Transtorno do Espectro Autista e Transtorno Desafiante de Oposição: Dificuldades no diagnostico / Transtorno del Espectro Autista y Trastorno Negativista Desafiante: Dificultades en el diagnóstico / Autism Spectrum Disorder and Oppositional Defiant Disorder: Difficulties in diagnosis

Introdução: O Transtorno do Espectro Autista e Transtorno Desafiante de Oposição, são desordens comumente diagnosticadas em indivíduos ainda na infância. Objetivo: Identificar possíveis fatores dificultadores no diagnóstico diferencial dos referidos transtornos. Metodologia: Foi realizada uma revisão integrativa da literatura, a qual selecionou artigos nas bases de dados Biblioteca Virtual de Saúde, periódico Coordenação de Aperfeiçoamento de Pessoal de Nível Superior e Periódicos Eletrônicos de Psicologia entre os meses de setembro e outubro de 2021. Para tanto, foram utilizadas as palavras chaves Transtorno do Espectro Autista, autismo, Transtorno Desafiante de Oposição, Transtorno Opositor Desafiador, diagnóstico, comorbidades, comportamentos disruptivos e dificuldades diagnósticas. Resultados: Oito artigos foram selecionados para extração de dados. O diagnóstico correto desses transtornos pode ser desafiador devido à sobreposição de sinais com outros transtornos e comorbidades, bem como à diversidade presente no espectro autista e à variedade de manifestações dos transtornos disruptivos. Além disso, a maioria dos estudos destacam os prejuízos na área da comunicação, o comprometimento na área social e os graus de severidade, como sendo características semelhantes entre os dois transtornos, podendo serem possíveis fatores que podem dificultar no diagnóstico do Transtorno do Espectro Autista e Transtorno Desafiante de Oposição, de maneira diferencial ou concomitante. Conclusões: O número de pesquisas relacionadas aos transtornos citados acima é inferior ao que se faz necessário para melhor conhecimento sobre o tema. No que diz respeito as pesquisas de materiais científicos, foram encontradas dificuldades para obtenção de estudos que estivessem de acordo com a nossa pesquisa. Com isso, faz-se necessário mais pesquisas que tentem investigar e compreender o porquê da escassez de material que estudem tais diagnósticos de maneira concomitante (AU).

Introduction: Autism Spectrum Disorder and Oppositional Defiant Disorderare disorders commonly diagnosed in individuals in childhood. Objective:Identify possible factors that hinder the differential diagnosis of these disorders. Methodology:An integrative review of the literature was carried out, which selected articles from the Virtual Health Library databases, Coordination for the Improvement of Higher Education Personnel journal and Electronic Psychology Journalsdatabases between the months of September and October 2021. To this end, the keywords Autistic Spectrum Disorder, autism, Disorder Defiant Disorder, Opposition, Oppositional Defiant Disorder, diagnosis, comorbidities, disruptive behaviors and diagnostic difficulties.Results:Eight articles were selected for data extraction. Correctly diagnosing these disorders can be challenging due to overlapping signs with other disorders and comorbidities, as well as the diversity present in the autism spectrum and the variety of manifestations of disruptive disorders. Furthermore, most studies highlight losses in the area of communication, impairment in the social area and degrees of severity, as being similar characteristics between the two disorders, and may be possible factors that can make it difficult to diagnose Autism Spectrum Disorder and Oppositional Defiant Disorder, differentially or concomitantly. Conclusions:The number of studies related to the disorders mentioned above is lower than what is needed for a better understanding of the subject. With regard to research on scientific materials, difficulties were encountered in obtaining studies that were in accordance with our research. With this, more research is needed to try to investigate and understand the reason for the scarcity of material that studies such diagnoses concomitantly (AU).

Introducción: El Trastorno del Espectro Autista y el Trastorno Negativista Desafiante son trastornos comúnmente diagnosticados en individuos en la infancia. Objetivo: Identificar posibles factores que puedan dificultar el diagnóstico diferencial de los trastornos antes mencionados.Metodología:Se realizó una revisión integrativa de la literatura, que seleccionó artículos en las bases de datos Biblioteca Virtual en Salud, revista Coordinación para el Perfeccionamiento del Personal de Educación Superior y Revistas Electrónicas de Psicología entre septiembre y octubre de 2021. Para ello, se utilizaron las palabras clave Trastorno del espectro autista, autismo, Trastorno negativista desafiante, Trastorno negativista desafiante, diagnóstico, comorbilidades, conductas disruptivas y dificultades diagnósticas. Resultados: Se seleccionaron ocho artículos para la extracción de datos. El diagnóstico correcto de estos trastornos puede ser un desafío debido a la superposición de síntomas con otros trastornos y comorbilidades, así como a la diversidad presente en el espectro del autismo y la variedad de manifestaciones de los trastornos disruptivos. Además, la mayoría de los estudios destacan las deficiencias en el área de la comunicación, la deficiencia en el área social y los grados de gravedad, como características similares entre ambos trastornos, que pueden ser posibles factores que dificulten el diagnóstico del Trastorno del Espectro Autista y Trastorno de Oposición Desafiante, ya sea de forma diferencial o concomitante. Conclusiones: El número de estudios relacionados con los trastornos antes mencionados es inferior al necesario para una mejor comprensión del tema. En cuanto a la investigación sobre materiales científicos, se encontraron dificultades para obtener estudios que estuvieran de acuerdo con nuestra investigación. Con esto, se necesita más investigación para tratar de investigar y comprender la razón de la escasez de material que estudie dichos diagnósticos de forma concomitante (AU).

The spectral profile of cortical activation during a visuospatial mental rotation task and its correlation with working memory.

Introduction: The search for a cortical signature of intelligent behavior has been a longtime motivation in Neuroscience. One noticeable characteristic of intelligence is its association with visuospatial skills. This has led to a steady focus on the functional and structural characteristics of the frontoparietal network (FPN) of areas involved with higher cognition and spatial behavior in humans, including the question of whether intelligence is correlated with larger or smaller activity in this important cortical circuit. This question has broad significance, including speculations about the evolution of human cognition. One way to indirectly measure cortical activity with millisecond precision is to evaluate the event-related spectral perturbation (ERSP) of alpha power (alpha ERSP) during cognitive tasks. Mental rotation, or the ability to transform a mental representation of an object to accurately predict how the object would look from a different angle, is an important feature of everyday activities and has been shown in previous work by our group to be positively correlated with intelligence. In the present work, we evaluate whether alpha ERSP recorded over the parietal, frontal, temporal, and occipital regions of adolescents performing easy and difficult trials of the Shepard-Metzler's mental rotation task, correlates or are predicted by intelligence measures of the Weschler's intelligence scale. Methods: We used a database obtained from a previous study of intellectually gifted (N = 15) and average intelligence (N = 15) adolescents. Results: Our findings suggest that in challenging task conditions, there is a notable difference in the prominence of alpha event-related spectral perturbation (ERSP) activity between various cortical regions. Specifically, we found that alpha ERSP in the parietal region was less prominent relative to those in the frontal, temporal and occipital regions. Working memory scores predict alpha ERSP values in the frontal and parietal regions. In the frontal cortex, alpha ERSP of difficult trials was negatively correlated with working memory scores. Discussion: Thus, our results suggest that even though the FPN is task-relevant during mental rotation tasks, only the frontal alpha ERSP is correlated with working memory score in mental rotation tasks.

The role of frontal and parietal cortex in the performance of gifted and average adolescents in a mental rotation task.

Visual-spatial abilities are usually neglected in academic settings, even though several studies have shown that their predictive power in science, technology, engineering, and mathematics domains exceeds that of math and verbal ability. This neglect means that many spatially talented youths are not identified and nurtured, at a great cost to society. In the present work, we aim to identify behavioral and electrophysiological markers associated with visual spatial-ability in intellectually gifted adolescents (N = 15) compared to age-matched controls (N = 15). The participants performed a classic three-dimensional mental rotation task developed by Shepard and Metzler (1971) [33] while event-related potentials were measured in both frontal and parietal regions of interest. While response time was similar in the two groups, gifted subjects performed the test with greater accuracy. There was no indication of interhemispheric asymmetry of ERPs over parietal regions in both groups, although interhemispheric differences were observed in the frontal lobes. Moreover, intelligence quotient and working memory measures predicted variance in ERP's amplitude in the right parietal and frontal hemispheres. We conclude that while gifted adolescents do not display a different pattern of electroencephalographic activity over the parietal cortex while performing the mental rotation task, their performance is correlated with the amplitude of ERPs in the frontal cortex during the execution of this task.

Impaired Processing in the Primary Auditory Cortex of an Animal Model of Autism.

Autism is a neurodevelopmental disorder clinically characterized by deficits in communication, lack of social interaction and repetitive behaviors with restricted interests. A number of studies have reported that sensory perception abnormalities are common in autistic individuals and might contribute to the complex behavioral symptoms of the disorder. In this context, hearing incongruence is particularly prevalent. Considering that some of this abnormal processing might stem from the unbalance of inhibitory and excitatory drives in brain circuitries, we used an animal model of autism induced by valproic acid (VPA) during pregnancy in order to investigate the tonotopic organization of the primary auditory cortex (AI) and its local inhibitory circuitry. Our results show that VPA rats have distorted primary auditory maps with over-representation of high frequencies, broadly tuned receptive fields and higher sound intensity thresholds as compared to controls. However, we did not detect differences in the number of parvalbumin-positive interneurons in AI of VPA and control rats. Altogether our findings show that neurophysiological impairments of hearing perception in this autism model occur independently of alterations in the number of parvalbumin-expressing interneurons. These data support the notion that fine circuit alterations, rather than gross cellular modification, could lead to neurophysiological changes in the autistic brain.

Topographic Organization and Corticocortical Connections of the Forepaw Representation in Areas S1 and SC of the Opossum: Evidence for a Possible Role of Area SC in Multimodal Processing.

In small-brained mammals, such as opossums, the cortex is organized in fewer sensory and motor areas than in mammals endowed with larger cortical sheets. The presence of multimodal fields, involved in the integration of sensory inputs has not been clearly characterized in those mammals. In the present study, the corticocortical connections of the forepaw representation in the somatosensory caudal (SC) area of the Didelphis aurita opossum was studied with injections of fluorescent anatomical tracers in SC. Electrophysiological mapping of S1 was used to delimit its respective rostral and caudal borders, and to guide SC injections. The areal borders of S1 and the location of area SC were further confirmed by myeloarchitecture. In S1, we found a well-delimited forepaw representation, although it presented a crude internal topographic organization. Cortical projections to S1 originate in somatosensory areas of the parietal cortex, and appeared to be mostly homotopic. Physiological and connectional evidence were provided for a topographic organization in opossum area SC as well. Most notably, corticocortical projections to the forepaw representation of SC originated from somatosensory cortical areas and from cortex representing other sensory modalities, especially the visual peristriate cortex. This suggests that SC might be involved in multimodal processing similar to the posterior parietal cortex of species with larger brains.