Your search keyword '"MIRROR neurons"' showing total 5,000 results

251. Nanorobots with Hybrid Biomembranes for Simultaneous Degradation of Toxic Microorganism.

Author

Refaai, Mohamad Reda A., Manjunatha, M. N., Radjarejesri, S., Ramesh, B., Subbiah, Ram, and Adugna, Nahom

Subjects

*POISONS, *ROBOTICS, *BACTERIAL toxins, *BIOLOGICAL membranes, *NANOROBOTICS, *FUNGAL cell walls, *MIRROR neurons

Abstract

Nanorobotics is a modern technological sector that creates robots with elements that are close to or near the nanoscale scale of such a nanometer. To be more specific, nanorobotics has been the nanotechnology approach to designing and creating nanorobots. Also, with the fast growth of robotics technology, developing biomaterials micro- or nanorobots, which convert biological concepts into a robotic device, grows progressively vital. This proposes the development, manufacturing, and testing of a dual–cell membrane–functionalized nanorobot for multifunctional biological threat component elimination, with a focus on the simultaneous targeted and neutralization of the pathogenic bacteria and toxins. Ultrasound-propelled biomaterials nanorobots comprised of the gold nanostructures wrapped in a combination of platelet (PL) and Red Blood Cell (RBC) layers were developed. Biohybrid micro- and nanorobots were small machines that combine biological and artificial elements. They may benefit from onboard actuators, detection, management, and deployment of a variety in medical functions. These hybrid cell walls consist of a variety of structural proteins involved in living organism RBCs and PLs, which provide nanorobots with either a quantity of the appealing biological functionality, with bonding and adhesion to the PL-adhering pathogenic organisms (for example, staphylococcus bacteria) but also neutralization of the pore-forming toxins (e.g., toxin). Furthermore, the biomaterials nanorobots demonstrated quick and efficient extended sonic propulsion for total blood with really no visible bacterial growth and mirrored the movements of genuine cell separation. This propulsion improved the robots' bonding and detoxifying efficacy against infections and poisons. Overall, combining this diversified physiological activity of hybrid cellular tissue with the energy propulsion of such robotic systems contributed to the dynamic robotics scheme for effective separation and synchronous elimination of various living risks, a significant step towards to development of a broad-spectrum detoxifying robotic framework. [ABSTRACT FROM AUTHOR]

Published

2022

252. The mirror mechanism in schizophrenia: A systematic review and qualitative meta-analysis.

Author

Valizadeh, Amir, Mbwogge, Mathew, Rasouli Yazdi, Anita, Amlashi, Nazanin Hedayati, Haadi, Ainaaz, Shayestefar, Monir, and Moassefi, Mana

Subjects

MIRROR neurons, PEOPLE with schizophrenia, SCHIZOPHRENIA

Abstract

Background: Mirror neuron system(MNS) consists of visuomotor neurons that are responsible for the mirror neuron activity (MNA), meaning that each time an individual observes another individual performing an action, these neurons encode that action, and are activated in the observer's cortical motor system. Previous studies report its malfunction in autism, opening doors to investigate the underlying pathophysiology of the disorder in a more elaborate way and coming up with new rehabilitation methods. The study of MNA function in schizophrenia patients has not been as frequent and conclusive as in autism. In this research, we aimed to evaluate the functional integrity of MNA and the microstructural integrity of MNS in schizophrenia patients. Methods: We included case-control studies that have evaluated MNA in schizophrenia patients compared to healthy controls using a variety of objective assessment tools. In August 2022, we searched Embase, PubMed, and Web of Science for eligible studies. We used an adapted version of the NIH Quality Assessment of Case-Control Studies tool to assess the quality of the included studies. Evidence was analyzed using vote counting methods of the direction of the effect and was tested statistically using the Sign test. Certainty of evidence was assessed using CERQual. Results: We included 32 studies for the analysis. Statistical tests revealed decreased MNA (p = 0.002) in schizophrenia patients. The certainty of the evidence was judged to be moderate. Investigations of heterogeneity revealed a possible relationship between the age and the positive symptoms of participants in the included studies and the direction of the observed effect. Discussion: This finding contributes to gaining a better understanding of the underlying pathophysiology of the disorder by revealing its possible relation to some of the symptoms in schizophrenia patients, while also highlighting a new commonality with autism. [ABSTRACT FROM AUTHOR]

Published

2022

253. Non-Destructive Impedance Monitoring of Bacterial Metabolic Activity towards Continuous Lead Biorecovery.

Author

Andrews, George, Neveling, Olga, De Beer, Dirk Johannes, Chirwa, Evans M. N., Brink, Hendrik G., and Joubert, Trudi-Heleen

Subjects

*LEAD, *ELECTRIC impedance, *IMPEDANCE spectroscopy, *KLEBSIELLA pneumoniae, *MICROBIAL cells, *POISONS, *MIRROR neurons

Abstract

The adverse health effects of the presence of lead in wastewater streams are well documented, with conventional methods of lead recovery and removal suffering from disadvantages such as high energy costs, the production of toxic sludge, and low lead selectivity. Klebsiella pneumoniae and Paraclostridium bifermentans have been identified as potential lead-precipitating species for use in a lead recovery bioreactor. Electrical impedance spectroscopy (EIS) on a low-cost device is used to determine the potential for the probe-free and label-free monitoring of cell growth in a bioreactor containing these bacteria. A complex polynomial is fit for several reactive equivalent circuit components. A direct correlation is found between the extracted supercapacitance and the plated colony-forming unit count during the exponential growth phase, and a qualitative correlation is found between all elements of the measured reactance outside the exponential growth phase. Strong evidence is found that Pb(II) ions act as an anaerobic respiration co-substrate for both cells observed, with changes in plated count qualitatively mirrored in the Pb(II) concentration. Guidance is given on the implementation of EIS devices for continuous impedance monitoring. [ABSTRACT FROM AUTHOR]

Published

2022

254. The multiple faces of extracellular vesicles released by microglia: Where are we 10 years after?

Author

Gabrielli, Martina, Raffaele, Stefano, Fumagalli, Marta, and Verderio, Claudia

Subjects

EXTRACELLULAR vesicles, MICROGLIA, NATURAL immunity, CENTRAL nervous system, NEURAL development, MIRROR neurons

Abstract

As resident component of the innate immunity in the central nervous system (CNS), microglia are key players in pathology. However, they also exert fundamental roles in brain development and homeostasis maintenance. They are extremely sensitive and plastic, as they assiduously monitor the environment, adapting their function in response to stimuli. On consequence, microglia may be defined a heterogeneous community of cells in a dynamic equilibrium. Extracellular vesicles (EVs) released by microglia mirror the dynamic nature of their donor cells, exerting important and versatile functions in the CNS as unbounded conveyors of bioactive signals. In this review, we summarize the current knowledge on EVs released by microglia, highlighting their heterogeneous properties and multifaceted effects. [ABSTRACT FROM AUTHOR]

Published

2022

255. Mitochondrial dysfunction is a key pathological driver of early stage Parkinson's.

Author

Toomey, Christina E., Heywood, Wendy E., Evans, James R., Lachica, Joanne, Pressey, Sarah N., Foti, Sandrine C., Al Shahrani, Mesfer, D'Sa, Karishma, Hargreaves, Iain P., Heales, Simon, Orford, Michael, Troakes, Claire, Attems, Johannes, Gelpi, Ellen, Palkovits, Miklos, Lashley, Tammaryn, Gentleman, Steve M., Revesz, Tamas, Mills, Kevin, and Gandhi, Sonia

Subjects

*PARKINSON'S disease, *OXIDATIVE phosphorylation, *MITOCHONDRIA, *FATTY acid oxidation, *ENERGY consumption, *PROTEIN expression, *MIRROR neurons

Abstract

Background: The molecular drivers of early sporadic Parkinson's disease (PD) remain unclear, and the presence of widespread end stage pathology in late disease masks the distinction between primary or causal disease-specific events and late secondary consequences in stressed or dying cells. However, early and mid-stage Parkinson's brains (Braak stages 3 and 4) exhibit alpha-synuclein inclusions and neuronal loss along a regional gradient of severity, from unaffected-mild-moderate-severe. Here, we exploited this spatial pathological gradient to investigate the molecular drivers of sporadic PD. Methods: We combined high precision tissue sampling with unbiased large-scale profiling of protein expression across 9 brain regions in Braak stage 3 and 4 PD brains, and controls, and verified these results using targeted proteomic and functional analyses. Results: We demonstrate that the spatio-temporal pathology gradient in early-mid PD brains is mirrored by a biochemical gradient of a changing proteome. Importantly, we identify two key events that occur early in the disease, prior to the occurrence of alpha-synuclein inclusions and neuronal loss: (i) a metabolic switch in the utilisation of energy substrates and energy production in the brain, and (ii) perturbation of the mitochondrial redox state. These changes may contribute to the regional vulnerability of developing alpha-synuclein pathology. Later in the disease, mitochondrial function is affected more severely, whilst mitochondrial metabolism, fatty acid oxidation, and mitochondrial respiration are affected across all brain regions. Conclusions: Our study provides an in-depth regional profile of the proteome at different stages of PD, and highlights that mitochondrial dysfunction is detectable prior to neuronal loss, and alpha-synuclein fibril deposition, suggesting that mitochondrial dysfunction is one of the key drivers of early disease. [ABSTRACT FROM AUTHOR]

Published

2022

256. Two modes of being together: The levels of intersubjectivity and human relatedness in neuroscience and psychoanalytic thinking.

Author

Williams, Riccardo and Trentini, Cristina

Subjects

INTERSUBJECTIVITY, PSYCHOANALYTIC interpretation, NEUROSCIENCES, BRAIN anatomy, MIRROR neurons, HUMAN beings

Abstract

The notion of intersubjectivity has achieved a primary status in contemporary psychoanalytic debate, stimulating new theoretical proposals as well as controversies. This paper presents an overview of the main contributions on inter-subjectivity in the field of neurosciences. In humans as well as—probably—in other species, the ability for emotional resonance is guaranteed early in development. Based on this capacity, a primary sense of connectedness is established that can be defined inter-subjective in that it entails sharing affective states and intentions with caregivers. We propose to define such a form of inter-subjectivity as contingent, since the infant’s early abilities for resonance do not imply the more generalized capacity to permanently conceive of the relationship outside the realm of current interactions and the infant-caregiver’s mutual correspondence of internal states. This form of connection, hence, results in a self-referential, bodily, and affectively codified, context- and time dependent, like-me experience of interactions. The gradual maturation of brain structures and processes as well as interactive experiences allow proper intersubjectivity exchanges, grounded on new intentional and representational capacities, to evolve. In this more mature form of intersubjectivity, the individual is allowed to conceive of her own psychic space both as distinct and as possibly connected with the other’s contents and experience, even in the absence of current behavioral indicators of such correspondence. This multi-layered model of intersubjectivity, which is embraced by current neuroscience research, seems to allow for new interpretations of psychoanalytic models of human relatedness based upon classic clinical observations. [ABSTRACT FROM AUTHOR]

Published

2022

257. Are feralization and domestication truly mirror processes?

Author

Niego, Amy and Benítez-Burraco, Antonio

Subjects

*DOMESTICATION of animals, *MIRROR neurons, *INTERNEURONS, *ADAPTIVE radiation, *ANIMAL behavior, *FERRET, *BIOLOGICAL evolution, *CATS

Published

2022

258. Placebo: Ein interessantes Phänomen und seine Bedeutung für die medizinische Praxis.

Author

BRANDL, DIRK and WAGENER, MICHAEL DIRK

Subjects

*MIND & body, *MIRROR neurons, *PLACEBOS, *CONCORD, *HOPE, *HUMAN beings

Abstract

The placebo phenomenon shows us that in order to improve any therapy, the focus should not be solely on optimizing the treatment, but also on the therapeutic setting and the communicative parts of the treatment situation. The fact that the placebo has arrived in medicine as a positive vehicle gives hope that the two aspects of human existence, body and mind, can be brought back together into a unity and thus increase therapeutic effectiveness. [ABSTRACT FROM AUTHOR]

Published

2022

259. Mirror neurons 30 years later: implications and applications.

Author

Bonini, Luca, Rotunno, Cristina, Arcuri, Edoardo, and Gallese, Vittorio

Subjects

*MIRROR neurons, *SOCIAL interaction, *LARGE-scale brain networks, *SOCIAL exchange, *SOCIAL perception, *NEUROREHABILITATION

Abstract

Mirror neurons (MNs) were first described in a seminal paper in 1992 as a class of monkey premotor cells discharging during both action execution and observation. Despite their debated origin and function, recent studies in several species, from birds to humans, revealed that beyond MNs properly so called, a variety of cell types distributed among multiple motor, sensory, and emotional brain areas form a 'mirror mechanism' more complex and flexible than originally thought, which has an evolutionarily conserved role in social interaction. Here, we trace the current limits and envisage the future trends of this discovery, showing that it inspired translational research and the development of new neurorehabilitation approaches, and constitutes a point of no return in social and affective neuroscience. The discovery of mirror neurons (MNs) in several animal species showed that multimodal information about others' actions, emotions, sensations, and communicative messages are mapped onto the beholder's neural substrates devoted to those first-person processes. The mirror mechanism allows a basic and evolutionary widespread remapping of other-related information onto primarily self-related brain structures, in a large variety of domains, with a major role in social cognition and in guiding social interactions. Other-selective neurons may control one's own behavior and intersubject coordination during social interactions, supporting a 'social affordance' hypothesis: hyperscanning studies show similar neural dynamics at the network level in humans. The recruitment of an emotional brain network when observing others' emotional displays subserves autonomic and affective alignment or misalignment with others during social exchanges. Basic research findings inform translational and clinical applications of mirroring mechanisms in a variety of neurorehabilitation approaches and foster biocultural bridges between neuroscience and the humanities. [ABSTRACT FROM AUTHOR]

Published

2022

260. The Very Long Lifetime of 14 C in the Shell Model.

Author

Talmi, Igal

Subjects

*BETA decay, *NUCLEAR shell theory, *NUCLEAR energy, *MIRROR neurons

Abstract

This is a fitting memory for our late friend and colleague Aldo Covello. For many years, he was our host in the series of Spring Seminars which he organized. In these conferences, the shell model was a central subject which was taken very seriously. This paper is written after 70 years of successful shell model calculations of nuclear energies and also various transitions. The beta decay of 14 C has been an enigma. The history and present situation are described. The importance check of any theory to yield the strength of the mirror transition of 14 O is pointed out. [ABSTRACT FROM AUTHOR]

Published

2022

261. Direct coupling coherent quantum observers with discounted mean square performance criteria and penalized back-action.

Author

Vladimirov, Igor G. and Petersen, Ian R.

Subjects

*HARMONIC oscillators, *ALGEBRAIC equations, *MIRROR neurons

Abstract

This paper is concerned with quantum harmonic oscillators consisting of a quantum plant and a directly coupled coherent quantum observer. We employ discounted quadratic performance criteria in the form of exponentially weighted time averages of the second-order moments of the system variables. Small-gain-theorem bounds are obtained for the back-action of the observer on the covariance dynamics of the plant in terms of the plant–observer coupling. A coherent quantum filtering (CQF) problem is formulated as the minimization of the discounted mean square of an estimation error, with which the dynamic variables of the observer approximate those of the plant. The cost functional also involves a quadratic penalty on the plant–observer coupling matrix in order to mitigate the back-action effect. For the discounted mean square optimal CQF problem with penalized back-action, we establish the first-order necessary conditions of optimality in the form of algebraic matrix equations. By using the Hamiltonian structure of the Heisenberg dynamics and Lie-algebraic techniques, this set of equations is represented in a more explicit form for equally dimensioned plant and observer. For a class of such observers with autonomous estimation error dynamics, we obtain a solution of the CQF problem and outline a homotopy method. The computation of the performance criteria and the observer synthesis are illustrated by numerical examples. [ABSTRACT FROM AUTHOR]

Published

2022

262. 基于三维镜框建模的眼镜虚拟试戴系统.

Author

章锌栋 and 付东翔

Subjects

*OPTICAL interference, *MIRROR images, *EULER angles, *VISUALIZATION, *ROTATIONAL motion, *MIRROR neurons, *FACE

Abstract

In the virtual try-on system, virtual glasses need to be superimposed on the face image accurately, which determines the experience of the virtual try-on system. The key technology is to construct a real glasses model and quickly and accurately estimate the 3D face pose of the image. In response to this technical requirement, a virtual try-on technology combining 3D mirror frame modeling and head space pose estimation based on facial feature detection is proposed and a virtual try-on system is implemented. First, the method uses ERT cascade regression to locate the facial feature points of the face images. Then, the VTK visualization tool is adopted to construct a 3D mirror frame, and the processed mirror frame image is accurately fused to the face image according to the information of the face feature points and the rotation information of the head. Finally, the accuracy of the pose estimation method is tested using the AFLW data set. The results show that the algorithm has high precision and fast speed. It can still quickly and accurately realize three-dimensional and multi-angle virtual try-on under complicated conditions of large angles, many background interferences and poor light conditions, which basically meets the requirements of virtual try-on technology. [ABSTRACT FROM AUTHOR]

Published

2022

263. Sports-Related Motor Processing at Different Rates of Force Development.

Author

Flüthmann, Nils, Kato, Kouki, Breuer, Jonas, Bloch, Oliver, and Vogt, Tobias

Subjects

*SENSORIMOTOR cortex, *MIRROR neurons, *ELECTROENCEPHALOGRAPHY, *MUSCLE contraction, *OSCILLATIONS

Abstract

How does our brain manage to process vast quantities of sensory information that define movement performance? By extracting the required movement parameters for which brain dynamics are, inter alia, assumed to be functionally related to, we used electroencephalography to investigate motor-related brain oscillations. Visually guided movement (i.e., motor) tasks at explosive, medium and slow rates of force development (RFD) revealed increased broad-band activity at explosive RFD, whereas decreasing activity could be observed during both intermediate and slow RFD. Moreover, a continuously decreasing activity pattern from faster to slower RFD and a return to baseline activity after full muscle relaxation was found. We suggest oscillatory activity to desynchronize in sensorimotor demanding tasks, whereas task-specific synchronization mirrors movement acceleration. The pre/post-stimulus activity steady state may indicate an inhibitory baseline that provides attentional focus and timing. [ABSTRACT FROM AUTHOR]

Published

2022

264. Effect of Social Context on Cognitive and Motor Behavior: A Systematic Review.

Author

Mnif, Maha, Chikh, Soufien, and Jarraya, Mohamed

Subjects

*SOCIAL context, *MIRROR neurons, *SOCIAL impact, *NEURAL circuitry, *SOCIAL facts, *MOTOR neurons

Abstract

Human cognitive and motor behavior is influenced by the social contexts. The aim of this systematic review is to investigate the impact of the social contexts on human behaviors. A systematic search of the literature was performed via Pub-Med/Medline, Web of sciences, Google scholar, Science direct, Springer-Link and EMBASE and 68 articles were selected. After applying all the inclusion and exclusion criteria, 16 articles were retained. The results show that the presence of other people and the social context influence motor behavior (i.e. movement duration, trajectory behavior, maximum speed) and cognitive behavior (reaction time). Studies have shown an improvement in performance in the presence of other people compared to the individual situation. However, other studies showed that the presence of other people led to deterioration in performance compared to the individual situation. The improvement of behavior is attributed to the social phenomenon of facilitation while the deterioration was explained by the conduct theory or the distraction conflict theory. These social phenomena of facilitation or inhibition could be related to the perception-action theory, which interferes with interaction with other. This, in turn, seems to be associated with neural circuits of mirror neurons and motor system. [ABSTRACT FROM AUTHOR]

Published

2022

265. Mu-desynchronization, N400 and corticospinal excitability during observation of natural and anatomically unnatural finger movements.

Author

Syrov, Nikolay, Bredikhin, Dimitri, Yakovlev, Lev, Miroshnikov, Andrei, and Kaplan, Alexander

Subjects

PYRAMIDAL tract, MIRROR neurons, FINGERS, EVOKED potentials (Electrophysiology), MENTAL representation, HUMAN mechanics

Abstract

The action observation networks (AON) (or the mirror neuron system) are the neural underpinnings of visuomotor integration and play an important role in motor control. Besides, one of the main functions of the human mirror neuron system is recognition of observed actions and the prediction of its outcome through the comparison with the internal mental motor representation. Previous studies focused on the human mirror neurons (MNs) activation during object-oriented movements observation, therefore intransitive movements observation effects on MNs activity remains relatively little-studied. Moreover, the dependence of MNs activation on the biomechanical characteristics of observed movement and their biological plausibility remained highly underexplored. In this study we proposed that naturalness of observed intransitive movement can modulate the MNs activity. Event-related desynchronization (ERD) of sensorimotor electroencephalography (EEG) rhythms, N400 event-related potentials (ERPs) component and corticospinal excitability were investigated in twenty healthy volunteers during observation of simple non-transitive finger flexion that might be either biomechanically natural or unnatural when finger wriggled out toward the dorsal side of palm. We showed that both natural and unnatural movements caused mu/beta-desynchronization, which gradually increased during the flexion phase and returned to baseline while observation of extension. Desynchronization of the mu-rhythm was significantly higher during observation of the natural movements. At the same time, beta-rhythm was not found to be sensitive to the action naturalness. Also, observation of unnatural movements caused an increased amplitude of the N400 component registered in the centro-parietal regions. We suggest that the sensitivity of N400 to intransitive action observation with no explicit semantic context might imply the broader role of N400 sources within AON. Surprisingly, no changes in corticospinal excitability were found. This lack of excitability modulation by action observation could be related with dependence of the M1 activity on the observed movement phase. [ABSTRACT FROM AUTHOR]

Published

2022

266. The Mu Rhythm in Current Research: Theoretical and Methodological Aspects.

Author

Larionova, E. V., Garakh, Zh. V., and Zaytseva, Yu. S.

Subjects

MIRROR neurons, RHYTHM, SENSORIMOTOR cortex

Abstract

The mu rhythm is of interest in research into a wide range of processes, from motor functions to language processes and emotions. This rhythm includes at least two nonharmonic components in the α (8–13 Hz) and β (15–25 Hz) frequency ranges, with different functional roles, indicating the need for them to be studied independently. Overlap with α activity requires the effects of changes in attention to be monitored, with consideration of electrical activity not confined to the central leads, and also the application of mathematical methods of discriminating the mu and α rhythms. Mu rhythm suppression has been proposed as an index of arousal for the mirror neuron system, which has provoked much discussion and many studies, including those linked with the potential mixing of mirror neuron system activity and attention system activity. This review addresses current research in the context of these three aspects and includes results from the authors' own research. [ABSTRACT FROM AUTHOR]

Published

2022

267. Koncepcja ucieleśnionego poznania w kognitywnej teorii filmu.

Author

Ostaszewski, Jacek

Abstract

Copyright of Film Quarterly / Kwartalnik Filmowy is the property of Kwartalnik Filmowy and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

268. A guideline for realistic accelerated aging testing of silvered-glass reflectors.

Author

Wette, Johannes, Wiesinger, Florian, Sutter, Florian, Buendía-Martínez, Francisco, and Fernández-García, Aránzazu

Subjects

*ACCELERATED life testing, *SOLAR reflectors, *MIRRORS, *MIRROR neurons, *STANDARDS

Abstract

Accelerated aging testing can be a useful tool to evaluate the durability of solar reflectors for CSP applications. The selection of suitable testing procedures and parameters is essential to be able to create viable results. Despite important research efforts in the past, there is still a lack of agreement on the selection of these tests for silvered-glass mirrors and only one standard was published so far. This standard presents a series of tests without acceptance criteria and still lacks a correlation to real outdoor results. In this paper a guideline is presented that helps to select tests and parameters for silvered- glass mirrors for different purposes. All parameters are determined based on the correlation of outdoor data and the respective accelerated test results for a variety of different materials. On one hand, it allows for quick and easy screening for degradation mechanisms and the direct comparison of the durability of different materials. On the other hand, more complex lifetime prediction procedures are presented that enable the estimation of the behavior of the reflector materials depending on the foreseen exposure site. Depending on defined maximum degradation by the user, acceptance criteria for the accelerated tests are proposed. The development of the guideline into an international standard within the IEC framework is ongoing. [ABSTRACT FROM AUTHOR]

Published

2022

269. MIND MELD: Personalized Meta-Learning for Robot-Centric Imitation Learning.

Author

Schrum, Mariah L., Hedlund-Botti, Erin, Moorman, Nina, and Gombolay, Matthew C.

Subjects

ROBOT programming, COMPUTER programming, MIRROR neurons

Abstract

Learning from demonstration (LfD) techniques seek to enable users without computer programming experience to teach robots novel tasks. There are generally two types of LfD: human- and robot-centric. While human-centric learning is intuitive, human centric learning suffers from performance degradation due to covariate shift. Robot-centric approaches, such as Dataset Aggregation (DAgger), address covariate shift but can struggle to learn from suboptimal human teachers. To create a more human-aware version of robot-centric LfD, we present Mutual Information-driven Meta-learning from Demonstration (MIND MELD). MIND MELD meta-learns a mapping from suboptimal and heterogeneous human feedback to optimal labels, thereby improving the learning signal for robot-centric LfD. The key to our approach is learning an informative personalized embedding using mutual information maximization via variational inference. The embedding then informs a mapping from human provided labels to optimal labels. We evaluate our framework in a human-subjects experiment, demonstrating that our approach improves corrective labels provided by human demonstrators. Our framework outperforms baselines in terms of ability to reach the goal (p < .001), average distance from the goal (p = .006), and various subjective ratings (p = .008). [ABSTRACT FROM AUTHOR]

Published

2022

270. Neurociencia

Author

Gonzalez Quezada, Daniel, Yanangómez Yaguachi, María del Carmen, González Quezada, Esther, Gonzalez Quezada, Daniel, Yanangómez Yaguachi, María del Carmen, and González Quezada, Esther

Abstract

The empathic attitude is more appreciated in the educational field every day; because the students' greatest academic achievement, is related to their teachers’ confidence in their abilities, and his/her positive appreciation shown towards them. In this context, the present study is developed, which was intended to explain from a neuroscientific perspective, the impact of a teacher’s negative attitudes on the school performance of a 7-year-old girl. The research corresponded to a non-experimental design with a descriptive, correlational, and explanatory approach. The analysis allowed to understand the incidence of an infant's exposure to conditions of adversity and psychological violence by the teacher, in the architecture of her brain; whose effects transcend health, as well as her behavior, and learning process. It is concluded by emphasizing the importance of strengthening socio-emotional skills such as teacher empathy in the educational field, to generate healthy and motivating learning environments., La actitud empática se valora cada día más en el ámbito educativo; pues los grandes logros a nivel académico en los estudiantes, están ampliamente relacionados con la confianza en sus capacidades, y la apreciación positiva que les proyectan sus maestros. En tal contexto, se desarrolla el presente estudio, que buscó principalmente explicar desde una perspectiva neurocientífica el impacto de la actitud docente en el rendimiento escolar de una niña de 7 años. La investigación correspondió a un diseño no experimental de alcance descriptivo, correlacional y explicativo. Los análisis permitieron comprender la incidencia de la exposición de un infante a condiciones de adversidad y de violencia psicológica de parte del docente, en la arquitectura de su cerebro; y, consecuentemente en su a salud, comportamiento y aprendizaje. Se concluye enfatizando en la importancia de afianzar habilidades socioemocionales como la empatía docente en el ámbito educativo, para generar entornos saludables y motivantes de aprendizaje.

Published

2024

271. The Challenges of Machine Learning: A Critical Review

Author

Barbierato, Enrico, Gatti, A., Barbierato E. (ORCID:0000-0003-1466-0248), Barbierato, Enrico, Gatti, A., and Barbierato E. (ORCID:0000-0003-1466-0248)

Abstract

The concept of learning has multiple interpretations, ranging from acquiring knowledge or skills to constructing meaning and social development. Machine Learning (ML) is considered a branch of Artificial Intelligence (AI) and develops algorithms that can learn from data and generalize their judgment to new observations by exploiting primarily statistical methods. The new millennium has seen the proliferation of Artificial Neural Networks (ANNs), a formalism able to reach extraordinary achievements in complex problems such as computer vision and natural language recognition. In particular, designers claim that this formalism has a strong resemblance to the way the biological neurons operate. This work argues that although ML has a mathematical/statistical foundation, it cannot be strictly regarded as a science, at least from a methodological perspective. The main reason is that ML algorithms have notable prediction power although they cannot necessarily provide a causal explanation about the achieved predictions. For example, an ANN could be trained on a large dataset of consumer financial information to predict creditworthiness. The model takes into account various factors like income, credit history, debt, spending patterns, and more. It then outputs a credit score or a decision on credit approval. However, the complex and multi-layered nature of the neural network makes it almost impossible to understand which specific factors or combinations of factors the model is using to arrive at its decision. This lack of transparency can be problematic, especially if the model denies credit and the applicant wants to know the specific reasons for the denial. The model’s “black box” nature means it cannot provide a clear explanation or breakdown of how it weighed the various factors in its decision-making process. Secondly, this work rejects the belief that a machine can simply learn from data, either in supervised or unsupervised mode, just by applying statistical methods.

Published

2024

272. The Effect of Video-Based Action Observation Training and Live Action Observation Training on Motor Function, Activity Participation, and Secondary Outcome Measures in Children With Spastic Diparetic Cerebral Palsy: A Randomized Controlled Study.

Author

Demirtas Karaoba D and Talu B

Subjects

Humans, Child, Female, Male, Adolescent, Child, Preschool, Treatment Outcome, Video Recording methods, Motor Activity physiology, Outcome Assessment, Health Care, Cerebral Palsy physiopathology, Cerebral Palsy rehabilitation, Physical Therapy Modalities

Abstract

Background: This study aimed to investigate the effects of Video-Based Action Observation Training and Live Action Observation Training on motor function, activity participation, and secondary outcome measures in children with spastic diparetic cerebral palsy (CP)., Materials and Methods: Thirty-nine children with spastic diparetic cerebral palsy, aged 5-14 years, with Gross Motor Function Classification System I-III, were distributed in equal numbers to any of the Video-Based Action Observation Training (conventional physiotherapy + Video-Based Action Observation Training), Live Action Observation Training (conventional physiotherapy + Live Action Observation Training), and control (conventional physiotherapy) groups through stratified randomization. For 8 weeks, action observation training groups received 20 minutes of conventional physiotherapy followed by 20 minutes of action observation training, and the control group received 40 minutes of conventional physiotherapy. Primary outcome measures were Gross Motor Function Measurement and Child and Adolescent Scale of Participation, secondary outcome measures were Pediatric Berg Balance Scale, timed-up-and-go test, five times sit-to-stand test (FTSST), Gillette Functional Assessment Questionnaire (GFAQ), and 1-minute walk test (1MWT)., Results: Improvements were observed in all other evaluation parameters of the groups except Gross Motor Function Measurement-lying and rolling ( P  = .066) in the Live Action Observation Training Group, and lying and rolling ( P  = .317) and crawling and kneeling ( P  = .063) motor subtests and Gillette Functional Assessment Questionnaire-walking scale ( P  = .513) in the control group. Comparisons of the increases in all other measurements between the groups, except for the dimensions of Gross Motor Function Measurement-lying and rolling ( P  = .172), were statistically significant ( P  < .05) and this difference was in favor of action observation training., Conclusion: It was found that 2 different AOTs applied in addition to conventional physiotherapy in children with spastic diparetic cerebral palsy were more effective on all outcomes than was conventional physiotherapy alone., Competing Interests: Declaration of Conflicting InterestsThe authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024

273. Art therapy and neuroscience: evidence, limits, and myths.

Author

Strang CE

Abstract

The evidence base for the effectiveness of art therapy continues to grow, even as a mechanistic understanding of how art therapy works remains limited. One promising avenue for increasing our understanding of how and why art therapy works is through the lens of neuroscience. A neuroscience-based approach to art therapy provides opportunities for improving understanding of the neural processes that underlie the complex interaction between perception, cognition, emotion and behavior that play out in the art therapy process. Understanding how therapeutic change occurs can result in improved treatment and better outcomes for clients. However, it can be tricky to connect art therapy and psychological theory directly to neural responses. The purposes of this perspective are to provide an overview of the current evidence and limits of neurobiological concepts of neuroplasticity, mirror systems, and interoception as applied to art therapy practice, and to provide updated information about outdated concepts that are still actively used in clinical practice. Critical analysis and understanding of the current scientific knowledge base can then be used to guide art therapy practice and support the development of hypothesis-based research to determine the primary mechanisms that drive the observed effects of art therapy interventions., Competing Interests: The author declares that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Strang.)

Published

2024

274. Action observation therapy impact on mirror neurons combined with acupuncture for upper limb motor impairment rehabilitation in stroke patients.

Author

Maimaitiaili D, Shi J, Shan C, Jin L, Gu Y, Li Y, and Shu J

Abstract

Objective: Upper limb (UL) dysfunction rehabilitation in stroke patients is complicated in the clinic. Action observation therapy's (AOT) impact on mirror neurons (MNs) has been observed and made applications in related brain disease treatment. Acupuncture mentioned in the present study mainly stimulates peripheral nerves for neuronal plasticity. However, the clinical effect of AOT impact on MNs and acupuncture irritate afferent nerve fibers in combination for UL motor impairment rehabilitation after stroke is still unclear. In the present study, we investigate the central and peripheral neural stimulation meanwhile for UL recovery with stroke patients., Methods: In this clinical study, 82 stroke patients recruited with impaired UL were randomly assigned to three groups. Twenty-four cases were in the AOT group, 28 cases were in the AOT combined acupuncture treatment group, and 30 cases were in the acupuncture treatment group. All volunteers were scored for limb function through the Fugl-Meyer Assessment of the Upper Extremity (FMA-UE), the Action Research Arm Test, and the modified Barthel Index (BI) before and after a systematic treatment according to the groups. Meanwhile, conventional physical therapy was also implemented for all cases., Results: Before the specific intervention, the scores of FMA-UE, FMA-UE, and BI with all stroke patients have no significant statistical difference ( P > 0.05). After the corresponding treatment, we assessed UL function again at 4 and 8 weeks. At 4 weeks, the patients with AOT showed a significant increase in BI scores compared to the acupuncture group ( P < 0.05). At 8 weeks, the FMA-UE scores of the patients with AOT combined with acupuncture were significantly increased than acupuncture alone ( P < 0.05). We also observed that the BI scores of the combination and the AOT group both were improved compared to the acupuncture group with significant statistical analysis ( P < 0.05)., Conclusions: Based on the MNs theory, we adopted AOT impact on MNs which would be a promising rehabilitation technique, especially combined with acupuncture treatment in UL recovery of stroke. Mirror therapy seems to be effective for central neuronal plasticity, but for action or AOT, there is still insufficient evidence to recommend its optimal strategy and neuromodulation mechanism. Here, research on the MNs-based AOT technique with acupuncture in UL dysfunction with stroke patients is recommended. TRIAL REGISTRATION: http://www.chictr.org.cn (identifier: ChiCTR2300077010)., Competing Interests: There are no conflicts of interest., (Copyright: © 2024 Brain Circulation.)

Published

2024

275. Understanding empathy and De Waal's contribution within the fields of social neurosciences.

Author

Ferrari PF

Abstract

This review delves into the remarkable career and scientific contributions of Frans de Waal, a renowned figure in the field of ethology, primatology with important implications for the field of social neurosciences. Rooted in the Dutch tradition of ethology, influenced by luminaries like Niko Tinbergen and Jan Van Hooff, De Waal's career began with groundbreaking research on chimpanzees, which questioned long-held beliefs about dominance and aggression in animal behavior. His work, epitomized in his influential books, such as "Chimpanzee Politics", "The ape and the sushi master", "The age of empathy", not only revolutionized scientific thinking but also ignited discussions about empathy, morality, and complex cognitive functions in animals. De Waal's interdisciplinary approach extended to neuroscience, particularly in understanding empathy, contributing to the development of an original model: the Perception-Action Model (PAM). The fundamental concept of PAM is that even the most intricate forms of empathy stem from basic neural mechanisms of action-perception, such as mirror neurons. Some behavioral phenomena like motor mimicry and emotional contagion arise from a direct neuroanatomical network activity where sensory information about others' emotional states triggers corresponding behavioral responses. Intriguingly, even the most intricate forms of empathy such as concern, consolation and targeted helping, may have evolved from basic neural mechanisms of action-perception.Through these investigations and theoretical explorations, he advocated for a bottom-up approach to comprehending the cognitive abilities of animals. This approach challenged conventional anthropocentric perspectives and underscored the interconnected emotional and cognitive terrain shared among humans and other species. Beyond academia, De Waal's work has profound implications for how we perceive and interact with animals. By debunking notions of human exceptionalism, he highlights the rich tapestry of emotions that bind all living beings. Through his efforts, De Waal has not only advanced our scientific understanding of animal minds but also fostered a more profound appreciation for the depth of emotional connections across species., (Copyright © 2024. Published by Elsevier Ltd.)

Published

2024

276. Anatomo-functional basis of emotional and motor resonance elicited by facial expressions.

Author

Del Vecchio M, Avanzini P, Gerbella M, Costa S, Zauli FM, d'Orio P, Focacci E, Sartori I, and Caruana F

Subjects

Humans, Male, Female, Adult, Young Adult, Middle Aged, Brain Mapping methods, Electric Stimulation, Insular Cortex diagnostic imaging, Insular Cortex physiology, Magnetic Resonance Imaging methods, Emotions physiology, Facial Expression

Abstract

Simulation theories predict that the observation of other's expressions modulates neural activity in the same centres controlling their production. This hypothesis has been developed by two models, postulating that the visual input is directly projected either to the motor system for action recognition (motor resonance) or to emotional/interoceptive regions for emotional contagion and social synchronization (emotional resonance). Here we investigated the role of frontal/insular regions in the processing of observed emotional expressions by combining intracranial recording, electrical stimulation and effective connectivity. First, we intracranially recorded from prefrontal, premotor or anterior insular regions of 44 patients during the passive observation of emotional expressions, finding widespread modulations in prefrontal/insular regions (anterior cingulate cortex, anterior insula, orbitofrontal cortex and inferior frontal gyrus) and motor territories (Rolandic operculum and inferior frontal junction). Subsequently, we electrically stimulated the activated sites, finding that (i) in the anterior cingulate cortex and anterior insula, the stimulation elicited emotional/interoceptive responses, as predicted by the 'emotional resonance model'; (ii) in the Rolandic operculum it evoked face/mouth sensorimotor responses, in line with the 'motor resonance' model; and (iii) all other regions were unresponsive or revealed functions unrelated to the processing of facial expressions. Finally, we traced the effective connectivity to sketch a network-level description of these regions, finding that the anterior cingulate cortex and the anterior insula are reciprocally interconnected while the Rolandic operculum is part of the parieto-frontal circuits and poorly connected with the former. These results support the hypothesis that the pathways hypothesized by the 'emotional resonance' and the 'motor resonance' models work in parallel, differing in terms of spatio-temporal fingerprints, reactivity to electrical stimulation and connectivity patterns., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

277. Docs that do justice to the facts.

Author

Solazzo, Carole

Subjects

HISTORY of crime, COMING out (Sexual orientation), POSTAL service, NATURAL history, MIRROR neurons

Abstract

This article discusses the storytelling techniques used in documentaries to engage and captivate audiences. It highlights the success of true crime documentaries, such as "Libby, Are You Home Yet?" and "The Push: Murder on the Cliff," in creating tension and suspense by introducing compelling characters and setting up a search for justice. The article also explores how other genres, such as history and travel documentaries, employ similar storytelling techniques to keep viewers interested. The key to a successful documentary is to structure the story in a way that engages and entertains the audience while conveying the intended message. [Extracted from the article]

Published

2024

278. Music and Mirror Neuron System

Author

Nuara, Arturo and Colombo, Bruno, editor

Published

2020

279. Painting in Neurology

Author

Piechowski-Jozwiak, Bartlomiej, Bogousslavsky, Julien, and Colombo, Bruno, editor

Published

2020

280. Role of Imitation and Appropriation in the Cognitive Development

Author

Damasceno, Benito and Damasceno, Benito

Published

2020

281. The Evolution of Nonviolence and Its Neurological Basis

Author

Kool, V. K., Agrawal, Rita, Kool, V. K., and Agrawal, Rita

Published

2020

282. Two modes of being together: The levels of intersubjectivity and human relatedness in neuroscience and psychoanalytic thinking

Author

Riccardo Williams and Cristina Trentini

Subjects

contingent intersubjectivity, mentalization, self-other representations, psychoanalysis, neuroscience, mirror neurons, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The notion of intersubjectivity has achieved a primary status in contemporary psychoanalytic debate, stimulating new theoretical proposals as well as controversies. This paper presents an overview of the main contributions on inter-subjectivity in the field of neurosciences. In humans as well as—probably—in other species, the ability for emotional resonance is guaranteed early in development. Based on this capacity, a primary sense of connectedness is established that can be defined inter-subjective in that it entails sharing affective states and intentions with caregivers. We propose to define such a form of inter-subjectivity as contingent, since the infant’s early abilities for resonance do not imply the more generalized capacity to permanently conceive of the relationship outside the realm of current interactions and the infant-caregiver’s mutual correspondence of internal states. This form of connection, hence, results in a self-referential, bodily, and affectively codified, context- and time dependent, like-me experience of interactions. The gradual maturation of brain structures and processes as well as interactive experiences allow proper intersubjectivity exchanges, grounded on new intentional and representational capacities, to evolve. In this more mature form of intersubjectivity, the individual is allowed to conceive of her own psychic space both as distinct and as possibly connected with the other’s contents and experience, even in the absence of current behavioral indicators of such correspondence. This multi-layered model of intersubjectivity, which is embraced by current neuroscience research, seems to allow for new interpretations of psychoanalytic models of human relatedness based upon classic clinical observations.

Published

2022

283. Brain–Computer Interface Training of mu EEG Rhythms in Intellectually Impaired Children with Autism: A Feasibility Case Series

Author

LaMarca, Kristen, Gevirtz, R., Lincoln, Alan J., and Pineda, Jaime A.

Published

2023

284. Homo Mimeticus II

Author

Lawtoo, Nidesh and Garcia-Granero, Marina

Subjects

Imitation, mimetic studies, intersubjectivity, contagion, biomimicry, identification, mirror neurons, Plato, Nietzsche, Bataille, thema EDItEUR::Q Philosophy and Religion::QD Philosophy::QDH Philosophical traditions and schools of thought::QDHR Western philosophy from c 1800, thema EDItEUR::Q Philosophy and Religion::QD Philosophy::QDT Topics in philosophy::QDTN Philosophy: aesthetics, thema EDItEUR::J Society and Social Sciences::JP Politics and government::JPA Political science and theory, thema EDItEUR::D Biography, Literature and Literary studies::DS Literature: history and criticism::DSA Literary theory, thema EDItEUR::J Society and Social Sciences::JB Society and culture: general::JBC Cultural and media studies::JBCC Cultural studies, thema EDItEUR::A The Arts::AT Performing arts::ATF Films, cinema::ATFA Film history, theory or criticism, thema EDItEUR::D Biography, Literature and Literary studies::DS Literature: history and criticism::DSM Comparative literature

Abstract

Second volume in the Homo Mimeticus mini-series, which advances the emerging transdisciplinary field of mimetic studies After the linguistic and the affective turns, the new materialist and the performative turns, the cognitive and the posthuman turns, it is now time to re-turn to the ancient, yet also modern and still contemporary realization that humans are mimetic creatures. In this second installment of the Homo Mimeticus series, international scholars working in philosophy, literary theory, classics, cultural studies, sociology, political theory, and the neurosciences engage creatively with Nidesh Lawtoo's Homo Mimeticus: A New Theory of Imitation to further the transdisciplinary field of mimetic studies. Agonistic critical engagements with precursors like Plato, Aristotle, Nietzsche, Bataille, Irigaray and Girard, involving contributions by leading international thinkers such as Mikkel Borch-Jacobsen, William E. Connolly, Henry Staten and Vittorio Gallese among many others, reveal the urgency to rethink mimesis beyond realism. From imitation to identification, mimicry to affective contagion, techne to simulation, mirror neurons to biomimicry, homo mimeticus casts a shadow—but also a light—on the present and future, from social media to the Anthropocene.

Published

2024

285. Skill-learning by observation-training with patients after traumatic brain injury.

Author

Avraham, Einat, Sacher, Yaron, Maaravi-Hesseg, Rinatia, Karni, Avi, and Doron, Ravid

Subjects

BRAIN injuries, LONG-term memory, FUNCTIONAL independence measure, OBSERVATIONAL learning, MOTOR ability

Abstract

Traumatic brain injury (TBI) is a major cause of death and disability in Western society, and often results in functional and neuropsychological abnormalities. Memory impairment is one of the most significant cognitive implications after TBI. In the current study we investigated procedural memory acquisition by observational training in TBI patients. It was previously found that while practicing a new motor skill, patients engage in all three phases of skill learning-fast acquisition, between-session consolidation, and long-term retention, though their pattern of learning is atypical compared to healthy participants. A different set of studies showed that training by observing a motor task, generally prompted effective acquisition and consolidation of procedural knowledge in healthy participants. The aim of our study was to (i) evaluate the potential benefit of action observation in TBI patients. (ii) Examine the possibility of general improvement in performance between the first (24 h post-training) and second (2 weeks post-training) stage of the study. (iii) Investigate the link between patients' ability to benefit from observational learning (via performance gains-speed and accuracy) and common measures of injury (such as severity of injury, functional and cognitive measures). Materials and methods: Patients hospitalized after moderate to severe TBI, were trained by observation for the finger opposition sequence (FOS) motor task. They were then tested for the observation-trained sequence (A) and a similar control sequence (B), at two different time-points (24 h post-training and 2 weeks later). Results revealed: (i) a significant difference in performance between the trained (A) and untrained (B) sequences, in favor of the trained sequence. (ii) An increase in performance for both sequences A and B toward the second (retention) session. (iii) The advantage for sequence A was stable and preserved also in the second session. (iv) Participants with lower moderate Functional Independence Measure (FIM) scores gained more from observational-procedural learning, compared with patients with higher functional abilities. Conclusion: Overall, these findings support the notion that TBI patients may achieve procedural memory consolidation and retention through observational learning. Moreover, different functional traits may predict the outcomes of observational training in different patients. These findings may have significant practical implications in the future, regarding skill acquisition methods in TBI patients. [ABSTRACT FROM AUTHOR]

Published

2022

286. 2-Methoxyestradiol inhibits carotid artery intimal hyperplasia induced by balloon injury via inhibiting JAK/STAT axis in rats.

Author

Azhar, Ahmad S., Abdel-Naim, Ashraf B., and Ashour, Osama M.

Subjects

TUMOR necrosis factors, HYPERPLASIA, DRUG delivery systems, MIRROR neurons, CAROTID artery, SUPEROXIDE dismutase, ZETA potential

Abstract

Intimal hyperplasia (IH) is a common complication of vascular interventional procedures that leads to narrowing of the vessel lumen. 2-Methoxyestradiol (2ME), an estrogen metabolite, has numerous pharmacological actions, including vasoprotective and antiproliferative activities. The present study aimed to evaluate the potential of 2ME, prepared as a self-nanoemulsifying drug delivery system (SNEDDS), to inhibit IH induced by balloon injury (BI) in the rat carotid artery. The prepared 2ME SNEDDS had a particle size of 119 ± 2.3 nm and a zeta potential of −7.1 ± 1.4 mV. Animals were divided into 5 groups, namely control, sham, BI, BI + 2ME (100 μg/kg), and BI + 2ME (250 μg/kg). The obtained data indicated that 2ME significantly inhibited IH as indicated by the histological and morphometric assessment of the intima, media and lumen areas. This was associated with enhanced expression of Bax and inhibited expression of Bcl2 mRNA. Furthermore, 2ME exhibited significant antioxidant properties as evidenced by prevention of malondialdehyde accumulation as well as superoxide dismutase and catalase enzymatic exhaustion. In addition, 2ME showed significant anti-inflammatory actions as it significantly inhibited vascular content of interleukin-6, tumor necrosis factor-alpha, and nuclear factor-κB. The observed vasoprotective activities of 2ME were accompanied by inhibition of Janus kinase/signal transducers and activators of transcription (JAK/STAT) protein expression. In conclusion, this study revealed that 2ME ameliorates balloon injury-induced IH in rats via suppressing JAK/STAT axis. This may help to develop new strategies to combat IH. [ABSTRACT FROM AUTHOR]

Published

2022

287. Differences in working memory coding of biological motion attributed to oneself and others.

Author

Woźniak, Mateusz, Schmidt, Timo Torsten, Wu, Yuan‐hao, Blankenburg, Felix, and Hohwy, Jakob

Subjects

*SHORT-term memory, *PREFRONTAL cortex, *FUNCTIONAL magnetic resonance imaging, *MOTOR cortex, *TEMPOROPARIETAL junction

Abstract

The question how the brain distinguishes between information about self and others is of fundamental interest to both philosophy and neuroscience. In this functional magnetic resonance imaging (fMRI) study, we sought to distinguish the neural substrates of representing a full‐body movement as one's movement and as someone else's movement. Participants performed a delayed match‐to‐sample working memory task where a retained full‐body movement (displayed using point‐light walkers) was arbitrarily labeled as one's own movement or as performed by someone else. By using arbitrary associations we aimed to address a limitation of previous studies, namely that our own movements are more familiar to us than movements of other people. A searchlight multivariate decoding analysis was used to test where information about types of movement and about self‐association was coded. Movement specific activation patterns were found in a network of regions also involved in perceptual processing of movement stimuli, however not in early sensory regions. Information about whether a memorized movement was associated with the self or with another person was found to be coded by activity in the left middle frontal gyrus (MFG), left inferior frontal gyrus (IFG), bilateral supplementary motor area, and (at reduced threshold) in the left temporoparietal junction (TPJ). These areas are frequently reported as involved in action understanding (IFG, MFG) and domain‐general self/other distinction (TPJ). Finally, in univariate analysis we found that selecting a self‐associated movement for retention was related to increased activity in the ventral medial prefrontal cortex. [ABSTRACT FROM AUTHOR]

Published

2022

288. Toxic and Phenotypic Effects of AAV_Cre Used to Transduce Mesencephalic Dopaminergic Neurons.

Author

Erben, Larissa, Welday, Jacqueline P., Murphy, Ricardo, and Buonanno, Andres

Subjects

*POISONS, *TYROSINE hydroxylase, *CHIMERIC proteins, *ADENO-associated virus, *PHENOTYPES, *DOPAMINERGIC neurons, *MIRROR neurons

Abstract

A popular approach to spatiotemporally target genes using the loxP/Cre recombination system is stereotaxic microinjection of adeno-associated virus (AAV) expressing Cre recombinase (AAV_Cre) in specific neuronal structures. Here, we report that AAV_Cre microinjection in the ventral tegmental area (VTA) of ErbB4 Cyt-1-floxed (ErbB4 Cyt-1fl/fl) mice at titers commonly used in the literature (~1012–1013 GC/mL) can have neurotoxic effects on dopaminergic neurons and elicit behavioral abnormalities. However, these effects of AAV_Cre microinjection are independent of ErbB4 Cyt-1 recombination because they are also observed in microinjected wild-type (WT) controls. Mice microinjected with AAV_Cre (1012–1013 GC/mL) exhibit reductions of tyrosine hydroxylase (TH) and dopamine transporter (DAT) expression, loss of dopaminergic neurons, and they behaviorally become hyperactive, fail to habituate in the open field and exhibit sensorimotor gating deficits compared to controls microinjected with AAV_GFP. Importantly, these AAV_Cre non-specific effects are: (1) independent of serotype, (2) occur with vectors expressing either Cre or Cre-GFP fusion protein and (3) preventable by reducing viral titers by 1000-fold (1010 GC/mL), which retains sufficient recombination activity to target floxed genes. Our studies emphasize the importance of including AAV_Cre-injected WT controls in experiments because recombination-independent effects on gene expression, neurotoxicity and behaviors could be erroneously attributed to consequences of gene ablation. [ABSTRACT FROM AUTHOR]

Published

2022

289. Neural evidence for non-orofacial triggers in mild misophonia.

Author

Hansen, Heather A., Stefancin, Patricia, Leber, Andrew B., and Saygin, Zeynep M.

Subjects

AUDITORY cortex, MOTOR cortex, MIRROR neurons, SENSORIMOTOR cortex, INSULAR cortex

Abstract

Misophonia, an extreme aversion to certain environmental sounds, is a highly prevalent yet understudied condition plaguing roughly 20% of the general population. Although neuroimaging research on misophonia is scant, recent work showing higher resting-state functional connectivity (rs-fMRI) between auditory cortex and orofacial motor cortex in misophonia vs. controls has led researchers to speculate that misophonia is caused by orofacial mirror neurons. Since orofacial motor cortex was defined using rsfMRI, we attempted to theoretically replicate these findings using orofacial cortex defined by task-based fMRI instead. Further, given our recent work showing that a wide variety of sounds can be triggering (i.e., not just oral/nasal sounds), we investigated whether there is any neural evidence for misophonic aversion to non-orofacial stimuli. Sampling 19 adults with varying misophonia from the community, we collected resting state data and an fMRI task involving phoneme articulation and finger-tapping. We first defined "orofacial" cortex in each participant using rs-fMRI as done previously, producing what we call resting-state regions of interest (rsROIs). Additionally, we functionally defined regions (fROIs) representing "orofacial" or "finger" cortex using phoneme or finger-tapping activation from the fMRI task, respectively. To investigate the motor specificity of connectivity differences, we subdivided the rsROIs and fROIs into separate sensorimotor areas based on their overlap with two common atlases. We then calculated rs-fMRI between each rsROI/fROI and a priori non-sensorimotor ROIs. We found increased connectivity in mild misophonia between rsROIs and both auditory cortex and insula, theoretically replicating previous results, with differences extending across multiple sensorimotor regions. However, the orofacial task-based fROIs did not show this pattern, suggesting the "orofacial" cortex described previously was not capturing true orofacial cortex; in fact, using task-based fMRI evidence, we find no selectivity to orofacial action in these previously described "orofacial" regions. Instead, we observed higher connectivity between finger fROIs and insula in mild misophonia, demonstrating neural evidence for non-orofacial triggers. These results provide support for a neural representation of misophonia beyond merely an orofacial/motor origin, leading to important implications for the conceptualization and treatment of misophonia. [ABSTRACT FROM AUTHOR]

Published

2022

290. Local molecular and global connectomic contributions to cross-disorder cortical abnormalities.

Author

Hansen, Justine Y., Shafiei, Golia, Vogel, Jacob W., Smart, Kelly, Bearden, Carrie E., Hoogman, Martine, Franke, Barbara, van Rooij, Daan, Buitelaar, Jan, McDonald, Carrie R., Sisodiya, Sanjay M., Schmaal, Lianne, Veltman, Dick J., van den Heuvel, Odile A., Stein, Dan J., van Erp, Theo G. M., Ching, Christopher R. K., Andreassen, Ole A., Hajek, Tomas, and Opel, Nils

Subjects

MIRROR neurons, PARIETAL lobe, BRAIN abnormalities, HUMAN abnormalities, BRAIN mapping, TEMPORAL lobe, NEUROTRANSMITTER receptors, PREMOTOR cortex

Abstract

Numerous brain disorders demonstrate structural brain abnormalities, which are thought to arise from molecular perturbations or connectome miswiring. The unique and shared contributions of these molecular and connectomic vulnerabilities to brain disorders remain unknown, and has yet to be studied in a single multi-disorder framework. Using MRI morphometry from the ENIGMA consortium, we construct maps of cortical abnormalities for thirteen neurodevelopmental, neurological, and psychiatric disorders from N = 21,000 participants and N = 26,000 controls, collected using a harmonised processing protocol. We systematically compare cortical maps to multiple micro-architectural measures, including gene expression, neurotransmitter density, metabolism, and myelination (molecular vulnerability), as well as global connectomic measures including number of connections, centrality, and connection diversity (connectomic vulnerability). We find a relationship between molecular vulnerability and white-matter architecture that drives cortical disorder profiles. Local attributes, particularly neurotransmitter receptor profiles, constitute the best predictors of both disorder-specific cortical morphology and cross-disorder similarity. Finally, we find that cross-disorder abnormalities are consistently subtended by a small subset of network epicentres in bilateral sensory-motor, inferior temporal lobe, precuneus, and superior parietal cortex. Collectively, our results highlight how local molecular attributes and global connectivity jointly shape cross-disorder cortical abnormalities. Changes to structural and functional connectivity can give rise to neurodegeneration and neurodevelopmental diseases. Here the authors investigate molecular and connectomic patterns in 13 different neurological, psychiatric and neurodevelopmental diseases from the ENIGMA consortium. [ABSTRACT FROM AUTHOR]

Published

2022

291. The tumor and plasma cytokine profiles of renal cell carcinoma patients.

Author

Lee, Moon Hee, Laajala, Essi, Kreutzman, Anna, Järvinen, Petrus, Nísen, Harry, Mirtti, Tuomas, Hollmén, Maija, and Mustjoki, Satu

Subjects

*RENAL cell carcinoma, *TUMOR-infiltrating immune cells, *CYTOKINES, *MIRROR neurons, *CHEMOKINES, *RENAL cancer

Abstract

Renal cell carcinoma (RCC) accounts for 90% of all renal cancers and is considered highly immunogenic. Although many studies have reported the circulating peripheral cytokine profiles, the signatures between the tumor tissue and matching healthy adjacent renal tissue counterparts have not been explored. We aimed to comprehensively investigate the cytokine landscape of RCC tumors and its correlation between the amount and phenotype of the tumor infiltrating lymphocytes (TILs). We analyzed the secretion of 42 cytokines from the tumor (n = 46), adjacent healthy kidney tissues (n = 23) and matching plasma samples (n = 33) with a Luminex-based assay. We further explored the differences between the tissue types, as well as correlated the findings with clinical data and detailed immunophenotyping of the TILs. Using an unsupervised clustering approach, we observed distinct differences in the cytokine profiles between the tumor and adjacent renal tissue samples. The tumor samples clustered into three distinct profiles based on the cytokine expressions: high (52.2% of the tumors), intermediate (26.1%), and low (21.7%). Most of the tumor cytokines positively correlated with each other, except for IL-8 that showed no correlation with any of the measured cytokine expressions. Furthermore, the quantity of lymphocytes in the tumor samples analyzed with flow cytometry positively correlated with the chemokine-family of cytokines, CXCL10 (IP-10) and CXCL9 (MIG). No significant correlations were found between the tumor and matching plasma cytokines, suggesting that circulating cytokines poorly mirror the tumor cytokine environment. Our study highlights distinct cytokine profiles in the RCC tumor microenvironment and provides insights to potential biomarkers for the treatment of RCC. [ABSTRACT FROM AUTHOR]

Published

2022

292. Single Camera Face Position-Invariant Driver's Gaze Zone Classifier Based on Frame-Sequence Recognition Using 3D Convolutional Neural Networks.

Author

Lollett, Catherine, Kamezaki, Mitsuhiro, and Sugano, Shigeki

Subjects

*CONVOLUTIONAL neural networks, *GAZE, *FACE, *CAMERAS, *MIRROR neurons

Abstract

Estimating the driver's gaze in a natural real-world setting can be problematic for different challenging scenario conditions. For example, faces will undergo facial occlusions, illumination, or various face positions while driving. In this effort, we aim to reduce misclassifications in driving situations when the driver has different face distances regarding the camera. Three-dimensional Convolutional Neural Networks (CNN) models can make a spatio-temporal driver's representation that extracts features encoded in multiple adjacent frames that can describe motions. This characteristic may help ease the deficiencies of a per-frame recognition system due to the lack of context information. For example, the front, navigator, right window, left window, back mirror, and speed meter are part of the known common areas to be checked by drivers. Based on this, we implement and evaluate a model that is able to detect the head direction toward these regions having various distances from the camera. In our evaluation, the 2D CNN model had a mean average recall of 74.96% across the three models, whereas the 3D CNN model had a mean average recall of 87.02%. This result show that our proposed 3D CNN-based approach outperforms a 2D CNN per-frame recognition approach in driving situations when the driver's face has different distances from the camera. [ABSTRACT FROM AUTHOR]

Published

2022

293. Cocaine Modulates the Neuronal Endosomal System and Extracellular Vesicles in a Sex-Dependent Manner.

Author

Barreto, Bryana R., D'Acunzo, Pasquale, Ungania, Jonathan M., Das, Sasmita, Hashim, Audrey, Goulbourne, Chris N., Canals-Baker, Stefanie, Saito, Mitsuo, Saito, Mariko, Sershen, Henry, and Levy, Efrat

Subjects

*EXTRACELLULAR vesicles, *COCAINE, *ALPHA-synuclein, *EXOSOMES, *MIRROR neurons, *NEURODEGENERATION, *BRAIN diseases

Abstract

In multiple neurodevelopmental and neurodegenerative disorders, endosomal changes correlate with changes in exosomes. We examined this linkage in the brain of mice that received cocaine injections for two weeks starting at 2.5 months of age. Cocaine caused a decrease in the number of both neuronal early and late endosomes and exosomes in the brains of male but not female mice. The response to cocaine in ovariectomized females mirrored male, demonstrating that these sex-differences in response to cocaine are driven by hormonal differences. Moreover, cocaine increased the amount of α-synuclein per exosome in the brain of females but did not affect exosomal α-synuclein content in the brain of males, a sex-difference eliminated by ovariectomy. Enhanced packaging of α-synuclein into female brain exosomes with the potential for propagation of pathology throughout the brain suggests a mechanism for the different response of females to chronic cocaine exposure as compared to males. [ABSTRACT FROM AUTHOR]

Published

2022

294. The degree of mu rhythm suppression in women is associated with presence of children as well as empathy and anxiety level.

Author

Karimova, Ekaterina D, Gulyaeva, Alena S, and Katermin, Nikita S

Subjects

*EMPATHY in children, *MIRROR neurons, *PSYCHOLOGICAL factors, *ANXIETY, *RHYTHM, *APHASIA

Abstract

In experiments on observing and performing social gestures, the level of mu rhythm suppression is associated with the activity of the mirror neuron system (MNS), which is responsible for the perception and understanding of nonverbal signals in social communication. In turn, while MNS activity may be associated primarily with empathy, it is also associated with other psychological and demographic factors affecting the effectiveness of cortical neural networks. In this study, we verified the influence of empathy, state and trait anxiety levels, presence and number of children, and age on the mu-suppression level in 40 women. We used 32-channel EEG recorded during observation, and synchronous execution of various hand movements. The ICA infomax method was used for decomposing and selecting the left hemisphere component of the mu-rhythm. Mu-suppression was higher in women with one child, with higher levels of empathy, and with lower anxiety levels. It is possible that MNS activity is stronger in women during parental care. [ABSTRACT FROM AUTHOR]

Published

2022

295. Emotional contagion and prosocial behavior in rodents.

Author

Keysers, Christian, Knapska, Ewelina, Moita, Marta A., and Gazzola, Valeria

Subjects

*EMOTIONAL contagion, *PROSOCIAL behavior, *CINGULATE cortex, *RODENTS, *MIRROR neurons

Abstract

Empathy is critical to adjusting our behavior to the state of others. The past decade dramatically deepened our understanding of the biological origin of this capacity. We now understand that rodents robustly show emotional contagion for the distress of others via neural structures homologous to those involved in human empathy. Their propensity to approach others in distress strengthens this effect. Although rodents can also learn to favor behaviors that benefit others via structures overlapping with those of emotional contagion, they do so less reliably and more selectively. Together, this suggests evolution selected mechanisms for emotional contagion to prepare animals for dangers by using others as sentinels. Such shared emotions additionally can, under certain circumstances, promote prosocial behavior. Rats and mice show robust emotional contagion by aligning their fear and pain to that of others. Brain regions necessary for emotional contagion in rodents closely resemble those associated with human empathy; understanding the biology of emotional contagion in rodents can thus shed light on the evolutionary origin and mechanisms of human empathy. Cingulate area 24 in rats and mice contains emotional mirror neurons that map the emotions of others onto the witnesses' own emotions. Emotional contagion prepares animals to deal with threats by using others as sentinels; the fact that rodents approach individuals in distress facilitates such contagion. In some conditions, rats and mice learn to prefer actions that benefit others, with notable individual differences. This effect depends on structures that overlap with those of emotional contagion. [ABSTRACT FROM AUTHOR]

Published

2022

296. Do food-caching chickadees grow their hippocampus every autumn when they need to cache food and then shrink it for the rest of the year?

Author

Pravosudov, Vladimir V.

Subjects

*HIPPOCAMPUS (Brain), *CHICKADEES, *NEURONS, *SEASONS, *MIRROR neurons

Abstract

• It is suggested that hippocampal volume and neuron number change seasonally. • Correlational data used sampling different individuals during different seasons. • Overall data on variation in hippocampus neuron numbers argue against this idea. [ABSTRACT FROM AUTHOR]

Published

2022

297. Effective connectivity of the human mirror neuron system during social cognition.

Author

Sadeghi, Sadjad, Schmidt, Stephanie N L, Mier, Daniela, and Hass, Joachim

Subjects

*MIRROR neurons, *SOCIAL perception, *PARIETAL lobe, *TEMPORAL lobe, *SOCIAL systems

Abstract

The human mirror neuron system (MNS) can be considered the neural basis of social cognition. Identifying the global network structure of this system can provide significant progress in the field. In this study, we use dynamic causal modeling (DCM) to determine the effective connectivity between central regions of the MNS for the first time during different social cognition tasks. Sixty-seven healthy participants completed fMRI scanning while performing social cognition tasks, including imitation, empathy and theory of mind. Superior temporal sulcus (STS), inferior parietal lobule (IPL) and Brodmann area 44 (BA44) formed the regions of interest for DCM. Varying connectivity patterns, 540 models were built and fitted for each participant. By applying group-level analysis, Bayesian model selection and Bayesian model averaging, the optimal family and model for all experimental tasks were found. For all social-cognitive processes, effective connectivity from STS to IPL and from STS to BA44 was found. For imitation, additional mutual connections occurred between STS and BA44, as well as BA44 and IPL. The results suggest inverse models in which the motor regions BA44 and IPL receive sensory information from the STS. In contrast, for imitation, a sensory loop with an exchange of motor-to-sensory and sensory-to-motor information seems to exist. [ABSTRACT FROM AUTHOR]

Published

2022

298. AUTISMO. ASPECTOS NEUROBIOLÓGICOS.

Author

RUGGIERI, VÍCTOR

Abstract

Copyright of Medicina (Buenos Aires) is the property of Medicina (Buenos Aires) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

299. Side‐viewing handheld confocal Raman probe coupled with an off‐axis parabolic mirror for superficial epithelial Raman measurements of luminal organs.

Author

Wang, Jianfeng and Zhang, Guling

Subjects

PARABOLIC reflectors, NUMERICAL apertures, RAMAN spectroscopy, CONFOCAL microscopy, MIRROR neurons

Abstract

We report on the development of a side‐viewing handheld confocal Raman probe coupled with an off‐axis parabolic (OAP) mirror for superficial epithelial Raman measurements of luminal organs. The OAP mirror realizes an effective numerical aperture of 0.36, a measured Raman excitation spot diameter of 130 μm and a depth of focus of 128 μm, allowing real time Raman spectra acquisition. The OAP mirror tilts the Raman optical path by 90°, making it well suited for superficial epithelium Raman interrogation of luminal organs. In addition, the probe results in no Raman interferences that may arise from transmission optics. The superficial epithelium Raman interrogation capability of the probe developed is validated through a two‐layer tissue phantom experiment. This work suggests the potential of the side‐viewing handheld confocal Raman probe coupled with an OAP mirror for enhancing the diagnosis of epithelial precancer and cancer of luminal organs. [ABSTRACT FROM AUTHOR]

Published

2022

300. Functional neuronal circuitry and oscillatory dynamics in human brain organoids.

Author

Sharf, Tal, van der Molen, Tjitse, Glasauer, Stella M. K., Guzman, Elmer, Buccino, Alessio P., Luna, Gabriel, Cheng, Zhuowei, Audouard, Morgane, Ranasinghe, Kamalini G., Kudo, Kiwamu, Nagarajan, Srikantan S., Tovar, Kenneth R., Petzold, Linda R., Hierlemann, Andreas, Hansma, Paul K., and Kosik, Kenneth S.

Subjects

INDUCED pluripotent stem cells, ORGANOIDS, NEURAL circuitry, HUMAN anatomy, LARGE-scale brain networks, MIRROR neurons, FUNCTIONAL connectivity

Abstract

Human brain organoids replicate much of the cellular diversity and developmental anatomy of the human brain. However, the physiology of neuronal circuits within organoids remains under-explored. With high-density CMOS microelectrode arrays and shank electrodes, we captured spontaneous extracellular activity from brain organoids derived from human induced pluripotent stem cells. We inferred functional connectivity from spike timing, revealing a large number of weak connections within a skeleton of significantly fewer strong connections. A benzodiazepine increased the uniformity of firing patterns and decreased the relative fraction of weakly connected edges. Our analysis of the local field potential demonstrate that brain organoids contain neuronal assemblies of sufficient size and functional connectivity to co-activate and generate field potentials from their collective transmembrane currents that phase-lock to spiking activity. These results point to the potential of brain organoids for the study of neuropsychiatric diseases, drug action, and the effects of external stimuli upon neuronal networks. Brain organoids replicate cellular organization found in the developing human brain. Here, the authors utilize microelectronics to map activity in brain organoids and assemble functional circuits that mirror complexity found in brain networks in vivo. [ABSTRACT FROM AUTHOR]

Published

2022