1,122 research outputs found
Functional neural correlates of first-episode psychoses during sensory, cognitive, language, and emotional processing
Background. Numerosi studi hanno evidenziato che i pazienti affetti da esordi sindromici dello spettro schizofrenico presentano alterazioni neurofunzionali durante l’esecuzione di compiti che coinvolgono le funzioni sensoriali, cognitive, linguistiche ed emotive.
Obiettivo. Paragonare pazienti con esordio psicotico a individui sani al fine di studiare il network neurale coinvolto nelle risposte a compiti sensoriali, cognitive, linguistiche ed emotive, identificando le similarità e le differenze nelle attivazioni cerebrali correlate all’esecuzione degli stessi compiti. Metodo. Abbiamo eseguito una meta-analisi ALE utilizzando il database costruito su ventisei studi di risonanza magnetica funzionale condotti su 516 pazienti con esordio e 546 soggetti sani durante l’esecuzione di task sensoriali, cognitivi, linguistici ed emotivi.
Risultati. Le analisi within-group hanno dimostrato che i controlli sani manifestavano in risposta a tutti i task attivazioni significative in un circuito bilaterale fronto-parietale, mentre i pazienti in un circuito bilaterale parietale-precentrale. Le analisi between-groups hanno evidenziato iperattivazioni del lobulo parietale inferiore di destra, del giro medio frontale sinistro e della corteccia temporale destra nei sani e del cingolo di destra nei pazienti. L’analisi condotta separatamente per gruppi di compiti ha evidenziato che la performance di task attentivo-mnestici si correlava ad attivazione di aree prefrontali nei sani e parietali bilaterali negli esordi; l’esecuzione di task emotivi si correlava ad attivazione della corteccia dorsolaterale prefrontale (DLPFC) bilaterale, della corteccia parietale destra, del cingolo di sinistra e dell’amigdala di destra nei sani e del giro fusiforme di destra nei pazienti; solo i sani hanno evidenziato attivazioni in aree corticali di sinistra incentrate sull’insula, la DLPFC e la corteccia temporale in correlazione a compiti linguistici.
Conclusioni. Il risultato principale di questa meta-analisi è l’evidenza di deficit funzionale della DLPFC di sinistra in pazienti con esordio psicotico durante l’esecuzione di task sensoriali, cognitivi, linguistici ed emotivi. Il giro del cingolo di destra, le cortecce parietali e la temporale di destra hanno anch’esse un ruolo importante nella neurofisiopatologia degli esordi. Questo studio ha anche evidenziato che i pazienti attivano circuiti cerebrali diversi rispetto ai sani in risposta a compiti attentivo-mnestici (attivazione predominante in aree parietali bilaterali), emotivi (attivazione predominante nel giro fusiforme destro) e linguistici (mancata attivazione di aree corticali di sinistra).Background: Several studies reported neural functional alterations in patients with schizophrenia spectrum first-episode psychosis (FEP) during performance of tasks that involve sensory, attentional memory, language, and emotional (SAMLE) processing.
Aim: To compare meta-analytically FEP and healthy control (CTR) samples regarding the circuitries engaged in responding to a set of SAMLE tasks and identifying commonalities and differences in task-related brain activations.
Method: We performed an activation likelihood estimation (ALE) meta-analysis using a database built on 26 fMRI studies, conducted on 516 FEP patients and 546 CTRs during SAMLE task performance.
Results: Within-Group analyses showed that the CTR group has significant SAMLE task-related cortical activations in the context of a bilateral fronto-parietal network; FEP patients showed taskrelated activations of a bilateral parietal-precentral network. Between-Groups analyses showed hyperactivation of the right inferior parietal lobule, left middle frontal gyrus, and right temporal cortex in CTRs, and hyperactivation of the right cingulate gyrus in FEP. Segregated analyses of tasks showed that brain activations to attentional and memory-related tasks mainly occurred in prefrontal areas in CTRs, and in bilateral parietal areas in FEP; emotional task-related activations concerned the bilateral dorsolateral prefrontal cortex (DLPFC), right parietal cortex, left cingulate cortex and right amygdala in CTRs, whereas in FEP the activation concerned the right fusiform gyrus; we found significant left-sided language task-related activations only in the CTR group, centred on the insula, DLPFC, and temporal cortex.
Conclusions: The major finding of this study is the evidence of a functional deficit of the left DLPFC in FEP during the SAMLE task performance. A prominent role in the neuropathophysiology of FEP appears also to be played by the right dorsal anterior cingulate, bilateral parietal, and right temporal cortices. This study also underlined that FEP patients activate different circuits than CTRs in response to attentional- and memory-tasks (predominant activation of bilateral parietal areas), emotional (predominant activation of the right fusiform gyrus), and language (lack of activation of left-sided cortical areas) tasks
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Neural Correlates of Repetition Priming: A Coordinate-Based Meta-Analysis of fMRI Studies.
Repetition priming is a form of implicit memory, whereby classification or identification of a stimulus is improved by prior presentation of the same stimulus. Repetition priming is accompanied with a deceased fMRI signal for primed vs. unprimed stimuli in various brain regions, often called "repetition suppression," or RS. Previous studies proposed that RS in posterior regions is associated with priming of perceptual processes, whereas RS in more anterior (prefrontal) regions is associated with priming of conceptual processes. To clarify which regions exhibit reliable RS associated with perceptual and conceptual priming, we conducted a quantitative meta-analysis using coordinate-based activation likelihood estimation. This analysis included 65 fMRI studies that (i) employed visual repetition priming during either perceptual or conceptual tasks, (ii) demonstrated behavioral priming, and (iii) reported the results from whole-brain analyses. Our results showed that repetition priming was mainly associated with RS in left inferior frontal gyrus and fusiform gyrus. Importantly, RS in these regions was found for both perceptual and conceptual tasks, and no regions show RS that was selective to one of these tasks. These results question the simple distinction between conceptual and perceptual priming, and suggest consideration of other factors such as stimulus-response bindings
A voice without a mouth no more: The neurobiology of language and consciousness
Most research on the neurobiology of language ignores consciousness and vice versa. Here, language, with an emphasis on inner speech, is hypothesised to generate and sustain self-awareness, i.e., higher-order consciousness. Converging evidence supporting this hypothesis is reviewed. To account for these findings, a 'HOLISTIC' model of neurobiology of language, inner speech, and consciousness is proposed. It involves a 'core' set of inner speech production regions that initiate the experience of feeling and hearing words. These take on affective qualities, deriving from activation of associated sensory, motor, and emotional representations, involving a largely unconscious dynamic 'periphery', distributed throughout the whole brain. Responding to those words forms the basis for sustained network activity, involving 'default mode' activation and prefrontal and thalamic/brainstem selection of contextually relevant responses. Evidence for the model is reviewed, supporting neuroimaging meta-analyses conducted, and comparisons with other theories of consciousness made. The HOLISTIC model constitutes a more parsimonious and complete account of the 'neural correlates of consciousness' that has implications for a mechanistic account of mental health and wellbeing
Sequence learning in the human brain: a functional neuroanatomical meta-analysis of serial reaction time studies
Sequence learning underlies numerous motor, cognitive, and social skills. Previous models and empirical investigations of sequence learning in humans and non-human animals have implicated cortico-basal ganglia-cerebellar circuitry as well as other structures. To systematically examine the functional neuroanatomy of sequence learning in humans, we conducted a series of neuroanatomical meta-analyses. We focused on the serial reaction time (SRT) task. This task, which is the most widely used paradigm for probing sequence learning in humans, allows for the rigorous control of visual, motor, and other factors. Controlling for these factors (in sequence-random block contrasts), sequence learning yielded consistent activation only in the basal ganglia, across the striatum (anterior/mid caudate nucleus and putamen) and the globus pallidus. In contrast, when visual, motor, and other factors were not controlled for (in a global analysis with all sequence-baseline contrasts, not just sequence-random contrasts), premotor cortical and cerebellar activation were additionally observed. The study provides solid evidence that, at least as tested with the visuo-motor SRT task, sequence learning in humans relies on the basal ganglia, whereas cerebellar and premotor regions appear to contribute to aspects of the task not related to sequence learning itself. The findings have both basic research and translational implications
Thinking about thinking: A coordinate-based meta-analysis of neuroimaging studies of metacognitive judgements
Metacognition supports reflection upon and control of other cognitive processes. Despite metacognition occupying a central role in human psychology, its neural substrates remain underdetermined, partly due to study-specific differences in task domain and type of metacognitive judgement under study. It is also unclear how metacognition relates to other apparently similar abilities that depend on recursive thought such as theory of mind or mentalising. Now that neuroimaging studies of metacognition are more prevalent, we have an opportunity to characterise consistencies in neural substrates identified across different analysis types and domains. Here we used quantitative activation likelihood estimation methods to synthesise findings from 47 neuroimaging studies on metacognition, divided into categories based on the target of metacognitive evaluation (memory and decision-making), analysis type (judgement-related activation, confidence-related activation, and predictors of metacognitive sensitivity), and, for metamemory judgements, temporal focus (prospective and retrospective). A domain-general network, including medial and lateral prefrontal cortex, precuneus, and insula was associated with the level of confidence in self-performance in both decision-making and memory tasks. We found preferential engagement of right anterior dorsolateral prefrontal cortex in metadecision experiments and bilateral parahippocampal cortex in metamemory experiments. Results on metacognitive sensitivity were inconclusive, likely due to fewer studies reporting this contrast. Finally, by comparing our results to meta-analyses of mentalising, we obtain evidence for common engagement of the ventromedial and anterior dorsomedial prefrontal cortex in both metacognition and mentalising, suggesting that these regions may support second-order representations for thinking about the thoughts of oneself and others
Right Neural Substrates of Language and Music Processing Left Out: Activation Likelihood Estimation (ALE) and Meta-Analytic Connectivity Modelling (MACM)
Introduction: Language and music processing have been investigated in neuro-based research for over a century. However, consensus of independent and shared neural substrates among the domains remains elusive due to varying neuroimaging methodologies. Identifying functional connectivity in language and music processing via neuroimaging meta-analytic methods provides neuroscientific knowledge of higher cognitive domains and normative models may guide treatment development in communication disorders based on principles of neural plasticity.
Methods: Using BrainMap software and tools, the present coordinate-based meta-analysis analyzed 65 fMRI studies investigating language and music processing in healthy adult subjects. We conducted activation likelihood estimates (ALE) in language processing, music processing, and language + music (Omnibus) processing. Omnibus ALE clusters were used to elucidate functional connectivity by use of meta-analytic connectivity modelling (MACM). Paradigm Class and Behavioral Domain analyses were completed for the ten identified nodes to aid functional MACM interpretation.
Results: The Omnibus ALE revealed ten peak activation clusters (bilateral inferior frontal gyri, left medial frontal gyrus, right superior temporal gyrus, left transverse temporal gyrus, bilateral claustrum, left superior parietal lobule, right precentral gyrus, and right anterior culmen). MACM demonstrates an interconnected network consisting of unidirectional and bidirectional connectivity. Subsequent analyses demonstrated nodal involvement across 44 BrainMap paradigms and 32 BrainMap domains.
Discussion: These findings demonstrate functional connectivity among Omnibus areas of activation in language and music processing. We analyze ALE and MACM outcomes by comparing them to previously observed roles in cognitive processing and functional network connectivity. Finally, we discuss the importance of translational neuroimaging and need for normative models guiding intervention
Basic emotions in human neuroscience:Neuroimaging and beyond
The existence of so-called ‘basic emotions’ and their defining attributes represents a long lasting and yet unsettled issue in psychology. Recently, neuroimaging evidence, especially related to the advent of neuroimaging meta-analytic methods, has revitalized this debate in the endeavor of systems and human neuroscience. The core theme focuses on the existence of unique neural bases that are specific and characteristic for each instance of basic emotion. Here we review this evidence, outlining contradictory findings, strengths and limits of different approaches. Constructionism dismisses the existence of dedicated neural structures for basic emotions, considering that the assumption of a one-to-one relationship between neural structures and their functions is central to basic emotion theories. While these critiques are useful to pinpoint current limitations of basic emotions theories, we argue that they do not always appear equally generative in fostering new testable accounts on how the brain relates to affective functions. We then consider evidence beyond PET and fMRI, including results concerning the relation between basic emotions and awareness and data from neuropsychology on patients with focal brain damage. Evidence from lesion studies are indeed particularly informative, as they are able to bring correlational evidence typical of neuroimaging studies to causation, thereby characterizing which brain structures are necessary for, rather than simply related to, basic emotion processing. These other studies shed light on attributes often ascribed to basic emotions, such as automaticity of perception, quick onset, and brief duration. Overall, we consider that evidence in favor of the neurobiological underpinnings of basic emotions outweighs dismissive approaches. In fact, the concept of basic emotions can still be fruitful, if updated to current neurobiological knowledge that overcomes traditional one-to-one localization of functions in the brain. In particular, we propose that the structure-function relationship between brain and emotions is better described in terms of pluripotentiality, which refers to the fact that one neural structure can fulfill multiple functions, depending on the functional network and pattern of co-activations displayed at any given moment
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