-Chuan Lai, Xavier Liogier D’ardhuy, David J. Lythgoe, René Mandl, Luke Mason, Andreas Meyer-Lindenberg, Nico Mueller, Bethany Oakley, Laurence O’Dwyer, Bob Oranje, Gahan Pandina, Antonio M. Persico, Barbara Ruggeri, Amber Ruigrok, Jessica Sabet, Roberto Sacco, Antonia San José Cáceres, Emily Simonoff, Roberto Toro, Heike Tost, Jack Waldman, Steve C.R. Williams, Caroline Wooldridge, Marcel P. Zwiers, Radboud University Medical Center [Nijmegen], Monash University [Melbourne], Donders Institute for Brain, Cognition and Behaviour, Radboud university [Nijmegen], Institute of Psychiatry, Psychology & Neuroscience, King's College London, King‘s College London, Goethe-University Frankfurt am Main, Universität Heidelberg [Heidelberg], Universität Zürich [Zürich] = University of Zurich (UZH), Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), Department of Child and Adolescent Psychiatry and Psychotherapy [Mannheim], University of Cambridge [UK] (CAM), Karolinska Institutet [Stockholm], Stockholm County Council, University Medical Center [Utrecht], Icahn School of Medicine at Mount Sinai [New York] (MSSM), University of Cyprus [Nicosia], Roche Pharma Research and Early Development [Basel] (pRED), F. Hoffmann-La Roche [Basel], University of Oxford [Oxford], University of Edinburgh, Génétique humaine et fonctions cognitives - Human Genetics and Cognitive Functions (GHFC (UMR_3571 / U-Pasteur_1)), Institut Pasteur [Paris]-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Università Campus Bio-Medico di Roma / University Campus Bio-Medico of Rome ( UCBM), University of Reading (UOR), Département de Chimie Moléculaire (DCM), Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), University of Nottingham, UK (UON), University of Toronto, Centre for Brain and Cognitive Development [Birkbeck College], Birkbeck College [University of London], Janssen Research & Development, This work was supported EU-AIMS, which receives support from the Innovative Medicines Initiative Joint Undertaking under Grant Agreement No. 115300 and the Innovative Medicines Initiative 2 Joint Undertaking under Grant Agreement No. 777394, the resources of which are composed of financial contributions from the European Union’s Seventh Framework Programme (Grant No. FP7/2007-2013), from the European Federation of Pharmaceutical Industries and Associations companies’ in-kind contributions, and from Autism Speaks. This work was also supported by the Netherlands Organization for Scientific Research through Vidi grants (Grant No. 864.12.003 [to CFB] and Grant No. 016.156.415 [to AFM]), from the FP7 (Grant Nos. 602805) (AGGRESSOTYPE) (to JKB), 603016 (MATRICS), and 278948 (TACTICS), and from the European Community’s Horizon 2020 Programme (H2020/2014-2020) (Grant Nos. 643051 [MiND] and 642996 (BRAINVIEW). This work received funding from the Wellcome Trust UK Strategic Award (Award No. 098369/Z/12/Z) and from the National Institute for Health Research Maudsley Biomedical Research Centre (to DM)., European Project: 602805,EC:FP7:HEALTH,FP7-HEALTH-2013-INNOVATION-1,AGGRESSOTYPE(2013), European Project: 603016,EC:FP7:HEALTH,FP7-HEALTH-2013-INNOVATION-1,MATRICS(2014), European Project: 278948,EC:FP7:HEALTH,FP7-HEALTH-2011-two-stage,TACTICS(2012), European Project: 643051,H2020,H2020-MSCA-ITN-2014,MiND(2015), European Project: 642996,H2020,H2020-MSCA-ITN-2014,BRAINVIEW(2015), Radboud University [Nijmegen], Universität Heidelberg [Heidelberg] = Heidelberg University, University of Cyprus [Nicosia] (UCY), University of Oxford, Institut Pasteur [Paris] (IP)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), University of Zurich, Oldehinkel, Marianne, University of Zürich [Zürich] (UZH), Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology in Zürich [Zürich] (ETH Zürich), Centre National de la Recherche Scientifique (CNRS)-Université Paris Diderot - Paris 7 (UPD7)-Institut Pasteur [Paris], Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA), and Lombardo, Michael V. [0000-0001-6780-8619]

Subjects

Male, Autism Spectrum Disorder, Autism, Functional connectivity, 0302 clinical medicine, Cerebellum, Neural Pathways, Longitudinal Studies, 10064 Neuroscience Center Zurich, Child, Visual-motor integration, Visual Cortex, Brain Mapping, medicine.diagnostic_test, 05 social sciences, Sensory networks, 220 Statistical Imaging Neuroscience, 10058 Department of Child and Adolescent Psychiatry, Magnetic Resonance Imaging, 2728 Neurology (clinical), Autism spectrum disorder, Radiology Nuclear Medicine and imaging, 10076 Center for Integrative Human Physiology, Female, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Sensorimotor Cortex, Biological psychiatry, Psychology, 2803 Biological Psychiatry, Adult, 2805 Cognitive Neuroscience, Autism, Cerebellum, Functional connectivity, Resting-state fMRI, Sensory networks, Visual-motor integration, Radiology, Nuclear Medicine and Imaging, Cognitive Neuroscience, Neurology (clinical), Biological Psychiatry, Adolescent, Cognitive Neuroscience, Clinical Neurology, Sensory system, 610 Medicine & health, Cognitive neuroscience, 050105 experimental psychology, 03 medical and health sciences, Young Adult, Salience (neuroscience), mental disorders, medicine, Humans, 2741 Radiology, Nuclear Medicine and Imaging, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, Resting-state fMRI, Biological Psychiatry, Radiology, Nuclear Medicine and Imaging, Neurology (clinical), Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Resting state fMRI, medicine.disease, Case-Control Studies, Functional magnetic resonance imaging, Neuroscience, 030217 neurology & neurosurgery

Abstract

BackgroundResting-state functional magnetic resonance imaging–based studies on functional connectivity in autism spectrum disorder (ASD) have generated inconsistent results. Interpretation of findings is further hampered by small samples and a focus on a limited number of networks, with networks underlying sensory processing being largely underexamined. We aimed to comprehensively characterize ASD-related alterations within and between 20 well-characterized resting-state networks using baseline data from the EU-AIMS (European Autism Interventions—A Multicentre Study for Developing New Medications) Longitudinal European Autism Project.MethodsResting-state functional magnetic resonance imaging data was available for 265 individuals with ASD (7.5–30.3 years; 73.2% male) and 218 typically developing individuals (6.9–29.8 years; 64.2% male), all with IQ > 70. We compared functional connectivity within 20 networks—obtained using independent component analysis—between the ASD and typically developing groups, and related functional connectivity within these networks to continuous (overall) autism trait severity scores derived from the Social Responsiveness Scale Second Edition across all participants. Furthermore, we investigated case-control differences and autism trait–related alterations in between-network connectivity.ResultsHigher autism traits were associated with increased connectivity within salience, medial motor, and orbitofrontal networks. However, we did not replicate previously reported case-control differences within these networks. The between-network analysis did reveal case-control differences showing on average 1) decreased connectivity of the visual association network with somatosensory, medial, and lateral motor networks, and 2) increased connectivity of the cerebellum with these sensory and motor networks in ASD compared with typically developing subjects.ConclusionsWe demonstrate ASD-related alterations in within- and between-network connectivity. The between-network alterations broadly affect connectivity between cerebellum, visual, and sensory-motor networks, potentially underlying impairments in multisensory and visual-motor integration frequently observed in ASD.

Published

2019

24. Task constraints distinguish perspective inferences from perspective use during discourse interpretation in a false belief task

Author

James E. Cane, Jumana Ahmad, Heather J. Ferguson, Ian A. Apperly, and Markus Bindemann

Subjects

Adult, Male, Linguistics and Language, Adolescent, Concept Formation, Cognitive Neuroscience, Culture, Theory of Mind, BF, Inference, Experimental and Cognitive Psychology, Language and Linguistics, Task (project management), Young Adult, Cognition, Theory of mind, Developmental and Educational Psychology, Humans, Point (typography), Interpretation (philosophy), Perspective (graphical), Object (philosophy), Social Perception, Eye tracking, Female, Comprehension, Psychology, Social psychology, Cognitive psychology

Abstract

Interpreting other peoples’ actions relies on an understanding of their current mental states (e.g. beliefs, desires and intentions). In this paper, we distinguish between listeners’ ability to infer others’ perspectives and their explicit use of this knowledge to predict subsequent actions. In a visual-world study, two groups of participants (passive observers vs. active participants) watched short videos, depicting transfer events, where one character (‘Jane’) either held a true or false belief about an object’s location. We tracked participants’ eye-movements around the final visual scene, time-locked to related auditory descriptions (e.g. “Jane will look for the chocolates in the container on the left.”). Results showed that active participants had already inferred the character’s belief in the 1 second preview period prior to auditory onset, before it was possible to use this information to predict an outcome. Moreover, they used this inference to correctly anticipate reference to the object’s initial location on false belief trials at the earliest possible point (i.e. from “Jane” onwards). In contrast, passive observers only showed evidence of a belief inference from the onset of “Jane”, and did not show reliable use of this inference to predict Jane’s behaviour on false belief trials until much later, when the location (“left/right”) was auditorily available. These results show that active engagement in a task activates earlier inferences about others’ perspectives, and drives immediate use of this information to anticipate others’ actions, compared to passive observers, who are susceptible to influences from egocentric or reality biases. Finally, we review evidence that using other peoples’ perspectives to predict their behaviour is more cognitively effortful than simply using one’s own.

Published

2015

25. The EU-AIMS Longitudinal European Autism Project (LEAP): design and methodologies to identify and validate stratification biomarkers for autism spectrum disorders

Author

Caroline Wooldridge, Marianne Oldehinkel, Claudia Brogna, Heike Tost, Eva Loth, Lindsay Ham, Laurence O'Dwyer, Thomas Bourgeron, Gahan Pandina, Amber N. V. Ruigrok, Antonio M. Persico, Sarah Durston, Michael V. Lombardo, Andreas Meyer-Lindenberg, Steve C.R. Williams, Julian Tillmann, Simon Baron-Cohen, Sarah Baumeister, Christian F. Beckmann, Tobias Banaschewski, Jumana Ahmad, Barbara Ruggeri, Jessica Sabet, Joerg F. Hipp, Daisy Crawley, Christine Ecker, Sara Ambrosino, Tony Charman, Antonia San José Cáceres, Xavier Liogier d'Ardhuy, Will Spooren, David J. Lythgoe, Nico Mueller, Guillaume Dumas, Luke Mason, Meng-Chuan Lai, Yvette de Bruijn, Sven Bölte, Prantik Kundu, Daniel Brandeis, David Goyard, Ineke Cornelissen, Emily Simonoff, Carsten Bours, Johan Isaksson, Pilar Garcés, Emily J.H. Jones, Rosemary Holt, Marcel P. Zwiers, Vincent Frouin, Roberto Sacco, Declan G. Murphy, Hannah Hayward, Roberto Toro, Jack Waldman, Bob Oranje, Carolin Moessnang, Flavio Dell' Acqua, Jessica Faulkner, René C.W. Mandl, Mark H. Johnson, Bonnie Auyeung, Jan K. Buitelaar, Bhismadev Chakrabarti, Michael Brammer, King‘s College London, Institute of Psychiatry, Psychology & Neuroscience, King's College London, Centre for Brain and Cognitive Development [Birkbeck College], Birkbeck College [University of London], University of Edinburgh, University of Cambridge [UK] (CAM), Università Campus Bio-Medico di Roma / University Campus Bio-Medico of Rome ( UCBM), University Medical Center [Utrecht], Department of Child and Adolescent Psychiatry and Psychotherapy [Mannheim], Universität Heidelberg [Heidelberg] = Heidelberg University, Radboud University Medical Center [Nijmegen], Karolinska Institutet [Stockholm], Génétique humaine et fonctions cognitives - Human Genetics and Cognitive Functions (GHFC (UMR_3571 / U-Pasteur_1)), Institut Pasteur [Paris] (IP)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), University of Reading (UOR), Service NEUROSPIN (NEUROSPIN), Université Paris-Saclay-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Roche Pharma Research and Early Development [Basel] (pRED), F. Hoffmann-La Roche [Basel], University of London [London], Uppsala University, Icahn School of Medicine at Mount Sinai [New York] (MSSM), University of Toronto, University of Cyprus [Nicosia] (UCY), Heidelberg University, Janssen Research & Development, University of Messina, Donders Institute for Brain, Cognition and Behaviour, Radboud University [Nijmegen], This work was supported by EU-AIMS (European Autism Interventions), which receives support from the Innovative Medicines Initiative Joint Undertaking under grant agreement no. 115300, the resources of which are composed of financial contributions from the European Union’s Seventh Framework Programme (grant FP7/2007-2013), from the European Federation of Pharmaceutical Industries and Associations companies’ in-kind contributions and from Autism Speaks., European Project: 115300,EC:FP7:SP1-JTI,IMI-JU-03-2010,EU-AIMS(2012), Loth, Eva [0000-0001-9458-9167], Charman, Tony [0000-0003-1993-6549], Tillmann, Julian [0000-0001-9574-9855], Jones, Emily JH [0000-0001-5747-9540], Ahmad, Jumana [0000-0001-5271-0731], Brogna, Claudia [0000-0002-9526-6367], Banaschewski, Tobias [0000-0003-4595-1144], Baron-Cohen, Simon [0000-0001-9217-2544], Crawley, Daisy [0000-0001-9901-1110], Dumas, Guillaume [0000-0002-2253-1844], Hayward, Hannah [0000-0001-5552-2146], Hipp, Joerg [0000-0002-7875-2988], Johnson, Mark [0000-0003-4229-2585], Isaksson, Johan [0000-0003-1033-2618], Lai, Meng-Chuan [0000-0002-9593-5508], Lythgoe, David J [0000-0002-5078-9025], Moessnang, Carolin [0000-0003-4357-2706], Ruigrok, Amber [0000-0001-7711-8056], Ruggeri, Barbara [0000-0002-6231-8829], Simonoff, Emily [0000-0002-5450-0823], Toro, Roberto [0000-0002-6671-858X], Williams, Steve CR [0000-0003-4299-1941], Murphy, Declan GM [0000-0002-6664-7451], Apollo - University of Cambridge Repository, Universität Heidelberg [Heidelberg], Institut Pasteur [Paris]-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, University of Cyprus [Nicosia], Radboud university [Nijmegen], Autism Research Centre and Section of Developmental Psychiatry, University of Cambridge [UK] ( CAM ), Università Campus Bio-Medico di Roma / University Campus Bio-Medico of Rome ( UCBM ), Medizinische Fakultät Mannheim, University of Zürich [Zürich] ( UZH ), Génétique humaine et Fonctions cognitives - Human Genetics and Cognitive Functions, Institut Pasteur [Paris]-Centre National de la Recherche Scientifique ( CNRS ), University of Reading ( UOR ), Goethe-University Frankfurt am Main, Service NEUROSPIN ( NEUROSPIN ), Direction de Recherche Fondamentale (CEA) ( DRF (CEA) ), Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ) -Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ) -Université Paris-Saclay, Roche Pharma Research and Early Development [Basel] ( pRED ), Icahn School of Medicine at Mount Sinai [New York], and European Project : 115300,EC:FP7:SP1-JTI,IMI-JU-03-2010,EU-AIMS ( 2012 )

Subjects

Male, cognition, Autism Spectrum Disorder, [ SDV.MHEP.PSM ] Life Sciences [q-bio]/Human health and pathology/Psychiatrics and mental health, [SDV]Life Sciences [q-bio], Stress-related disorders Donders Center for Medical Neuroscience [Radboudumc 13], Individuality, lcsh:RC346-429, Developmental psychology, psyc, 0302 clinical medicine, Cognition, Intellectual disability, molecular biology, genetics, Longitudinal Studies, EEG, Biomarkers, eye-tracking, MRI, neuroimaging, developmental neuroscience, developmental biology, psychiatry and mental health, Precision Medicine, Child, Eye Movement Measurements, Psychiatry, 05 social sciences, 220 Statistical Imaging Neuroscience, Brain, Magnetic Resonance Imaging, 3. Good health, Psychiatry and Mental health, Phenotype, Autism spectrum disorder, Cohort, Female, Psychology, 050104 developmental & child psychology, Clinical psychology, Adult, BF, Neuroimaging, eye tracking, Biomarkers, cognition, EEG, eye-tracking, genetics, MRI, neuroimaging, molecular biology, developmental neuroscience, developmental biology, psychiatry and mental health, Psykiatri, 150 000 MR Techniques in Brain Function, [ SHS.PSY ] Humanities and Social Sciences/Psychology, 03 medical and health sciences, Genetic Heterogeneity, Developmental Neuroscience, mental disorders, medicine, Journal Article, Genetics, Humans, 0501 psychology and cognitive sciences, Saliva, Molecular Biology, lcsh:Neurology. Diseases of the nervous system, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Genetic heterogeneity, Research, Siblings, Patient Selection, biomarkers, medicine.disease, Precision medicine, [ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Autism, Observational study, Eye-tracking, [ SDV.GEN ] Life Sciences [q-bio]/Genetics, Neurocognitive, 030217 neurology & neurosurgery, Developmental Biology, Hair

Abstract

Background The tremendous clinical and aetiological diversity among individuals with autism spectrum disorder (ASD) has been a major obstacle to the development of new treatments, as many may only be effective in particular subgroups. Precision medicine approaches aim to overcome this challenge by combining pathophysiologically based treatments with stratification biomarkers that predict which treatment may be most beneficial for particular individuals. However, so far, we have no single validated stratification biomarker for ASD. This may be due to the fact that most research studies primarily have focused on the identification of mean case-control differences, rather than within-group variability, and included small samples that were underpowered for stratification approaches. The EU-AIMS Longitudinal European Autism Project (LEAP) is to date the largest multi-centre, multi-disciplinary observational study worldwide that aims to identify and validate stratification biomarkers for ASD. Methods LEAP includes 437 children and adults with ASD and 300 individuals with typical development or mild intellectual disability. Using an accelerated longitudinal design, each participant is comprehensively characterised in terms of clinical symptoms, comorbidities, functional outcomes, neurocognitive profile, brain structure and function, biochemical markers and genomics. In addition, 51 twin-pairs (of which 36 had one sibling with ASD) are included to identify genetic and environmental factors in phenotypic variability. Results Here, we describe the demographic characteristics of the cohort, planned analytic stratification approaches, criteria and steps to validate candidate stratification markers, pre-registration procedures to increase transparency, standardisation and data robustness across all analyses, and share some ‘lessons learnt’. A clinical characterisation of the cohort is given in the companion paper (Charman et al., accepted). Conclusion We expect that LEAP will enable us to confirm, reject and refine current hypotheses of neurocognitive/neurobiological abnormalities, identify biologically and clinically meaningful ASD subgroups, and help us map phenotypic heterogeneity to different aetiologies. Electronic supplementary material The online version of this article (doi:10.1186/s13229-017-0146-8) contains supplementary material, which is available to authorized users.

Published

2017

26. Competitive interactions automatically compromise visual working memory

Author

Fiona McNab, Kimron L. Shapiro, Anna C. Nobre, and Jumana Ahmad

Subjects

Ophthalmology, Computer science, Working memory, Human–computer interaction, Compromise, media_common.quotation_subject, Sensory Systems, media_common

Published

2015

27. Editorial

Author

Jumana Ahmad

Published

2013

28. The effects of spatial proximity and colour similarity on competition between targets and distractors on visual working memory

Author

Kimron L. Shapiro, Anna C. Nobre, Jumana Ahmad, Fiona McNab, and Dipesh Mistry

Subjects

Competition (economics), Ophthalmology, Similarity (network science), Working memory, business.industry, Computer science, Pattern recognition, Artificial intelligence, business, Sensory Systems

Published

2014

29. GABA B receptor modulation of visual sensory processing in adults with and without autism spectrum disorder

Author

QIYUN HUANG, Pereira, Andreia C., Hester Velthuis, Wong, Nichol M. L., Claire Ellis, Francesca Ponteduro, Mihail Dimitrov, Lukasz Kowalewski, David John Lythgoe, Diana Rotaru, Richard Edden, Alison Leonard, Glynis Ivin, Jumana Ahmad, Charlotte Pretzsch, Eileen Daly, Murphy, Declan G., and Grainne McAlonan

30. From mechanisms to markers: novel noninvasive EEG proxy markers of the neural excitation and inhibition system in humans

Author

Jumana Ahmad, Claire Ellis, Robert Leech, Bradley Voytek, Pilar Garces, Emily Jones, Jan Buitelaar, Eva Loth, Francisco Páscoa dos Santos, Adrián F. Amil, Paul F. M. J. Verschure, Declan Murphy, and Grainne McAlonan

Subjects

Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Biophysics, Brain, Electroencephalography, Neural Inhibition, Transcranial Magnetic Stimulation, Magnetic Resonance Imaging, Cellular and Molecular Neuroscience, Psychiatry and Mental health, 130 000 Cognitive Neurology & Memory, Schizophrenia, Humans, Biomarkers, Biological Psychiatry

Abstract

Brain function is a product of the balance between excitatory and inhibitory (E/I) brain activity. Variation in the regulation of this activity is thought to give rise to normal variation in human traits, and disruptions are thought to potentially underlie a spectrum of neuropsychiatric conditions (e.g., Autism, Schizophrenia, Downs’ Syndrome, intellectual disability). Hypotheses related to E/I dysfunction have the potential to provide cross-diagnostic explanations and to combine genetic and neurological evidence that exists within and between psychiatric conditions. However, the hypothesis has been difficult to test because: (1) it lacks specificity—an E/I dysfunction could pertain to any level in the neural system- neurotransmitters, single neurons/receptors, local networks of neurons, or global brain balance - most researchers do not define the level at which they are examining E/I function; (2) We lack validated methods for assessing E/I function at any of these neural levels in humans. As a result, it has not been possible to reliably or robustly test the E/I hypothesis of psychiatric disorders in a large cohort or longitudinal patient studies. Currently available, in vivo markers of E/I in humans either carry significant risks (e.g., deep brain electrode recordings or using Positron Emission Tomography (PET) with radioactive tracers) and/or are highly restrictive (e.g., limited spatial extent for Transcranial Magnetic Stimulation (TMS) and Magnetic Resonance Spectroscopy (MRS). More recently, a range of novel Electroencephalography (EEG) features has been described, which could serve as proxy markers for E/I at a given level of inference. Thus, in this perspective review, we survey the theories and experimental evidence underlying 6 novel EEG markers and their biological underpinnings at a specific neural level. These cheap-to-record and scalable proxy markers may offer clinical utility for identifying subgroups within and between diagnostic categories, thus directing more tailored sub-grouping and, therefore, treatment strategies. However, we argue that studies in clinical populations are premature. To maximize the potential of prospective EEG markers, we first need to understand the link between underlying E/I mechanisms and measurement techniques.

31. Imbalanced social-communicative and restricted repetitive behavior subtypes of autism spectrum disorder exhibit different neural circuitry

Author

Meng-Chuan Lai, Elena Maria Busuoli, Antonio M. Persico, Bonnie Auyeung, Eva Loth, Sarah Durston, Andreas Meyer-Lindenberg, Sven Bölte, Carolin Moessnang, Stavros Trakoshis, Marianne Oldehinkel, Prantik Kundu, Steve C.R. Williams, Jan K. Buitelaar, Sarah Baumeister, Tony Charman, Michael V. Lombardo, Isotta Landi, Richard A. I. Bethlehem, Rosemary Holt, Veronica Mandelli, Christine Ecker, Natasha Bertelsen, Julian Tillmann, Declan G. Murphy, Christian F. Beckmann, Jakob Seidlitz, Eleonora Satta, Mark H. Johnson, Will Spooren, Simon Baron-Cohen, Guillaume Dumas, Luke Mason, Emily J.H. Jones, Thomas Bourgeron, Istituto Italiano di Tecnologia (IIT), University of Trento [Trento], University of Cambridge [UK] (CAM), Children’s Hospital of Philadelphia (CHOP ), University of Pennsylvania, University of Cyprus [Nicosia] (UCY), University of Edinburgh, King‘s College London, Génétique humaine et fonctions cognitives - Human Genetics and Cognitive Functions (GHFC (UMR_3571 / U-Pasteur_1)), Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Universität Heidelberg [Heidelberg] = Heidelberg University, Radboud University Medical Center [Nijmegen], Karolinska Institutet [Stockholm], Stockholm Health Care Services (SLSO), Curtin University [Perth], Planning and Transport Research Centre (PATREC), University Medical Center [Utrecht], Goethe-Universität Frankfurt am Main, University of London [London], Monash University [Melbourne], University of Messina, Università Campus Bio-Medico di Roma / University Campus Bio-Medico of Rome ( UCBM), University of Vienna [Vienna], Roche Pharma Research and Early Development [Basel] (pRED), F. Hoffmann-La Roche [Basel], Centre for Addiction and Mental Health [Toronto] (CAMH), The Hospital for sick children [Toronto] (SickKids), University of Toronto, National Taiwan University [Taiwan] (NTU), This project has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme under grant agreement No 755816 (ERC Starting Grant to MVL). This work was also supported by EU-AIMS and EU AIMS-2-TRIALS, which both received support from the Innovative Medicines Initiative Joint Undertaking under Grant Agreement No. 115300 and the Innovative Medicines Initiative 2 Joint Undertaking under Grant Agreement No. 777394, the resources of which are composed of financial contributions from the European Union’s Seventh Framework Programme (Grant No. FP7/2007–2013), from the European Federation of Pharmaceutical Industries and Associations companies’ in-kind contributions, and from Autism Speaks, Autistica and the Simons Foundation for Autism Research Initiative. The views expressed are those of the author(s) and not necessarily those of the IMI 2JU. This work was also supported by the Netherlands Organization for Scientific Research through Vidi grants (Grant No. 864.12.003 [to CFB]), from the FP7 (Grant Nos. 602805) (AGGRESSOTYPE) (to JKB), 603016 (MATRICS), and 278948 (TACTICS), and from the European Community’s Horizon 2020 Programme (H2020/2014–2020) (Grant Nos. 643051 [MiND] and 642996 (BRAINVIEW). This work received funding from the Wellcome Trust UK Strategic Award (Award No. 098369/Z/12/Z) and from the National Institute for Health Research Maudsley Biomedical Research Centre (to DGMM). M-CL was supported by the Academic Scholars Award from the Department of Psychiatry, University of Toronto, the Slaight Family Child and Youth Mental Health Innovation Fund from the CAMH Foundation, the Ontario Brain Institute via the Province of Ontario Neurodevelopmental Disorders (POND) Network (IDS-I l-02), the Canadian Institutes of Health Research Sex and Gender Science Chair (GSB 171373), and the Innovation Fund of the Alternative Funding Plan for the Academic Health Sciences Centres of Ontario (CAM-20-004). R.A.I.B acknowledges research support by the Autism Research Trust and a British Academy Fellowship (PF2\180017). MHJ, TC, and EJHJ acknowledge support from a UK MRC Programme Grant., the EU-AIMS LEAP group : Jumana Ahmad, Sara Ambrosino, Bonnie Auyeung, Tobias Banaschewski, Simon Baron-Cohen, Sarah Baumeister, Christian F. Beckmann, Sven Bölte, Thomas Bourgeron, Carsten Bours, Michael Brammer, Daniel Brandeis, Claudia Brogna, Yvette de Bruijn, Jan K. Buitelaar, Bhismadev Chakrabarti, Tony Charman, Chris Chatham, Ineke Cornelissen, Daisy Crawley, Flavio Dell’Acqua, Guillaume Dumas, Sarah Durston, Christine Ecker, Jessica Faulkner, Vincent Frouin, Pilar Garcés, David Goyard, Lindsay Ham, Hannah Hayward, Joerg Hipp, Rosemary J. Holt, Mark H. Johnson, Emily J. H. Jones, Prantik Kundu, Meng-Chuan Lai, Xavier Liogier D’ardhuy, Michael V. Lombardo, Eva Loth, David J. Lythgoe, René Mandl, Andre Marquand, Luke Mason, Maarten Mennes, Andreas Meyer-Lindenberg, Carolin Moessnang, Nico Mueller, Declan G. M. Murphy, Bethany Oakley, Laurence O’Dwyer, Marianne Oldehinkel, Bob Oranje, Gahan Pandina, Antonio M. Persico, Barbara Ruggeri, Amber N. V. Ruigrok, Jessica Sabet, Roberto Sacco, Antonia San José Cáceres, Emily Simonoff, Will Spooren, Julian Tillmann, Roberto Toro, Heike Tost, Jack Waldman, Steve C. R. Williams, Caroline Wooldridge & Marcel P. Zwiers, European Project: 0755816(2008), European Project: 115300,EC:FP7:SP1-JTI,IMI-JU-03-2010,EU-AIMS(2012), European Project: 602805,EC:FP7:HEALTH,FP7-HEALTH-2013-INNOVATION-1,AGGRESSOTYPE(2013), European Project: 603016,EC:FP7:HEALTH,FP7-HEALTH-2013-INNOVATION-1,MATRICS(2014), European Project: 278948,EC:FP7:HEALTH,FP7-HEALTH-2011-two-stage,TACTICS(2012), European Project: 643051,H2020,H2020-MSCA-ITN-2014,MiND(2015), European Project: 642996,H2020,H2020-MSCA-ITN-2014,BRAINVIEW(2015), University of Pennsylvania [Philadelphia], University of Cyprus (UCY), Institut Pasteur [Paris]-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), Universität Heidelberg [Heidelberg], Bethlehem, Richard A I [0000-0002-0714-0685], Seidlitz, Jakob [0000-0002-8164-7476], Bourgeron, Thomas [0000-0001-8164-9220], Charman, Tony [0000-0003-1993-6549], Persico, Antonio M [0000-0001-8910-4479], Lombardo, Michael V [0000-0001-6780-8619], Apollo - University of Cambridge Repository, and Bethlehem, Richard AI [0000-0002-0714-0685]

Subjects

Male, 0301 basic medicine, Autism Spectrum Disorder, Stress-related disorders Donders Center for Medical Neuroscience [Radboudumc 13], Medicine (miscellaneous), MESH: Magnetic Resonance Imaging, 0302 clinical medicine, 130 000 Cognitive Neurology & Memory, MESH: Child, Neural Pathways, Biology (General), Child, MESH: Autism Spectrum Disorder, MESH: Child Behavior Disorders, Communication, 220 Statistical Imaging Neuroscience, Hyperconnectivity, Autism spectrum disorders, Magnetic Resonance Imaging, Autism spectrum disorder, Female, MESH: Communication, General Agricultural and Biological Sciences, MESH: Stereotyped Behavior, QH301-705.5, autism spectrum disorders, Child Behavior Disorders, Biology, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, All institutes and research themes of the Radboud University Medical Center, Neuroimaging, mental disorders, medicine, Biological neural network, Humans, Association (psychology), MESH: Neurodevelopmental Disorders, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], MESH: Humans, Resting state fMRI, Genetic heterogeneity, MESH: Neural Pathways, [SCCO.NEUR]Cognitive science/Neuroscience, medicine.disease, MESH: Male, 030104 developmental biology, Neurodevelopmental Disorders, Autism, Stereotyped Behavior, Neuroscience, MESH: Female, 030217 neurology & neurosurgery

Abstract

Social-communication (SC) and restricted repetitive behaviors (RRB) are autism diagnostic symptom domains. SC and RRB severity can markedly differ within and between individuals and may be underpinned by different neural circuitry and genetic mechanisms. Modeling SC-RRB balance could help identify how neural circuitry and genetic mechanisms map onto such phenotypic heterogeneity. Here, we developed a phenotypic stratification model that makes highly accurate (97–99%) out-of-sample SC = RRB, SC > RRB, and RRB > SC subtype predictions. Applying this model to resting state fMRI data from the EU-AIMS LEAP dataset (n = 509), we find that while the phenotypic subtypes share many commonalities in terms of intrinsic functional connectivity, they also show replicable differences within some networks compared to a typically-developing group (TD). Specifically, the somatomotor network is hypoconnected with perisylvian circuitry in SC > RRB and visual association circuitry in SC = RRB. The SC = RRB subtype show hyperconnectivity between medial motor and anterior salience circuitry. Genes that are highly expressed within these networks show a differential enrichment pattern with known autism-associated genes, indicating that such circuits are affected by differing autism-associated genomic mechanisms. These results suggest that SC-RRB imbalance subtypes share many commonalities, but also express subtle differences in functional neural circuitry and the genomic underpinnings behind such circuitry., Natasha Bertelsen et al. develop a computational model to categorize patients with autism spectrum disorder (ASD) into distinct subgroups, based on social-communicative or restricted repetitive behaviors. By integrating publicly available neuroimaging and genetic data, they report neural and molecular signatures in two of these subgroups, altogether highlighting subtle differences in neural circuitry and genomic networks that could underlie phenotypic differences among ASD patients.

Published

2021

32. Investigating the factors underlying adaptive functioning in autism in the EU-AIMS Longitudinal European Autism Project

Author

Tillmann, Julian, San José Cáceres, Antonia, Chatham, Chris H., Crawley, Daisy, Holt, Rosemary, Oakley, Bethany, Banaschewski, Tobias, Baron-Cohen, Simon, Bölte, Sven, Buitelaar, Jan K., Durston, Sarah, Ham, Lindsay, Loth, Eva, Simonoff, Emily, Spooren, Will, Murphy, Declan G., Charman, Tony, Ahmad, Jumana, Ambrosino, Sara, Auyeung, Bonnie, Baumeister, Sarah, Beckmann, Christian, Bourgeron, Thomas, Bours, Carsten, Brammer, Michael, Brandeis, Daniel, Brogna, Claudia, de Bruijn, Yvette, Chakrabarti, Bhismadev, Cornelissen, Ineke, Dell’ Acqua, Flavio, Dumas, Guillaume, Ecker, Christine, Faulkner, Jessica, Frouin, Vincent, Garcés, Pilar, Goyard, David, Hayward, Hannah, Hipp, Joerg, Johnson, Mark H., Jones, Emily J. H., Kundu, Prantik, Lai, Meng-Chuan, D'Ardhuy, Xavier Liogier, Lombardo, Michael, Lythgoe, David J., Mandl, René, Mason, Luke, Meyer-Lindenberg, Andreas, Moessnang, Carolin, Mueller, Nico, O'Dwyer, Laurence, Oldehinkel, Marianne, Oranje, Bob, Pandina, Gahan, Persico, Antonio M., Ruggeri, Barbara, Ruigrok, Amber, Sabet, Jessica, Sacco, Roberto, Toro, Roberto, Tost, Heike, Waldman, Jack, Williams, Steve C. R., Wooldridge, Caroline, Zwiers, Marcel P., Institute of Psychiatry, Psychology & Neuroscience, King's College London, King‘s College London, University of Vienna [Vienna], F. Hoffmann-La Roche [Basel], University of Cambridge [UK] (CAM), Department of Child and Adolescent Psychiatry and Psychotherapy [Mannheim], Universität Heidelberg [Heidelberg] = Heidelberg University, Central Institute of Mental Health [Mannheim], University Hospital Mannheim | Universitätsmedizin Mannheim, Karolinska Institutet [Stockholm], Donders Institute for Brain, Cognition and Behaviour, Radboud University [Nijmegen], Stockholm County Council, University Medical Center [Utrecht], Karakter Child and Adolescent Psychiatry University Centre [Nijmegen], South London and Maudsley NHS Foundation Trust, This work was supported by EU‐AIMS (European Autism Interventions), which receives support from the Innovative Medicines Initiative Joint Undertaking under grant agreement no. 115300, the resources of which are composed of financial contributions from the European Union's Seventh Framework Programme (grant FP7/2007‐2013), from the European Federation of Pharmaceutical Industries and Associations companies' in‐kind contributions, and from Autism Speaks, The EU‐AIMS LEAP group : Jumana Ahmad, Sara Ambrosino, Bonnie Auyeung, Sarah Baumeister, Christian Beckmann, Thomas Bourgeron, Carsten Bours, Michael Brammer, Daniel Brandeis, Claudia Brogna, Yvette de Bruijn, Bhismadev Chakrabarti, Ineke Cornelissen, Flavio Dell’ Acqua, Guillaume Dumas, Christine Ecker, Jessica Faulkner, Vincent Frouin, Pilar Garcés, David Goyard, Hannah Hayward, Joerg Hipp, Mark H. Johnson, Emily J.H. Jones, Prantik Kundu, Meng‐Chuan Lai, Xavier Liogier D'ardhuy, Michael Lombardo, David J. Lythgoe, René Mandl, Luke Mason, Andreas Meyer‐Lindenberg, Carolin Moessnang, Nico Mueller, Laurence O'Dwyer, Marianne Oldehinkel, Bob Oranje, Gahan Pandina, Antonio M. Persico, Barbara Ruggeri, Amber Ruigrok, Jessica Sabet, Roberto Sacco, Roberto Toro, Heike Tost, Jack Waldman, Steve C.R. Williams, Caroline Wooldridge, and Marcel P. Zwiers., We thank all participants and their families for their efforts to participate in the study., European Project: 115300,EC:FP7:SP1-JTI,IMI-JU-03-2010,EU-AIMS(2012), Universität Heidelberg [Heidelberg], Medical Faculty [Mannheim], Radboud university [Nijmegen], Tillmann, Julian [0000-0001-9574-9855], Bölte, Sven [0000-0002-4579-4970], Charman, Tony [0000-0003-1993-6549], and Apollo - University of Cambridge Repository

Subjects

Male, Intelligence, Psychological intervention, Severity of Illness Index, Cohort Studies, 0302 clinical medicine, Borderline intellectual functioning, Activities of Daily Living, Psychology, Longitudinal Studies, Child, Genetics (clinical), Research Articles, Adaptive behavior, General Neuroscience, 05 social sciences, Age Factors, Cognition, Europe, symptom severity, Phenotype, Autism spectrum disorder, Cohort, Anxiety, Female, medicine.symptom, adaptive functioning, autism spectrum disorder, intellectual functioning, psychiatric symptoms, Neuroscience (all), Neurology (clinical), 050104 developmental & child psychology, Clinical psychology, Research Article, Adult, Adolescent, 03 medical and health sciences, Young Adult, Sex Factors, mental disorders, medicine, Humans, 0501 psychology and cognitive sciences, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], medicine.disease, [SDV.MHEP.PSM]Life Sciences [q-bio]/Human health and pathology/Psychiatrics and mental health, Autism, 030217 neurology & neurosurgery

Abstract

Contains fulltext : 204820.pdf (Publisher’s version ) (Closed access) Individuals with autism spectrum disorder (ASD) exhibit significant impairments in adaptive functioning that impact on their ability to meet the demands of everyday life. A recurrent finding is that there is a pronounced discrepancy between level of cognitive ability and adaptive functioning, and this is particularly prominent among higher-ability individuals. However, the key clinical and demographic associations of these discrepancies remain unclear. This study included a sample of 417 children, adolescents, and adults with ASD as part of the EU-AIMS LEAP cohort. We examined how age, sex, IQ, levels of ASD symptom and autistic trait severity and psychiatric symptomatology are associated with adaptive functioning as measured by the Vineland Adaptive Behavior Scales-Second Edition and IQ-adaptive functioning discrepancies. Older age, lower IQ and higher social-communication symptoms were associated with lower adaptive functioning. Results also demonstrate that older age, higher IQ and higher social-communication symptoms are associated with greater IQ-adaptive functioning discrepancy scores. By contrast, sensory ASD symptoms, repetitive and restricted behaviors, as well as symptoms of attention deficit/hyperactivity disorder (ADHD), anxiety and depression, were not associated with adaptive functioning or IQ-adaptive functioning discrepancy scores. These findings suggest that it is the core social communication problems that define ASD that contribute to adaptive function impairments that people with ASD experience. They show for the first time that sensory symptoms, repetitive behavior and associated psychiatric symptoms do not independently contribute to adaptive function impairments. Individuals with ASD require supportive interventions across the lifespan that take account of social-communicative ASD symptom severity. Autism Res 2019, 12: 645-657. (c) 2019 The Authors. Autism Research published by International Society for Autism Research published by Wiley Periodicals, Inc. LAY SUMMARY: This study investigated key clinical and demographic associations of adaptive functioning impairments in individuals with autism. We found that older age, lower IQ and more severe social-communicative symptoms, but not sensory or repetitive symptoms or co-occurring psychiatric symptoms, are associated with lower adaptive functioning and greater ability-adaptive function discrepancies. This suggests that interventions targeting adaptive skills acquisition should be flexible in their timing and intensity across developmental periods, levels of cognitive ability and take account of social-communicative ASD symptom severity.

Published

2019