Right Temporoparietal Junction Underlies Avoidance of Moral Transgression in Autism Spectrum Disorder.

Autism spectrum disorder (ASD) is characterized by a core difference in theory-of-mind (ToM) ability, which extends to alterations in moral judgment and decision-making. Although the function of the right temporoparietal junction (rTPJ), a key neural marker of ToM and morality, is known to be atypical in autistic individuals, the neurocomputational mechanisms underlying its specific changes in moral decision-making remain unclear. Here, we addressed this question by using a novel fMRI task together with computational modeling and representational similarity analysis (RSA). ASD participants and healthy control subjects (HCs) decided in public or private whether to incur a personal cost for funding a morally good cause (Good Context) or receive a personal gain for benefiting a morally bad cause (Bad Context). Compared with HC, individuals with ASD were much more likely to reject the opportunity to earn ill gotten money by supporting a bad cause than were HCs. Computational modeling revealed that this resulted from heavily weighing benefits for themselves and the bad cause, suggesting that ASD participants apply a rule of refusing to serve a bad cause because they evaluate the negative consequences of their actions more severely. Moreover, RSA revealed a reduced rTPJ representation of the information specific to moral contexts in ASD participants. Together, these findings indicate the contribution of rTPJ in representing information concerning moral rules and provide new insights for the neurobiological basis underpinning moral behaviors illustrated by a specific difference of rTPJ in ASD participants.SIGNIFICANCE STATEMENT Previous investigations have found an altered pattern of moral behaviors in individuals with autism spectrum disorder (ASD), which is closely associated with functional changes in the right temporoparietal junction (rTPJ). However, the specific neurocomputational mechanisms at play that drive the altered function of the rTPJ in moral decision-making remain unclear. Here, we show that ASD individuals are more inflexible when following a moral rule although an immoral action can benefit themselves, and experience an increased concern about their ill-gotten gains and the moral cost. Moreover, a selectively reduced rTPJ representation of information concerning moral rules was observed in ASD participants. These findings deepen our understanding of the neurobiological roots that underlie atypical moral behaviors in ASD individuals.

Differences in Cortical Structure and Functional MRI Connectivity in High Functioning Autism.

Autism spectrum disorders (ASD) represent a complex group of neurodevelopmental conditions characterized by deficits in communication and social behaviors. We examined the functional connectivity (FC) of the default mode network (DMN) and its relation to multimodal morphometry to investigate superregional, system-level alterations in a group of 22 adolescents and young adults with high-functioning autism compared to age-, and intelligence quotient-matched 29 healthy controls. The main findings were that ASD patients had gray matter (GM) reduction, decreased cortical thickness and larger cortical surface areas in several brain regions, including the cingulate, temporal lobes, and amygdala, as well as increased gyrification in regions associated with encoding visual memories and areas of the sensorimotor component of the DMN, more pronounced in the left hemisphere. Moreover, patients with ASD had decreased connectivity between the posterior cingulate cortex, and areas of the executive control component of the DMN and increased FC between the anteromedial prefrontal cortex and areas of the sensorimotor component of the DMN. Reduced cortical thickness in the right inferior frontal lobe correlated with higher social impairment according to the scores of the Autism Diagnostic Interview-Revised (ADI-R). Reduced cortical thickness in left frontal regions, as well as an increased cortical thickness in the right temporal pole and posterior cingulate, were associated with worse scores on the communication domain of the ADI-R. We found no association between scores on the restrictive and repetitive behaviors domain of ADI-R with structural measures or FC. The combination of these structural and connectivity abnormalities may help to explain some of the core behaviors in high-functioning ASD and need to be investigated further.

The impact of epilepsy on sleep architecture during childhood.

PURPOSE: The effect of etiology on the relationship between epilepsy and sleep during childhood has not been studied in detail. The aim of this study was to evaluate differences in sleep structure in drug-resistant epilepsies with different underlying causes. METHODS: We studied 31 patients with drug-resistant epilepsies with or without a structural lesion (lesional and nonlesional) and compared their sleep architecture with that of normal controls and with that of a group of children with benign epilepsy with rolandic spikes (BERS). Subjects underwent a single-night polysomnographic recording. Sleep recordings were scored according to the American Academy of Sleep Medicine (AASM) and cyclic alternating pattern (CAP) criteria. KEY FINDINGS: Compared to normal controls, patients with drug-resistant epilepsy showed a significant reduction of time in bed, total sleep time, rapid eye movement (REM) sleep, sleep stage N3, and sleep efficiency, and a significant increase in wake after sleep onset. The lesional subgroup showed a reduction in total sleep time and sleep latency and an increase in REM latency and wake after sleep onset. No significant differences, however, were found comparing the lesional and nonlesional subgroups. When compared to BERS, patients with drug-resistant epilepsy showed a significant reduction in sleep stage N3, REM sleep, and sleep efficiency. Regarding CAP analysis, when compared to controls, the drug-resistant group had an increased A1% and a decreased A2%, with a decrease of A1 index in N3 and a global decrease of A2 and A3 indexes. The lesional subgroup showed a slight increase of A1% with a decrease of A1 index in N3 and a global decrease of A2 and A3 indexes. Drug-resistant epilepsy, compared to benign epilepsy showed an increase of CAP rate in N2 and of A1 index in N1 and N2 but not in N3; A2 and A3 indexes were similar in both, but patients with drug-resistant epilepsy showed a significant reduction of A3 index in N1. SIGNIFICANCE: Our findings suggest that the presence of structural cerebral abnormalities may play an important role in disrupting sleep architecture.

Avaliação da arquitetura do sono em crianças com epilepsia refratária / Evaluation of sleep architecture in children with refractory epilepsy

INTRODUÇÃO: Há um interesse crescente nas relações entre sono e epilepsia incentivado pela compreensão de que existem interações potencialmente relevantes nas duas direções. Embora o papel do sono na hipersincronização e a crescente preocupação na geração de crises sejam bem conhecidos, o grau no qual o sono pode facilitar ou induzir a um fenômeno epileptogênico, nas epilepsias lesionais, permanece indefinido. As epilepsias lesionais parecem apresentar um mecanismo particular de epileptogenicidade e o esclarecimento do papel da macro e microarquitetura do sono pode auxiliar na antecipação e monitorização de fenômenos epilépticos relacionados ao sono, conforme a etiologia da epilepsia. OBJETIVO: revisar e discutir as relações entre sono e epilepsia na infância e adolescência relacionando as alterações estruturais do sono à etiologia da epilepsia. MÉTODOS: revi-são bibliográfica utilizando o banco de dados Medline, abrangendo os estudos publicados nos últimos quinze anos, com as palavras-chave (unitermos) sono e epilepsia. CONCLUSÕES: epilepsia refratária durante a infância parece influenciar a organização do sono principalmente naqueles pacientes com etiologia lesional. A definição do tipo de epilepsia pode ser importante na antecipação dos distúrbios de sono nesta população.

ABSTRACT INTRODUCTION: There has been a growing interest in the relations between sleep and epilepsy, kindled by the realization that there are many potentially relevant two-way interactions. Even though the hyper-synchronizing role of sleep and its attending increase in the probability of seizure generation are well known, the degree to which sleep may facilitate or induce epileptogenic phenomena in lesional epilepsies remains unclear. The lesional epilepsies seems to have intrinsic epileptogenic properties and the knowledge about sleep macro and microarchiteture could help clinician to anticipate and monitor sleep-related epileptic phenomena according to the etiology of the epilepsy OBJECTIVE: Discuss the relationship between sleep and epilepsy in childhood and adolescence. METHODS: Literature review in journals indexed through Medline, from the last 15 years. CONCLUSION: Refractory epilepsy during childhood influences sleep organization mainly in patients with lesional etiology. The definition of the type of epilepsy is important to anticipate sleep disorders in this population.