Cognitive development

Last updated

Cognitive development is a field of study in neuroscience and psychology focusing on a child's development in terms of information processing, conceptual resources, perceptual skill, language learning, and other aspects of the developed adult brain and cognitive psychology. Qualitative differences between how a child processes their waking experience and how an adult processes their waking experience are acknowledged (such as object permanence, the understanding of logical relations, and cause-effect reasoning in school-age children). Cognitive development is defined as the emergence of the ability to consciously cognize, understand, and articulate their understanding in adult terms. Cognitive development is how a person perceives, thinks, and gains understanding of their world through the relations of genetic and learning factors. [1] There are four stages to cognitive information development. They are, reasoning, intelligence, language, and memory. These stages start when the baby is about 18 months old, they play with toys, listen to their parents speak, they watch TV, anything that catches their attention helps build their cognitive development.

Contents

Jean Piaget was a major force establishing this field, forming his "theory of cognitive development". Piaget proposed four stages of cognitive development: the sensorimotor, preoperational, concrete operational, and formal operational period. [2] Many of Piaget's theoretical claims have since fallen out of favor. His description of the most prominent changes in cognition with age, is generally still accepted today (e.g., how early perception moves from being dependent on concrete, external actions. Later, abstract understanding of observable aspects of reality can be captured; leading to the discovery of underlying abstract rules and principles, usually starting in adolescence)

In recent years, however, alternative models have been advanced, including information-processing theory, neo-Piagetian theories of cognitive development, which aim to integrate Piaget's ideas with more recent models and concepts in developmental and cognitive science, theoretical cognitive neuroscience, and social-constructivist approaches. Another such model of cognitive development is Bronfenbrenner's Ecological Systems Theory. [3] A major controversy in cognitive development has been "nature versus nurture", i.e., the question if cognitive development is mainly determined by an individual's innate qualities ("nature"), or by their personal experiences ("nurture"). However, it is now recognized by most experts that this is a false dichotomy: there is overwhelming evidence from biological and behavioral sciences that from the earliest points in development, gene activity interacts with events and experiences in the environment. [4] While naturalists are convinced of the power of genetic mechanisms, knowledge from different disciplines, such as Comparative psychology, Molecular biology, and Neuroscience, shows arguments for an ecological component in launching cognition [5] (see the section "The beginning of cognition" below).

History

Jean Piaget is inexorably linked to cognitive development as he was the first to systematically study developmental processes. [6] Despite being the first to develop a systemic study of cognitive development, Piaget was not the first to theorize about cognitive development. [7]

Jean-Jacques Rousseau wrote Emile, or On Education in 1762. [8] He discusses childhood development as happening in three stages. In the first stage, up to age 12, the child is guided by their emotions and impulses. In the second stage, ages 12–16, the child's reason starts to develop. In the third and final stage, age 16 and up, the child develops into an adult.

James Sully wrote several books on childhood development, including Studies of Childhood in 1895 [9] and Children's Ways in 1897. [10] He used a detailed observational study method with the children. Contemporary research in child development actually repeats observations and observational methods summarized by Sully in Studies of Childhood, such as the mirror technique.

Sigmund Freud developed the theory of psychosexual development, which indicates children must pass through several stages as they develop their cognitive skills. [11]

Maria Montessori began her career working with mentally disabled children in 1897, then conducted observation and experimental research in elementary schools. She wrote The Discovery of the Child in 1950 which developed the Montessori method of education. [12] She discussed four planes of development: birth to 6 years, 6 to 12, 12 to 18, and 18 to 24. The Montessori method now has three developmentally-meaningful age groups: 2–2.5 years, 2.5–6, and 6–12. She was working on human behavior in older children but only published lecture notes on the subject.

Arnold Gesell was the creator of the maturational theory of development. Gesell said that development occurs due to biological hereditary features such as genetics and children will reach developmental milestones when they are ready to do so in a predictable sequence. [13] Because of his theory of development, he devised a developmental scale that is used today called the Gesell Developmental Schedule (GDS) that provides parents, teachers, doctors, and other pertinent people with an overview of where an infant or child falls on the developmental spectrum.

Erik Erikson was a neo-Freudian who focused on how children develop personality and identity. Although a contemporary of Freud, there is a larger focus on social experiences that occur across the lifespan, as opposed to childhood exclusively, that contribute to how personality and identity emerge. His framework uses eight systematic stages that all children must pass through. [14]

Urie Bronfenbrenner devised the ecological systems theory, which identifies various levels of a child's environment. [15] The primary focus of this theory focuses on the quality and context of a child's environment. Bronfenbrenner suggested that as a child grows older, their interaction between the various levels of their environment grows more complex due to cognitive abilities expanding.

Lawrence Kohlberg wrote the theory of stages of moral development, which extended Piaget's findings of cognitive development and showed that they continue through the lifespan. Kohlberg's six stages follow Piaget's constructivist requirements in that those stages can not be skipped and it is very rare to regress in stages. Notable works: Moral Stages and Moralization: The Cognitive-Development Approach (1976) and Essays on Moral Development (1981)

Lev Vygotsky's theory is based on social learning as the most important aspect of cognitive development. In Vygotsky's theory, [16] adults are very important for young children's development. They help children learn through mediation, which is modeling and explaining concepts. Together, adults and children master concepts of their culture and activities. Vygotsky believed we get our complex mental activities through social learning. A significant part of Vygotsky's theory is based on the zone of proximal development, which he believes is when the most effective learning takes place. The zone of proximal development is what a child cannot accomplish alone but can accomplish with the help of an MKO (more knowledgeable other). [17] Vygotsky also believed culture is a very important part of cognitive development such as the language, writing and counting system used in that culture. Another aspect of Vygotsky's theory is private speech. Private speech is when a person talks to themselves in order to help themselves problem solve. Scaffolding or providing support to a child and then slowly removing support and allowing the child to do more on their own over time is also an aspect of Vygotsky's theory. [18]

Beginning of Cognition

In cognitive development, the essential issue in beginning cognition is how the nervous system grasps perception and shapes intentionality in the sensorimotor stage (or before) when organisms only demonstrate simple reflexes (see articles perception, cognition, binding problem, multi sensory integration). The significance of this knowledge is that the mode to cognize at the stage without communication and abstract thinking, being a pre-requisite of social reality formation, determines the development of everything from cooperative interactions and knowledge assimilation to moral identity and cultural evolution that provides building societies (see also Social cognition and Collective behaviour). The contemporary academic discussion on a controversy in cognitive development (whether cognitive development is mainly determined by an individual's innate qualities or personal experiences) is still in progress.

Many influential scientists argue that the genetic code is no more than a rule of causal specificity based on the fact that cells use nucleic acids as templates for the primary structure of proteins. However, it is unacceptable to say that DNA contains the information for phenotypic design. [19] The epigenetic approach to human psychological development – that cascading phenotypic effects are not encoded directly in the genes – contrasts sharply with many so-called nativist approaches. [5] Opponents of innate knowledge discuss four problems in appearance of the perception of objects.

The binding problem – According to cognitive psychologist Anne Treisman, [20] the binding problem can be divided into three separate problems. (1) How are relevant elements that should be related as a whole selected and separated from elements that belong to other objects, ideas, or events? (2) How is the binding encoded so it can be transferred to other brain systems and used? (3) How are the correct relationships between related elements within the same object defined? This problem is also connected to the problem of multisensory integration in perception.

The perception stability problem – According to research professor of Liepaja University Igor Val Danilov, [21] newborns and infants cannot capture the same picture of the environment as adults because of their immature sensory systems. They cannot sense environmental stimuli from social phenomena to the same extent as adults. The outcomes of processing similar sensory stimuli in immature and mature organisms differ. The corresponding holistic representations of objects can hardly occur in these organisms.

The excitatory inputs problem – According to the received view in cognitive sciences, cognition develops due to experience-dependent neuronal plasticity, e.g.,. [22] [23] Neuronal plasticity refers to the capacity of the nervous system to modify itself, functionally and structurally, in response to experience and injury. [24] However, the structural organization of excitatory inputs supporting spike-timing-dependent plasticity remains unknown. [25] How is the relation between a specific sensory stimulus and the appropriate structural organization of the excitatory inputs in specific neurons formed? [21]

The problem of Morphogenesis – Cell actions during an embryo formation, including shape changes, cell contact remodeling, cell migration, cell division, and cell extrusion, need control over cell mechanics. [26] This complex dynamical process is associated with protrusive, contractile, and adhesive forces and hydrostatic pressure, as well as material properties of cells that dictate how cells respond to active stresses. Precise coordination of all cells is a necessary condition. Moreover, such a complex dynamical process likely requires clear parameters of the final biological structure – the complete developmental program with a template for accomplishing it. Collinet and Lecuit (2021) pose a question: what forces or mechanisms at the cellular level manage four very general classes of tissue deformation, namely tissue folding and invagination, tissue flow and extension, tissue hollowing, and, finally, tissue branching? They challenge the nativists' notion that shape is fully encoded and determined by genes: how are cell mechanics and associated cell behaviors robustly organized in space and time during tissue morphogenesis? They argue that not only gene expression and the resulting biochemical cues but also mechanics and geometry act as sources of morphogenetic information to ultimately define the time and length scales of the cell behaviors driving morphogenesis. Thus, it is not only the interaction of gene activity with events and experiences in the environment that contributes to the formation of tissues in morphogenesis. Because the nervous system structures operate over everything that makes us human, the formation of neural tissues in a certain way is essential for shaping cognitive functions. [21] According to research professor Igor Val Danilov, such a complex process of shaping the determined structure of the nervous system requires a complete developmental program with a template for accomplishing the final biological structure of the nervous system. [21] Indeed, because even processes of the cell coupling for shaping a nervous system during embryonal development challenge the naturalistic approach, how the nervous system grasps perception and shapes intentionality (independently, i.e., without any template) seems even more complicated. [21]

So, the fact that gene activity interacts with events and experiences in the environment (as noted above) may not fully explain the integrative complexity of intentionality-perception development for beginning cognitive development. Nowadays, the Shared intentionality hypothesis is the only one that attempts to explain neurophysiological processes at the beginning of cognitive development at different levels of interaction, from interpersonal dynamics to neuronal interactions. [27] [28] It also solves the above noted problems. Professor of psychology Michael Tomasello hypothesised that social bonds between children and caregivers would gradually increase through the essential motive force of shared intentionality beginning from birth. [29] The notion of Shared intentionality, introduced by Michael Tomasello, was developed by Research Professor Igor Val Danilov, expanding it to the intrauterine period. [21] The Shared intentionality approach also points out that "an innate sensitivity to specific patterns of information" mentioned in the section "Speculated core systems of cognition" is also the outcome of Shared intentionality with caregivers, who obviously participated in the experiments. [30]

Jean Piaget

Jean Piaget was the first psychologist and philosopher to brand this type of study as "cognitive development". [31] Other researchers, in multiple disciplines, had studied development in children before, but Piaget is often credited as being the first one to make a systematic study of cognitive development and gave it its name. His main contribution is the stage theory of child cognitive development. He also published his observational studies of cognition in children, and created a series of simple tests to reveal different cognitive abilities in children. Piaget believed that people move through stages of development that allow them to think in new, more complex ways.

Criticism

Many of Piaget's claims have fallen out of favor. For example, he claimed that young children cannot conserve numbers. However, further experiments showed that children did not really understand what was being asked of them. When the experiment is done with candies, and the children are asked which set they want rather than having to tell an adult which is more, they show no confusion about which group has more items. Piaget argues that the child cannot conserve numbers if they do not understand one-to-one correspondence. [32]

Piaget's theory of cognitive development ends at the formal operational stage that is usually developed in early adulthood. It does not take into account later stages of adult cognitive development as described by, for example, Harvard University professor Robert Kegan. [33]

Additionally, Piaget largely ignores the effects of social and cultural upbringing on stages of development because he only examined children from western societies. This matters as certain societies and cultures have different early childhood experiences. For example, individuals in nomadic tribes struggle with number counting and object counting. Certain cultures have specific activities and events that are common at a younger age which can affect aspects such as object permeance. This indicates that children from different societies may achieve a stage like the formal operational stage while in other societies, children at the exact same age remain in the concrete operational stage. [34]

Stages

Sensorimotor stage

Piaget believed that infants entered a sensorimotor stage which lasts from birth until age 2. In this stage, individuals use their senses to investigate and interact with their environment. Through this they develop coordination between the sensory input and motor responses. Piaget also theorized that this stage ended with the acquisition of object permanence and the emergence of symbolic thought.

This view collapsed in the 1980s when research was put out showing that infants as young as five months are able to represent out-of-sight objects, as well their properties, such as number and rigidity.

Preoperational stage

Piaget believed that children entered a preoperational stage from roughly age 2 until age 7. This stage involves the development of symbolic thought (which manifests in children’s increased ability to ‘play pretend’). This stage involves language acquisition, but also the inability to understand complex logic or to manipulate information. [35]

Subsequent work suggesting that preschoolers were indeed capable of taking others' perspectives into account and reasoning about abstract relationships, including causal relationships marked the demise of this aspect of stage theory as well. [36]

Concrete operational stage

Piaget believed that the concrete operational stage spanned roughly from age 6 through age 12. This stage is marked by the development and achievement of skills such as conservation, classification, serialism, and spatial reasoning.

Work suggesting that much younger children reason about abstract ideas including kinds, logical operators, and causal relationships rendered this aspect of stage theory obsolete.

Formal operational stage

Piaget believed that the formal operational stage spans roughly from age 12 through adulthood, and is marked by the ability to apply mental operations to abstract ideas. [37]

Erik Erickson

Erikson worked with Freud but unlike Freud, Erikson focused on Biological, Psychological, and social factors in human development. Each stage is rooted in some kind of competence, or perceived ability to do things. [38]

Each stage is defined by 2 conflicting psychological tendencies and by what traits develop in the stage dependent on how much of each tendency was experienced. There are virtues that develop in healthy circumstances and maladaptations that develop in unhealthy circumstances. It consists of 8 stages. While the conflicting tendencies may appear to be good versus bad. They can be considered as a balance where most healthy individuals experience some of each. [39]

Stage 1-Infancy- Trust Verses Mistrust

A baby has very little ability to do anything for themself. As such infants develop according to whether they learn to trust or distrust the world around them. The virtue that arises during this stage is hope and the maladaptation is withdrawal. [38] [40]

Stage 2-Early Childhood- Autonomy Verses Shame

As a child starts to explore the world the conflict they experience is autonomy or a feeling of being able to do things themselves, verses shame or doubt, which is a feeling of being unable to do things themselves and fear of making mistakes. The virtue that arises during this period is will, suggesting a control over one's actions. The maladaptation for this stage is compulsion, or lack of control over one's actions. [38] [40]

Stage 3-Play Age- Initiative Verses Guilt

As a child grows from the stage of autonomy verses shame, they experience the conflict of initiative vs guilt. Initiative or having the ability to act in a situation against guilt or feeling bad about their actions or feeling incapable of acting. The virtue that develops in this stage is purpose and the maladaptation is inhibition. [38] [40]

Stage 4-School Age- Industry Verses Inferiority

As a child's awareness of their effect on the world around them grows they come to the conflict of industry and inferiority. Industry meaning ability and willingness to proactively interact with the world around them and Inferiority meaning incapability or perceived incapability to interact with the world. The virtue that is learned in this stage is competence and the maladaptation is inertia or passivity. [38] [40]

Stage 5-adolescence- Identity Verses Identity Confusion

As a child grows into adolescence, their ability to interact with the world starts to interact with their perceptions of who they are, and they find themselves in a conflict between identity and identity confusion. Identity means knowledge of who they are and developing their own sense of right and wrong. Identity confusion meaning confusion over who they are and what right and wrong is to them. The virtue that is developed is fidelity and the maldevelopment is repudiation. [38] [40]

Stage 6-Young Adulthood- Intimacy Verses Isolation

During young adulthood, people find themselves in a place where they are looking for belonging in a small number of close relationships. Intimacy suggests finding very close relationships with other people and isolation is a lack of such a connection. The virtue that can arise from this is love and the maladaptation is distantiation. [38] [40]

Stage 7-Adulthood- Generativity Verses Stagnation

In this stage of life people find that along with accomplishing personal goals, they are either giving to the next generation, whether as a mentor or a parent or they turn towards themselves and keep a distance from others. The virtue that arises in this stage is caring and the maladaptation is rejectivity. [38] [40]

Stage 8-Old Age- Integrity Verses Despair

Those in the twilight of their life look back at their lives and either are satisfied with their life's work or feel great regret. This satisfaction or regret is a large part of their identity at the end of their lives. The virtue that develops is wisdom and the maldevelopment is disdain. [38] [40]

Current Theories of Cognitive Development

Core Knowledge Theory

Empiricists study how these skills may be learned in such a short time. The debate is over whether these systems are learned by general-purpose learning devices or domain-specific cognition. Moreover, many modern cognitive developmental psychologists, recognizing that the term "innate" does not square with modern knowledge about epigenesis, neurobiological development, or learning, favor a non-nativist framework. Researchers who discuss "core systems" often speculate about differences in thinking and learning between proposed domains.

Research suggests that children have an innate sensitivity to specific patterns of information, referred to as core domains.The discussion of “core knowledge” theory focuses on a few main systems, including agents, objects, numbers, and navigation.

Agents

It is speculated that a piece of an infants’ core knowledge lies in their ability to abstractly represent actors. Agents are actors, human or otherwise, who process events and situations, and select actions based on goals and beliefs. Children expect the actions of agents to be goal-directed, efficient, and understand that they have costs, such as time, energy, or effort. Children are importantly able to differentiate between actors and inanimate objects, proving a deeper understanding of the concept of an agent. [41]

Objects

Within the theorized systems, infants’ core knowledge of objects has been one of the most extensively studied. These studies suggest that young infants appear to have an early expectation of object solidity, namely understanding that objects cannot pass through one another. Similarly, they demonstrate an awareness of object continuity, expecting objects to move on continuous paths rather than teleporting or discontinuously changing their locations. They also expect objects to follow the laws of gravity. [42]

Numbers

Evidence suggests that humans utilize two core systems for number representation: approximate representations and precise representations. The approximate number system helps to capture the relationship between quantities by estimating numerical magnitudes. This system becomes more precise with age. The second system helps to precisely monitor small groups (limited to around 3 for infants) of individual objects and accurately represent those numerical quantities. [43]

Place

Very young children appear to have some skill in navigation. This basic ability to infer the direction and distance of unseen locations develops in ways that are not entirely clear. However, there is some evidence that it involves the development of complex language skills between 3 and 5 years. [44] Also, there is evidence that this skill depends importantly on visual experience, because congenitally blind individuals have been found to have impaired abilities to infer new paths between familiar locations.

One of the original nativist versus empiricist debates was over depth perception. There is some evidence that children less than 72 hours old can perceive such complex things as biological motion. [45] However, it is unclear how visual experience in the first few days contributes to this perception. There are far more elaborate aspects of visual perception that develop during infancy and beyond.

Shared Intentionality

This approach integrates Externalism (a group of positions in the philosophy of mind: embodied cognition, embodied embedded cognition, enactivism, extended mind, and situated cognition) with the Empiricist ideas about the beginning of cognition only from learning in the environment. According to the Externalism approach, communicative symbols are encoded into the local topological properties of neuronal maps, [19] which reflect a dynamical action pattern. [46] The sensorimotor neuronal network enables pairing the relevant cue with a particular symbol saved in the sensorimotor structures and processes that reveals embodied meanings. [19] [47] In this sense, the Shared intentionality theory does not contradict the Core Knowledge Theory while complements it.

Based on evidence of child cognitive development, [30] experimental data from research on child behavior in the prenatal period, [48] [49] [50] [51] [52] [53] [54] [55] and advances in inter-brain neuroscience research, [56] [57] [58] [59] [60] [61] research professor at Liepaja University Igor Val Danilov introduced the notion of non-local neuronal coupling of the mother and fetus neuronal networks. [28] [27] [21] The term non-local neuronal coupling refers to the pre-perceptual communication provided by copying adequate ecological dynamics by one biological system from another, both indwelling one environmental context. [27] [21] The naive actor (fetus) replicates information from the experienced agent (mother) due to the synchronization of intrinsic processes of these dynamic systems (embodied information). [27] [21] This non-local neuronal coupling succeeds due to a low-frequency oscillator (mother's heartbeats) that coordinates relevant local neuronal networks in specific subsystems of these two organisms, which already exhibit gamma activity (similar embodied information in both). [27] [21] The registered cooperative neuronal activity in inter-brain research, so-called mirror neurons, is probably the manifestation of this non-local neuronal coupling. In such a manner, the experienced agent ensures one-direction conveying information about an actual cognitive event toward an organism at the simple reflexes stage of cognitive development without interacting through sensory signals. [27] [21] Obviously, any sensory communication between the mother and fetus is impossible. Therefore, non-local neuronal coupling mediates environmental learning early in cognition. [27] [21]

The notion of non-local neuronal coupling filled a gap in knowledge both in the Core Knowledge Theory and the group of positions in Externalism about the very beginning of cognition, which has also been shown by the binding problem, the perception stability problem, the excitatory inputs problem, and the problem of Morphogenesis. [28] [27] [21] The nervous system of the young organism at the prenatal stage of development cannot alone solve the complexity of intentionality-perception development for beginning cognitive development. [28] [27] [21] For the innate sensitivity to specific patterns of information (referred to as core domains according to the Core Knowledge Theory) or for pairing the relevant cue with a particular symbol saved in the sensorimotor structures (embodied information according to Externalism), the organism only with an ability of reflex responses should distinguish the relevant stimulus (an informative cue) from the environment with the cacophony of stimuli: electromagnetic waves, chemical interactions, and pressure fluctuations. [28] [27] [21] The notion of non-local neuronal coupling explains the neurophysiological processes of Shared intentionality at the cellular level that reveal in young organisms the innate sensitivity and/or embodied meanings during cognition. [28] [27] [21] The Shared intentionality approach shows how, at different levels of interaction, from interpersonal dynamics to neuronal coupling, the collaborative interaction emerges in the mother-child pairs for sharing the essential sensory stimulus of the actual cognitive event. [28] [27] [21] Finally, research has already shown that the Shared intentionality magnitude can be assessed by emulating the mother-fetal communication model in dyads of mothers and children from 2 to 10 years old. [62] [63] [64]

Key Topics of Study in Cognitive Development

Language Acquisition

Main article: Language Acquisition

A major, well-studied process and consequence of cognitive development is language acquisition. The traditional view was that this is the result of deterministic, human-specific genetic structures and processes. Other traditions, however, have emphasized the role of social experience in language learning. However, the relation of gene activity, experience, and language development is now recognized as incredibly complex and difficult to specify. Language development is sometimes separated into learning of phonology (systematic organization of sounds), morphology (structure of linguistic units—root words, affixes, parts of speech, intonation, etc.), syntax (rules of grammar within sentence structure), semantics (study of meaning), and discourse or pragmatics (relation between sentences). However, all of these aspects of language knowledge—which were originally posited by the linguist Noam Chomsky to be autonomous or separate—are now recognized to interact in complex ways.

It was not until 1962 that bilingualism had been accepted as a contributing factor to cognitive development. [65] There have been a number of studies showing how bilingualism contributes to the executive function of the brain, which is the main center at which cognitive development happens. According to Bialystok in "Bilingualism and the Development of Executive Function: The Role of Attention", children who are bilingual have to actively filter through the two different languages to select the one they need to use, which in turn makes the development stronger in that center. [66]

Other theories

Whorf's hypothesis

While working as a student of Edward Sapir, Benjamin Lee Whorf posited that a person's thinking depends on the structure and content of their social group's language. Per Whorf, language determines our thoughts and perceptions. [67] For example, it used to be thought that the Greeks, who wrote left to right, thought differently than Egyptians since the Egyptians wrote right to left. Whorf's theory was so strict that he believed if a word is absent in a language, then the individual is unaware of the object's existence. [68] This theory was played out in George Orwell's book, Animal Farm; the pig leaders slowly eliminated words from the citizen's vocabulary so that they were incapable of realizing what they were missing. [69] The Whorfian hypothesis failed to recognize that people can still be aware of the concept or item, even though they lack efficient coding to quickly identify the target information. [68]

Quine's bootstrapping hypothesis

Willard Van Orman Quine argued that there are innate conceptual biases that enable the acquisition of language, concepts, and beliefs. [70] Quine's theory follows nativist philosophical traditions, such as the European rationalist philosophers, for example Immanuel Kant.

Neo-Piagetian theories

Neo-Piagetian theories of cognitive development emphasized the role of information processing mechanisms in cognitive development, such as attention control and working memory. They suggested that progression along Piagetian stages or other levels of cognitive development is a function of strengthening of control mechanisms and is within the stages themselves. [71]

Neuroscience

During development, especially the first few years of life, children show interesting patterns of neural development and a high degree of neuroplasticity. Neuroplasticity, as explained by the World Health Organization, can be summed up in three points.

  1. Any adaptive mechanism used by the nervous system to repair itself after injury.
  2. Any means by which the nervous system can repair individually damaged central circuits.
  3. Any means by which the capacity of the central nervous system can adapt to new physiological conditions and environment.

The relation of brain development and cognitive development is extremely complex and, since the 1990s, has been a growing area of research.

Cognitive development and motor development may also be closely interrelated. When a person experiences a neurodevelopmental disorder and their cognitive development is disturbed, we often see adverse effects in motor development as well. Cerebellum, which is the part of brain that is most responsible for motor skills, has been shown to have significant importance in cognitive functions in the same way that prefrontal cortex has important duties in not only cognitive abilities but also development of motor skills. To support this, there is evidence of close co-activation of neocerebellum and dorsolateral prefrontal cortex in functional neuroimaging as well as abnormalities seen in both cerebellum and prefrontal cortex in the same developmental disorder. In this way, we see close interrelation of motor development and cognitive development and they cannot operate in their full capacity when either of them are impaired or delayed. [72]

Cultural influences

From cultural psychologists' view, minds and culture shape each other. In other words, culture can influence brain structures which then influence our interpretation of the culture. These examples reveal cultural variations in neural responses:

Figure-line task

Behavioral research has shown that one's strength in independent (tasks which are focused on influencing others or oneself) or interdependent tasks (tasks where one changes their own behavior to favor others) differ based on their cultural context. In general, East Asian cultures are more interdependent whereas Western cultures are more independent. Hedden et al. assessed functional magnetic resonance imaging (fMRI) responses of East Asians and Americans while they performed independent (absolute) or interdependent (relative) tasks. The study showed that participants used regions of the brain associated with attentional control when they had to perform culturally incongruent tasks. In other words, neural paths used for the same task were different for Americans and East Asians. [73]

Transcultural neuroimaging studies

New studies in transcultural neuroimaging studies have demonstrated that one's cultural background can influence the neural activity that underlies both high (for example, social cognition) and low (for example, perception) level cognitive functions. Studies demonstrated that groups that come from different cultures or that have been exposed to culturally different stimuli have differences in neural activity. For example, differences were found in that of the pre motor cortex during mental calculation and that of the VMPFC during trait judgements of one's mother from people with different cultural backgrounds. In conclusion, since differences were found in both high-level and low-level cognition one can assume that our brain's activity is strongly and, at least in part, constitutionally shaped by its sociocultural context. [74]

Understanding of others' intentions

Kobayashi et al. compared American-English monolingual and Japanese-English bilingual children's brain responses in understanding others' intentions through false-belief story and cartoon tasks. They found universal activation of the region bilateral ventromedial prefrontal cortex in theory of mind tasks. However, American children showed greater activity in the left inferior frontal gyrus during the tasks whereas Japanese children had greater activity in the right inferior frontal gyrus during the Japanese Theory of Mind tasks. In conclusion, these examples suggest that the brain's neural activities are not universal but are culture dependent. [75]

In underrepresented groups

Deaf and hard-of-hearing

Being deaf or hard-of-hearing has been noted to impact cognitive development as hearing loss impacts social development, language acquisition, and the culture reacts to a deaf child. [76] Cognitive development in academic achievement, reading development, language development, performance on standardized measures of intelligence, visual-spatial and memory skills, development of conceptual skills, and neuropsychological function are dependent upon the child's primary language of communication, either American Sign Language or English, as well as if the child is able to communicate and use the communication modality as a language. [77] There is some research pointing to deficits in development of theory of mind in children who are deaf and hard-of-hearing which may be due to a lack of early conversational experience. [78] Other research points to lower scores on the Wechsler Intelligence Scale for Children, [79] especially in the Verbal Comprehension Index [80] due differences in cultural knowledge acquisition. [81]

Transgender people

Since the 2010s there has been an increase in research into how transgender people fit into cognitive development theory. [82] At the earliest, transgender children can begin to socially transition during identity exploration. In 2015, Kristina Olson and colleagues studied transgender youth in comparison to their cisgender siblings and unrelated cisgender children. The students participated in the IAT, a test that measures how one may identify based on a series of questions related to memory. Overall it determines a child's gender preference. It showed that the transgender children's results correlated with their desired gender. The behaviors of the children also related back to their results. For instance, the transgender boys enjoyed food and activities typically associated and enjoyed by cisgender boys. The article reports that the researchers found that the children were not confused, deceptive, or oppositional of their gender identity, and responded with actions that are typically represented by their gender identity. [83]

See also

Related Research Articles

<span class="mw-page-title-main">Cognitive science</span> Interdisciplinary scientific study of cognitive processes

Cognitive science is the interdisciplinary, scientific study of the mind and its processes with input from linguistics, psychology, neuroscience, philosophy, computer science/artificial intelligence, and anthropology. It examines the nature, the tasks, and the functions of cognition. Cognitive scientists study intelligence and behavior, with a focus on how nervous systems represent, process, and transform information. Mental faculties of concern to cognitive scientists include language, perception, memory, attention, reasoning, and emotion; to understand these faculties, cognitive scientists borrow from fields such as linguistics, psychology, artificial intelligence, philosophy, neuroscience, and anthropology. The typical analysis of cognitive science spans many levels of organization, from learning and decision to logic and planning; from neural circuitry to modular brain organization. One of the fundamental concepts of cognitive science is that "thinking can best be understood in terms of representational structures in the mind and computational procedures that operate on those structures."

<span class="mw-page-title-main">Developmental psychology</span> Scientific study of psychological changes in humans over the course of their lives

Developmental psychology is the scientific study of how and why humans grow, change, and adapt across the course of their lives. Originally concerned with infants and children, the field has expanded to include adolescence, adult development, aging, and the entire lifespan. Developmental psychologists aim to explain how thinking, feeling, and behaviors change throughout life. This field examines change across three major dimensions, which are physical development, cognitive development, and social emotional development. Within these three dimensions are a broad range of topics including motor skills, executive functions, moral understanding, language acquisition, social change, personality, emotional development, self-concept, and identity formation.

<span class="mw-page-title-main">Perception</span> Interpretation of sensory information

Perception is the organization, identification, and interpretation of sensory information in order to represent and understand the presented information or environment. All perception involves signals that go through the nervous system, which in turn result from physical or chemical stimulation of the sensory system. Vision involves light striking the retina of the eye; smell is mediated by odor molecules; and hearing involves pressure waves.

Categorization is a type of cognition involving conceptual differentiation between characteristics of conscious experience, such as objects, events, or ideas. It involves the abstraction and differentiation of aspects of experience by sorting and distinguishing between groupings, through classification or typification on the basis of traits, features, similarities or other criteria that are universal to the group. Categorization is considered one of the most fundamental cognitive abilities, and it is studied particularly by psychology and cognitive linguistics.

<span class="mw-page-title-main">Jean Piaget</span> Swiss psychologist, biologist, logician, philosopher and academic (1896–1980)

Jean William Fritz Piaget was a Swiss psychologist known for his work on child development. Piaget's theory of cognitive development and epistemological view are together called genetic epistemology.

<span class="mw-page-title-main">Cognition</span> Act or process of knowing

Cognition is the "mental action or process of acquiring knowledge and understanding through thought, experience, and the senses". It encompasses all aspects of intellectual functions and processes such as: perception, attention, thought, imagination, intelligence, the formation of knowledge, memory and working memory, judgment and evaluation, reasoning and computation, problem-solving and decision-making, comprehension and production of language. Cognitive processes use existing knowledge and discover new knowledge.

Social cognition is a topic within psychology that focuses on how people process, store, and apply information about other people and social situations. It focuses on the role that cognitive processes play in social interactions.

In psychology, theory of mind refers to the capacity to understand other people by ascribing mental states to them. A theory of mind includes the knowledge that others' beliefs, desires, intentions, emotions, and thoughts may be different from one's own. Possessing a functional theory of mind is crucial for success in everyday human social interactions. People utilise a theory of mind when analyzing, judging, and inferring others' behaviors. The discovery and development of theory of mind primarily came from studies done with animals and infants. Factors including drug and alcohol consumption, language development, cognitive delays, age, and culture can affect a person's capacity to display theory of mind. Having a theory of mind is similar to but not identical with having the capacity for empathy or sympathy.

The expression collective behavior was first used by Franklin Henry Giddings and employed later by Robert Park and Ernest Burgess, Herbert Blumer, Ralph H. Turner and Lewis Killian, and Neil Smelser to refer to social processes and events which do not reflect existing social structure, but which emerge in a "spontaneous" way. Use of the term has been expanded to include reference to cells, social animals like birds and fish, and insects including ants. Collective behavior takes many forms but generally violates societal norms. Collective behavior can be tremendously destructive, as with riots or mob violence, silly, as with fads, or anywhere in between. Collective behavior is always driven by group dynamics, encouraging people to engage in acts they might consider unthinkable under typical social circumstances.

The psychology of learning refers to theories and research on how individuals learn. There are many theories of learning. Some take on a more behaviorist approach which focuses on inputs and reinforcements. Other approaches, such as theories related to neuroscience and social cognition, focus more on how the brain's organization and structure influence learning. Some psychological approaches, such as social constructivism, focus more on one's interaction with the environment and with others. Other theories, such as those related to motivation, like the growth mindset, focus more on individuals' perceptions of ability.

The consciousness and binding problem is the problem of how objects, background and abstract or emotional features are combined into a single experience.

Distributed cognition is an approach to cognitive science research that was developed by cognitive anthropologist Edwin Hutchins during the 1990s.

Neuroconstructivism is a theory that states that phylogenetic developmental processes such as gene–gene interaction, gene–environment interaction and, crucially, ontogeny all play a vital role in how the brain progressively sculpts itself and how it gradually becomes specialized over developmental time.

Enactivism is a position in cognitive science that argues that cognition arises through a dynamic interaction between an acting organism and its environment. It claims that the environment of an organism is brought about, or enacted, by the active exercise of that organism's sensorimotor processes. "The key point, then, is that the species brings forth and specifies its own domain of problems ...this domain does not exist "out there" in an environment that acts as a landing pad for organisms that somehow drop or parachute into the world. Instead, living beings and their environments stand in relation to each other through mutual specification or codetermination" (p. 198). "Organisms do not passively receive information from their environments, which they then translate into internal representations. Natural cognitive systems...participate in the generation of meaning ...engaging in transformational and not merely informational interactions: they enact a world." These authors suggest that the increasing emphasis upon enactive terminology presages a new era in thinking about cognitive science. How the actions involved in enactivism relate to age-old questions about free will remains a topic of active debate.

<span class="mw-page-title-main">Child development</span> Developmental change in children

Child development involves the biological, psychological and emotional changes that occur in human beings between birth and the conclusion of adolescence.

Domain-general learning theories of development suggest that humans are born with mechanisms in the brain that exist to support and guide learning on a broad level, regardless of the type of information being learned. Domain-general learning theories also recognize that although learning different types of new information may be processed in the same way and in the same areas of the brain, different domains also function interdependently. Because these generalized domains work together, skills developed from one learned activity may translate into benefits with skills not yet learned. Another facet of domain-general learning theories is that knowledge within domains is cumulative, and builds under these domains over time to contribute to our greater knowledge structure. Psychologists whose theories align with domain-general framework include developmental psychologist Jean Piaget, who theorized that people develop a global knowledge structure which contains cohesive, whole knowledge internalized from experience, and psychologist Charles Spearman, whose work led to a theory on the existence of a single factor accounting for all general cognitive ability.

Infant cognitive development is the first stage of human cognitive development, in the youngest children. The academic field of infant cognitive development studies of how psychological processes involved in thinking and knowing develop in young children. Information is acquired in a number of ways including through sight, sound, touch, taste, smell and language, all of which require processing by our cognitive system. However, cognition begins through social bonds between children and caregivers, which gradually increase through the essential motive force of Shared intentionality. The notion of Shared intentionality describes unaware processes during social learning at the onset of life when organisms in the simple reflexes substage of the sensorimotor stage of cognitive development do not maintain communication via the sensory system.

Externalism is a group of positions in the philosophy of mind which argues that the conscious mind is not only the result of what is going on inside the nervous system, but also what occurs or exists outside the subject. It is contrasted with internalism which holds that the mind emerges from neural activity alone. Externalism is a belief that the mind is not just the brain or functions of the brain.

In philosophy of mind, the extended mind thesis (EMT) says that the mind does not exclusively reside in the brain or even the body, but extends into the physical world. The EMT proposes that some objects in the external environment can be part of a cognitive process and in that way function as extensions of the mind itself. Examples of such objects are written calculations, a diary, or a PC; in general, it concerns objects that store information. The EMT considers the mind to encompass every level of cognition, including the physical level.

Shared intentionality is a concept in psychology that describes the human capacity to engage with the psychological states of others. According to conventional wisdom in cognitive sciences, shared intentionality supports the development of everything from cooperative interactions and knowledge assimilation to moral identity and cultural evolution that provides building societies, being a pre-requisite of social reality formation.

References

  1. Sellers, P. Douglas; Machluf, Karin; Bjorklund, David F. (2018), "The Development of Evolutionarily Adaptive Individual Differences: Children as Active Participants in Their Current and Future Survival", The SAGE Handbook of Personality and Individual Differences: Volume II: Origins of Personality and Individual Differences, London: SAGE Publications Ltd, pp. 203–217, doi:10.4135/9781526451200.n12, ISBN   978-1-5264-4518-6 , retrieved 2020-10-14
  2. Schacter, Daniel L (2009). Psychology. Catherine Woods. pp.  430. ISBN   978-1-4292-3719-2.
  3. Bronfenbrenner, Urie (2000), "Ecological systems theory.", Encyclopedia of Psychology, Vol. 3., Washington: American Psychological Association, pp. 129–133, doi:10.1037/10518-046, ISBN   1-55798-652-5 , retrieved 2020-10-07
  4. Carlson, N.R. et al.. (2005) Psychology: the science of behaviour (3rd Canadian ed) Pearson Ed. ISBN   0-205-45769-X
  5. 1 2 Tomasello M. (2019).Becoming human: A theory of ontogeny. Cambridge, Massachusetts, USA: Harvard University Press.
  6. Piaget, Jean (1936). Origins of intelligence in the child. Routledge & Kegan Paul.
  7. WESLEY, F (March 1989). "Developmental cognition before piaget: Alfred Binet's pioneering experiments". Developmental Review. 9 (1): 58–63. doi:10.1016/0273-2297(89)90023-3. ISSN   0273-2297.
  8. "Theory of Education", Jean-Jacques Rousseau, Continuum, 2008, doi:10.5040/9781472541376.ch-003, ISBN   978-0-8264-8412-3 , retrieved 2020-11-15
  9. Sully, James (1895). Studies of childhood . Longmans, Green and Co. doi:10.1037/11376-000.
  10. "Sully, James", The SAGE Encyclopedia of Children and Childhood Studies, Thousand Oaks, CA: SAGE Publications, Inc., 2020, doi:10.4135/9781529714388.n567, ISBN   978-1-4739-4292-9, S2CID   241133576 , retrieved 2020-11-15
  11. Freud, Sigmund (1971) [1905]. "Chapter II: Infantile sexuality. (2). The manifestations of infantile sexuality". Three essays on the theory of sexuality. doi:10.1037/e417472005-178.
  12. Montessori, Maria, Play Is The Work of the Child, doi:10.1037/e555792011-001 , retrieved 2020-11-15
  13. "Gesell Theory". Gesell Program in Early Childhood. Retrieved 2020-11-08.
  14. Sacco, Rob G. (2013-03-28). "Re-Envisaging the Eight Developmental Stages of Erik Erikson: The Fibonacci Life-Chart Method (FLCM)". Journal of Educational and Developmental Psychology. 3 (1). doi: 10.5539/jedp.v3n1p140 . ISSN   1927-0534.
  15. Bronfenbrenner, Urie (1992). Ecological systems theory. Jessica Kingsley Publishers.
  16. Vygotsky, Lev (1962). Hanfmann, Eugenia; Vakar, Gertrude (eds.). Thought and language. doi:10.1037/11193-000.
  17. Berk, Laura E. (2012). Infants and Children: Prenatal Through Middle Childhood. Boston, MA: Allyn & Bacon. pp. 224–225. ISBN   978-0-205-83191-3.
  18. Slavin, Robert E. (2018). Educational Psychology: Theory and Practice. New York, NY: Pearson Education Inc. pp. 33–35. ISBN   978-0134524283.
  19. 1 2 3 Thompson, E. (2010). Mind in life: Biology, phenomenology, and the sciences of mind. America: Harvard University Press.
  20. Treisman, A. (1999). "Solutions to the binding problem: progress through controversy and convergence." Neuron, 1999, 24(1):105-125.
  21. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 Val Danilov, Igor (2023). "Low-Frequency Oscillations for Nonlocal Neuronal Coupling in Shared Intentionality Before and After Birth: Toward the Origin of Perception". OBM Neurobiology. 7 (4): 1–17. doi: 10.21926/obm.neurobiol.2304192 .
  22. Li, K.T.; Liang, J.; Zhou, C. (2021). "Gamma oscillations facilitate effective learning in excitatory-inhibitory balanced neural circuits." Neural Plast. 2021; 2021: 6668175.
  23. Gilson, M.; Burkitt, A.; van Hemmen, J.L. (2010). "STDP in recurrent neuronal networks." Front Comput Neurosci. 2010; 4. Doi: 10.3389/fncom.2010.00023.
  24. Von Bernhardi, R.; Bernhardi, L.E.; Eugenín, J. (2017). "What is neuralplasticity?" In: Theplasticbrain.Cham: Springer; 2017. pp. 1-5.
  25. Tazerart, S.; Mitchell, D.E.; Miranda Rottmann, S.; Araya, R. (2020). "Aspike-timing-dependentplasticityrule for dendritic spines." Nat Commun. 2020; 11: 4276.
  26. Collinet, C.; Lecuit, T. (2021). "Programmed and self-organized flow of information during morphogenesis." Nat Rev Mol Cell Biol. 2021; 22: 245-265.
  27. 1 2 3 4 5 6 7 8 9 10 11 12 Val Danilov, I. (2023). "Theoretical Grounds of Shared Intentionality for Neuroscience in Developing Bioengineering Systems." OBM Neurobiology 2023; 7(1): 156; doi:10.21926/obm.neurobiol.2301156
  28. 1 2 3 4 5 6 7 Val Danilov, Igor (2023). "Shared Intentionality Modulation at the Cell Level: Low-Frequency Oscillations for Temporal Coordination in Bioengineering Systems". OBM Neurobiology. 7 (4): 1–17. doi: 10.21926/obm.neurobiol.2304185 .
  29. Tomasello, M. (2008). "Origins of Human Communication," MIT Press. ISBN 978-0-262-20177-3
  30. 1 2 Val Danilov, Igor; Mihailova, Sandra (2022). "A New Perspective on Assessing Cognition in Children through Estimating Shared Intentionality". Journal of Intelligence. 10 (2): 21. doi: 10.3390/jintelligence10020021 . ISSN   2079-3200. PMC   9036231 . PMID   35466234.
  31. Renner, John (1974). Research, teaching, and learning with the Piaget model.
  32. Gelman, Rochel. (1978). The child's understanding of number. Gallistel, C. R., 1941-. Cambridge, Mass.: Harvard University Press. ISBN   0-674-11636-4. OCLC   3770717.
  33. Kegan, Robert (1986). The Evolving Self.
  34. Babakr, Zana; Mohamedamin, Pakstan; Kakamad, Karwan (2019). "Piaget's Cognitive Developmental Theory: Critical Review" (PDF). Education Quarterly Reviews. 2 (3): 520. doi:10.31014/aior.1993.02.03.84 . Retrieved 2023-03-21.
  35. "Piaget's Preoperational Stage of Cognitive Development | Lifespan Development". courses.lumenlearning.com. Retrieved 2023-10-31.
  36. Spelke, E. S. (2022). What Babies Know: Core Knowledge and Composition Volume 1 (Vol. 1). Oxford University Press.
  37. McShane, John. "Cognitive Development: an information processing approach". 1991
  38. 1 2 3 4 5 6 7 8 9 "Erik Erikson's Stages of Psychosocial Development". 2022-11-03. Retrieved 2023-12-07.
  39. "Psychosocial Development and Identity Statuses". Adult Development: 31–39. 2022.
  40. 1 2 3 4 5 6 7 8 Orenstein, Gabriel A.; Lewis, Lindsay (2023), "Eriksons Stages of Psychosocial Development", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID   32310556 , retrieved 2023-12-07
  41. Feigenson, Lisa; Dehaene, Stanislas; Spelke, Elizabeth (July 2004). "Core systems of number" (PDF). Trends in Cognitive Sciences. 8 (7): 307–314. doi:10.1016/j.tics.2004.05.002. PMID   15242690.
  42. von Hofsten, Claes; Spelke, Elizabeth S. (1985). "Object perception and object-directed reaching in infancy" (PDF). Journal of Experimental Psychology: General. 114 (2): 198–212. doi:10.1037/0096-3445.114.2.198. PMID   3159829.
  43. Feigenson, L., Dehaene, S., & Spelke, E. (2004). Core systems of number. TRENDS in Cognitive Sciences, 8(7), 308.
  44. Ness, Daniel and Stephen J. Farenga. (2007). Knowledge under Construction: The Importance of Play in Developing Children's Spatial and Geometric Thinking. Lanham, MD: Rowman & Littlefield.
  45. Simion, F.; Regolin, L.; Bulf, H. (2008). "A predisposition for biological motion in the newborn baby". PNAS. 105 (2): 809–813. Bibcode:2008PNAS..105..809S. doi: 10.1073/pnas.0707021105 . PMC   2206618 . PMID   18174333.
  46. Van Gelder, T. (1998). "The dynamical hypothesis in cognitive science." Behavioral and Brain Sciences, vol. 21 (5), pp. 615-628. DOI: 10.1017/s0140525x98001733.
  47. Varela, F. J.; Bourgine, P. (1992). "Towards a practice of autonomous systems." In Towards a Practice of Autonomous Systems. The first European conference on Artificial Life, ed. F. J. Varela and P. Bourgine, pp. xi–xviii. Cambridge: MIT Press.
  48. Zoia, S.; Blason, L.; D’Ottavio, G.; Bulgheroni, M.; Pezzetta, E.; Scabar, A.; Castiello, U. (2007). "Evidence of early development of action planning in the human foetus: a kinematic study." Experimental brain research, 176, 217-226.
  49. Castiello, U.; Becchio, C.; Zoia, S.; Nelini, C.; Sartori, L.; Blason, L.; D'Ottavio, G.; Bulgheroni, M.; Gallese, V. (2010). "Wired to be social: the ontogeny of human interaction." PloS one, 5(10), p.e13199.
  50. Kisilevsky, B.C. (2016). "Fetal Auditory Processing: Implications for Language Development? Fetal Development." Research on Brain and Behavior, Environmental In uences, and Emerging Technologies,: 133-152.
  51. Lee, G.Y.C.; Kisilevsky, B.S. (2014). "Fetuses respond to father’s voice but prefer mother’s voice after birth." Developmental Psychobiology, 56: 1-11.
  52. Hepper, P.G.; Scott, D.; Shahidullah, S. (1993). "Newborn and fetal response to maternal voice." Journal of Reproductive and Infant Psychology, 11: 147-153.
  53. Lecanuet, J.P.; Granier‐Deferre, C.; Jacquet, A.Y.; Capponi, I.; Ledru, L. (1993). "Prenatal discrimination of a male and a female voice uttering the same sentence." Early development and parenting, 2(4): 217-228.
  54. Hepper P. (2015). "Behavior during the prenatal period: Adaptive for development and survival." Child Development Perspectives, 9(1): 38-43. DOI: 10.1111/cdep.12104.
  55. Jardri, R.; Houfflin-Debarge, V.; Delion, P.; Pruvo, J-P.; Thomas, P.; Pins, D. (2012). "Assessing fetal response to maternal speech using a noninvasive functional brain imaging technique." International Journal of Developmental Neuroscience, 2012, 30: 159–161. doi:10.1016/j.ijdevneu.2011.11.002.
  56. Liu J, Zhang R, Xie E, Lin Y, Chen D, Liu Y, et al. (August 2023). "Shared intentionality modulates interpersonal neural synchronization at the establishment of communication system". Communications Biology. 6 (1): 832. doi:10.1038/s42003-023-05197-z. PMC   10415255 . PMID   37563301.
  57. Painter DR, Kim JJ, Renton AI, Mattingley JB (June 2021). "Joint control of visually guided actions involves concordant increases in behavioural and neural coupling". Communications Biology. 4 (1): 816. doi:10.1038/s42003-021-02319-3. PMC   8242020 . PMID   34188170.
  58. Hu Y, Pan Y, Shi X, Cai Q, Li X, Cheng X (March 2018). "Inter-brain synchrony and cooperation context in interactive decision making". Biological Psychology. 133: 54–62. doi:10.1016/j.biopsycho.2017.12.005. PMID   29292232. S2CID   46859640.
  59. Fishburn FA, Murty VP, Hlutkowsky CO, MacGillivray CE, Bemis LM, Murphy ME, et al. (September 2018). "Putting our heads together: interpersonal neural synchronization as a biological mechanism for shared intentionality". Social Cognitive and Affective Neuroscience. 13 (8): 841–849. doi:10.1093/scan/nsy060. PMC   6123517 . PMID   30060130.
  60. Szymanski C, Pesquita A, Brennan AA, Perdikis D, Enns JT, Brick TR, et al. (May 2017). "Teams on the same wavelength perform better: Inter-brain phase synchronization constitutes a neural substrate for social facilitation". NeuroImage. 152: 425–436. doi:10.1016/j.neuroimage.2017.03.013. hdl: 11858/00-001M-0000-002D-059A-1 . PMID   28284802. S2CID   3807834.
  61. Astolfi L, Toppi J, De Vico Fallani F, Vecchiato G, Salinari S, Mattia D, et al. (September 2010). "Neuroelectrical hyperscanning measures simultaneous brain activity in humans". Brain Topography. 23 (3): 243–256. doi:10.1007/s10548-010-0147-9. PMID   20480221. S2CID   3488268.
  62. Val Danilov, I.; Svajyan, A.; Mihailova, S. (2023). "A New Computer-Aided Method for Assessing Children's Cognition in Bioengineering Systems for Diagnosing Developmental Delay." OBM Neurobiology; 7(4): 189; doi:10.21926/obm.neurobiol.2304189.
  63. Val Danilov, Igor. (2022). "A Bioengineering System for Assessing Children's Cognitive Development by Computerized Evaluation of Shared Intentionality." Proceedings of the 2022 International Conference on Computational Science and Computational Intelligence (CSCI'22: December 14-16, 2022, Las Vegas, Nevada, USA); Publisher: IEEE Computer Society, Editors: Hamid R. Arabnia, Leonidas Deligiannidis, Fernando G. Tinetti, and Quoc-Nam Tran. ISBN   979-8-3503-2028-2; IEEE Catalog Number: CFP2271X-USB, doi : 10.1109/CSCI58124.2022.00323. pp:1591-1598.
  64. Val Danilov, I.; Mihailova, S.; Svajyan, A. (2022). "Computerized Assessment of Cognitive Development in Neurotypical and Neurodivergent Children." OBM Neurobiology 2022;6(3):18; doi : 10.21926/obm.neurobiol.2203137.
  65. Peal, Elizabeth; Lambert, Wallace E (1962). "The relation of bilingualism to intelligence". Psychological Monographs. 76 (27): 1–23. doi:10.1037/h0093840.
  66. Bialystok, Ellen (2015). "Bilingualism And The Development Of Executive Function: The Role Of Attention". Child Development Perspectives. 9 (2): 117–121. doi:10.1111/cdep.12116. PMC   4442091 . PMID   26019718.
  67. Whorf, Benjamin (1940). "Linguistics as an Exact Science Language". Thought and Reality.
  68. 1 2 Hunt, E.; Agnoli, F. (1991). "The Whorfian hypothesis: A cognitive psychology perspective". Psychological Review. 98 (3): 377–389. doi:10.1037/0033-295X.98.3.377.
  69. Mosenthal, P (1975). "Language and thought". Theory into Practice. 14 (5): 306–311. doi:10.1080/00405847509542592.
  70. Quine, Willard Van Orman (2013). Word and Object. doi:10.7551/mitpress/9636.001.0001. ISBN   9780262312790.
  71. Sevinç, Gülşah (2019-05-31). "Bilişsel Gelişime Yeni Piagetci Yaklaşıma İlişkin bir Değerlendirme". Ankara Universitesi Egitim Bilimleri Fakultesi Dergisi. doi: 10.30964/auebfd.470159 . ISSN   1301-3718.
  72. Diamond, Adele (26 December 2017). "Close Interrelation of Motor Development and Cognitive Development and of the Cerebellum and Prefrontal Cortex". Child Development. 71 (1): 44–56. doi:10.1111/1467-8624.00117. JSTOR   1132216. PMID   10836557.
  73. Hedden, T.; Ketay, S.; Aron, A.; Markus, H. R.; Gabrieli, J. D. E. (2008). "Cultural influences on neural substrates of attentional control". Psychological Science. 19 (1): 12–17. doi:10.1111/j.1467-9280.2008.02038.x. PMID   18181784. S2CID   14439636.
  74. han, S.; Northoff, Georg (2008). "Culture sensitive neural substrates of human cognition: a transcultural neuroimaging approach". Nature Reviews. 9 (1): 646–654. doi:10.1038/nrn2456. PMID   18641669. S2CID   6461309.
  75. Kobayashi, C.; Glover, G. H.; Temple, E. (2007). "Cultural and linguistic effects on neural bases of 'theory of mind' in American and Japanese children". Brain Research. 1164 (1): 95–107. doi:10.1016/j.brainres.2007.06.022. PMC   2964053 . PMID   17643400.
  76. Calvert, Donald R.; Lane, Harlan (December 1985). "When the Mind Hears: A History of the Deaf". The American Historical Review. 90 (5): 1163. doi:10.2307/1859664. ISSN   0002-8762. JSTOR   1859664.
  77. Mayberry, Rachel (2002). Cognitive development in deaf children: the interface of language and perception in neuropsychology.
  78. Woolfe, Tyron; Want, Stephen C.; Siegal, Michael (May 2002). "Signposts to Development: Theory of Mind in Deaf Children". Child Development. 73 (3): 768–778. doi:10.1111/1467-8624.00437. ISSN   0009-3920. PMID   12038550.
  79. Sisco, Frankie H.; Anderson, Richard J. (1980). "Deaf Children's Performance on the WISC-R Relative to Hearing Status of Parents and Child-Rearing Experiences". American Annals of the Deaf. 125 (7): 923–930. doi:10.1353/aad.2012.1290. ISSN   1543-0375. PMID   7446346. S2CID   26135193.
  80. Krouse, Hailey E.; Braden, Jeffery P. (2010-10-27). "The Reliability and Validity of WISC-IV Scores With Deaf and Hard-of-Hearing Children". Journal of Psychoeducational Assessment. 29 (3): 238–248. doi:10.1177/0734282910383646. ISSN   0734-2829. S2CID   143191620.
  81. Lina-Granade, Geneviève; Comte-Gervais, Isabelle; Gippon, Laurie; Nappez, Gaëlle; Morin, Elodie; Truy, Eric (June 2010). "Correlation Between Cognitive Abilities and Language Level in Cochlear Implanted Children". Cochlear Implants International. 11 (sup1): 327–331. doi:10.1179/146701010x12671177989633. ISSN   1467-0100. PMID   21756642. S2CID   206848307.
  82. Fast, Anne A.; Olson, Kristina R. (March 2018). "Gender Development in Transgender Preschool Children". Child Development. 89 (2): 620–637. doi: 10.1111/cdev.12758 . ISSN   0009-3920. PMID   28439873.
  83. "Transgender Kids Show Consistent Gender Identity Across Measures". Association for Psychological Science - APS. Retrieved 2023-05-11.

Further reading

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.