Cognitive neuroscience

This article includes a list of general references but it lacks sufficient corresponding inline citations Please help to improve this article by introducing more precise citations December 2012 Learn how and when to remove this message Cognitive neuroscience is the scientific field that is concerned with the study of the biological processes and aspects that underlie cognition with a specific focus on the neural connections in the brain which are involved in mental processes It addresses the questions of how cognitive activities are affected or controlled by neural circuits in the brain Cognitive neuroscience is a branch of both neuroscience and psychology overlapping with disciplines such as behavioral neuroscience cognitive psychology physiological psychology and affective neuroscience Cognitive neuroscience relies upon theories in cognitive science coupled with evidence from neurobiology and computational modeling Parts of the brain play an important role in this field Neurons play the most vital role since the main point is to establish an understanding of cognition from a neural perspective along with the different lobes of the cerebral cortex Methods employed in cognitive neuroscience include experimental procedures from psychophysics and cognitive psychology functional neuroimaging electrophysiology cognitive genomics and behavioral genetics Studies of patients with cognitive deficits due to brain lesions constitute an important aspect of cognitive neuroscience The damages in lesioned brains provide a comparable starting point on regards to healthy and fully functioning brains These damages change the neural circuits in the brain and cause it to malfunction during basic cognitive processes such as memory or learning People have learning disabilities and such damage can be compared with how the healthy neural circuits are functioning and possibly draw conclusions about the basis of the affected cognitive processes Some examples of learning disabilities in the brain include places in Wernicke s area the left side of the temporal lobe and Broca s area close to the frontal lobe Also cognitive abilities based on brain development are studied and examined under the subfield of developmental cognitive neuroscience This shows brain development over time analyzing differences and concocting possible reasons for those differences Theoretical approaches include computational neuroscience and cognitive psychology Historical originsTimeline showing major developments in science that led to the emergence of the field cognitive neuroscience Cognitive neuroscience is an interdisciplinary area of study that has emerged from neuroscience and psychology There are several stages in these disciplines that have changed the way researchers approached their investigations and that led to the field becoming fully established Although the task of cognitive neuroscience is to describe the neural mechanisms associated with the mind historically it has progressed by investigating how a certain area of the brain supports a given mental faculty However early efforts to subdivide the brain proved to be problematic The phrenologist movement failed to supply a scientific basis for its theories and has since been rejected The aggregate field view meaning that all areas of the brain participated in all behavior was also rejected as a result of brain mapping which began with Hitzig and Fritsch s experiments and eventually developed through methods such as positron emission tomography PET and functional magnetic resonance imaging fMRI Gestalt theory neuropsychology and the cognitive revolution were major turning points in the creation of cognitive neuroscience as a field bringing together ideas and techniques that enabled researchers to make more links between behavior and its neural substrates While the Ancient Greeks Alcmaeon Plato Aristotle in the 5th and 4th centuries BC and then the Roman physician Galen in the 2nd century AD already argued that the brain is the source of mental activity scientific research into the connections between brain areas and cognitive functions began in the second half of the 19th century The founding insights in the Cognitive neuroscience establishment were In 1861 French neurologist Paul Broca discovered that a damaged area of the posterior inferior frontal gyrus pars triangularis BA45 also known as Broca s area in patients caused an inability to speak His work Localization of Speech in the Third Left Frontal Cultivation in 1865 inspired others to study brain regions linking them to sensory and motor functions In 1870 German physicians Eduard Hitzig and Gustav Fritsch stimulated the cerebral cortex of a dog with electricity causing different muscles to contract depending on the areas of the brain involved This led to the suggestion that individual functions are localized to specific areas of the brain Italian neuroanatomist professor Camillo Golgi discovered in the 1870s that nerve cells could be colored using silver nitrate allowing Golgi to argue that all the nerve cells in the nervous system are a continuous interconnected network In 1874 German neurologist and psychiatrist Carl Wernicke hypothesized an association between the left posterior section of the superior temporal gyrus and the reflexive mimicking of words and their syllables In 1878 Italian professor of pharmacology and physiology Angelo Mosso associated blood flow with brain functions He invented the first neuroimaging technique known as human circulation balance Angelo Mosso is a forerunner of more refined techniques like functional magnetic resonance imaging fMRI and positron emission tomography PET In 1887 Spanish neuroanatomist professor Santiago Ramon y Cajal 1852 1934 improved the Golgi s method of visualizing nervous tissue under light microscopy by using a technique he termed double impregnation He discovered a number of facts about the organization of the nervous system the nerve cell as an independent cell insights into degeneration and regeneration and ideas on brain plasticity In 1894 neurologist and psychiatrist Edward Flatau published a human brain atlas Atlas of the Human Brain and the Course of the Nerve Fibres which consisted of long exposure photographs of fresh brain sections It contained an overview of the knowledge of the time on the fibre pathways in the central nervous system In 1909 German anatomist Korbinian Brodmann published his original research on brain mapping in the monograph Vergleichende Lokalisationslehre der Grosshirnrinde Localisation in the cerebral cortex defining 52 distinct regions of the cerebral cortex known as Brodmann areas now based on regional variations in structure These Brodmann areas were associated with diverse functions including sensation motor control and cognition In 1924 German physiologist and psychiatrist Hans Berger 1873 1941 recorded the first human electroencephalogram EEG discovering the electrical activity of the brain called brain waves and in particular the alpha wave rhythm which is a type of brain wave A first clinical positron imaging device a prototype of a modern Positron Emission Tomography PET was invented in 1953 by Dr Brownell and Dr Aronow American scientists specializing in nuclear medicine David Edmund Kuhl Luke Chapman and Roy Edwards developed this new method of tomographic imaging and constructed several tomographic instruments in the late 1950s Ph D in Chemistry Michael E Phelps was able to invent their insights into the first PET scanner in 1973 PET became a valuable research tool to study brain functioning This technique can indirectly measure radioactivity signal that indicates increased blood flow associated with increased brain activity In 1971 American chemist and physicist Paul Christian Lauterbur invented the idea of MR imaging MRI In 2003 he received the Nobel Prize MRI is the investigative tool for contrasting grey and white matter which makes MRI the choice to study many conditions of the central nervous system This method contributed to the development of Functional Magnetic Resonance Imaging fMRI which has been used in many studies in cognitive neuroscience since 1990s Origins in philosophy Philosophers have always been interested in the mind the idea that explaining a phenomenon involves understanding the mechanism responsible for it has deep roots in the History of Philosophy from atomic theories in 5th century B C to its rebirth in the 17th and 18th century in the works of Galileo Descartes and Boyle Among others it s Descartes idea that machines humans build could work as models of scientific explanation For example Aristotle thought the brain was the body s cooling system and the capacity for intelligence was located in the heart It has been suggested that the first person to believe otherwise was the Roman physician Galen in the second century AD who declared that the brain was the source of mental activity although this has also been accredited to Alcmaeon However Galen believed that personality and emotion were not generated by the brain but rather by other organs Andreas Vesalius an anatomist and physician was the first to believe that the brain and the nervous system are the center of the mind and emotion Psychology a major contributing field to cognitive neuroscience emerged from philosophical reasoning about the mind 19th century Phrenology A page from the American Phrenological Journal One of the predecessors to cognitive neuroscience was phrenology a pseudoscientific approach that claimed that behavior could be determined by the shape of the scalp In the early 19th century Franz Joseph Gall and J G Spurzheim believed that the human brain was localized into approximately 35 different sections In his book The Anatomy and Physiology of the Nervous System in General and of the Brain in Particular Gall claimed that a larger bump in one of these areas meant that that area of the brain was used more frequently by that person This theory gained significant public attention leading to the publication of phrenology journals and the creation of phrenometers which measured the bumps on a human subject s head While phrenology remained a fixture at fairs and carnivals it did not enjoy wide acceptance within the scientific community The major criticism of phrenology is that researchers were not able to test theories empirically Localizationist view The localizationist view was concerned with mental abilities being localized to specific areas of the brain rather than on what the characteristics of the abilities were and how to measure them Studies performed in Europe such as those of John Hughlings Jackson supported this view Jackson studied patients with brain damage particularly those with epilepsy He discovered that the epileptic patients often made the same clonic and tonic movements of muscle during their seizures leading Jackson to believe that they must be caused by activity in the same place in the brain every time Jackson proposed that specific functions were localized to specific areas of the brain which was critical to future understanding of the brain lobes Aggregate field view According to the aggregate field view all areas of the brain participate in every mental function Pierre Flourens a French experimental psychologist challenged the localizationist view by using animal experiments He discovered that removing the cerebellum brain in rabbits and pigeons affected their sense of muscular coordination and that all cognitive functions were disrupted in pigeons when the cerebral hemispheres were removed From this he concluded that the cerebral cortex cerebellum and brainstem functioned together as a whole His approach has been criticised on the basis that the tests were not sensitive enough to notice selective deficits had they been present Emergence of neuropsychology Perhaps the first serious attempts to localize mental functions to specific locations in the brain was by Broca and Wernicke This was mostly achieved by studying the effects of injuries to different parts of the brain on psychological functions In 1861 French neurologist Paul Broca came across a man with a disability who was able to understand the language but unable to speak The man could only produce the sound tan It was later discovered that the man had damage to an area of his left frontal lobe now known as Broca s area Carl Wernicke a German neurologist found a patient who could speak fluently but non sensibly The patient had been the victim of a stroke and could not understand spoken or written language This patient had a lesion in the area where the left parietal and temporal lobes meet now known as Wernicke s area These cases which suggested that lesions caused specific behavioral changes strongly supported the localizationist view Additionally Aphasia is a learning disorder which was also discovered by Paul Broca According to Johns Hopkins School of Medicine Aphasia is a language disorder caused by damage in a specific area of the brain that controls language expression and comprehension This can often lead to the person speaking words with no sense known as word salad Mapping the brain In 1870 German physicians Eduard Hitzig and Gustav Fritsch published their findings of the behavior of animals Hitzig and Fritsch ran an electric current through the cerebral cortex of a dog causing different muscles to contract depending on which areas of the brain were electrically stimulated This led to the proposition that individual functions are localized to specific areas of the brain rather than the cerebrum as a whole as the aggregate field view suggests Brodmann was also an important figure in brain mapping his experiments based on Franz Nissl s tissue staining techniques divided the brain into fifty two areas 20th century Cognitive revolution At the start of the 20th century attitudes in America were characterized by pragmatism which led to a preference for behaviorism as the primary approach in psychology J B Watson was a key figure with his stimulus response approach By conducting experiments on animals he was aiming to be able to predict and control behavior Behaviorism eventually failed because it could not provide realistic psychology of human action and thought it focused primarily on stimulus response associations at the expense of explaining phenomena like thought and imagination This led to what is often termed as the cognitive revolution Neuron doctrine In the early 20th century Santiago Ramon y Cajal and Camillo Golgi began working on the structure of the neuron Golgi developed a silver staining method that could entirely stain several cells in a particular area leading him to believe that neurons were directly connected with each other in one cytoplasm Cajal challenged this view after staining areas of the brain that had less myelin and discovering that neurons were discrete cells Cajal also discovered that cells transmit electrical signals down the neuron in one direction only Both Golgi and Cajal were awarded a Nobel Prize in Physiology or Medicine in 1906 for this work on the neuron doctrine Mid late 20th century Several findings in the 20th century continued to advance the field such as the discovery of ocular dominance columns recording of single nerve cells in animals and coordination of eye and head movements Experimental psychology was also significant in the foundation of cognitive neuroscience Some particularly important results were the demonstration that some tasks are accomplished via discrete processing stages the study of attention and the notion that behavioural data do not provide enough information by themselves to explain mental processes As a result some experimental psychologists began to investigate neural bases of behaviour Wilder Penfield created maps of primary sensory and motor areas of the brain by stimulating the cortices of patients during surgery The work of Sperry and Gazzaniga on split brain patients in the 1950s was also instrumental in the progress of the field The term cognitive neuroscience itself was coined by Gazzaniga and cognitive psychologist George Armitage Miller while sharing a taxi in 1976 Brain mapping New brain mapping technology particularly fMRI and PET allowed researchers to investigate experimental strategies of cognitive psychology by observing brain function Although this is often thought of as a new method most of the technology is relatively recent the underlying principle goes back as far as 1878 when blood flow was first associated with brain function Angelo Mosso an Italian psychologist of the 19th century had monitored the pulsations of the adult brain through neurosurgically created bony defects in the skulls of patients He noted that when the subjects engaged in tasks such as mathematical calculations the pulsations of the brain increased locally Such observations led Mosso to conclude that blood flow of the brain followed function Commonly the cerebrum is divided into 5 sections the frontal lobe occipital lobe temporal lobes parietal lobe and the insula The brain is also divided into fissures and sulci The lateral sulcus called the Sylvian Fissure separates the frontal and temporal lobes The insula is described as being deep to this lateral fissure The longitudinal fissure separates the lobes of the brain length wise Lobes are considered to be distinct in their distribution of vessels The overall surface consists of sulci and gyri which are necessary to identify for neuroimaging purposes Notable ExperimentsThroughout the history of cognitive neuroscience many notable experiments have been conducted For example the mental rotation experiment conducted by Kosslyn et al 1993 indicated that the time it takes to mentally rotate an object via imagination takes the same amount of time as actually rotating it they found that mentally rotating an object activates parts of the brain involved in motor functioning which may explain this similarity Another experiment is describes the two mechanisms of processing visual attention bottom up attention and top down attention They define bottom up attention is the brain visually processing salient images first and then the surrounding information while top down attention involves focusing on task relevant objects first The researchers found that the ventral stream focuses on visual recognition the dorsal stream is involved in the spatial information concerning the object As experiments in cognitive neuroscience what these have in common is that the researchers are measuring activities or behaviors that we can see and then determining the neural basis of the function and what part of the brain is involved Emergence of a new disciplineBirth of cognitive science On September 11 1956 a large scale meeting of cognitivists took place at the Massachusetts Institute of Technology George A Miller presented his The Magical Number Seven Plus or Minus Two paper while Noam Chomsky and Newell amp Simon presented their findings on computer science Ulric Neisser commented on many of the findings at this meeting in his 1967 book Cognitive Psychology The term psychology had been waning in the 1950s and 1960s causing the field to be referred to as cognitive science Behaviorists such as Miller began to focus on the representation of language rather than general behavior David Marr concluded that one should understand any cognitive process at three levels of analysis These levels include computational algorithmic representational and physical levels of analysis Combining neuroscience and cognitive science Before the 1980s interaction between neuroscience and cognitive science was scarce Cognitive neuroscience began to integrate the newly laid theoretical ground in cognitive science that emerged between the 1950s and 1960s with approaches in experimental psychology neuropsychology and neuroscience Neuroscience was not established as a unified discipline until 1971 In the late 1970s neuroscientist Michael S Gazzaniga and cognitive psychologist George A Miller were said to have first coined the term cognitive neuroscience In the very late 20th century new technologies evolved that are now the mainstay of the methodology of cognitive neuroscience including TMS 1985 and fMRI 1991 Earlier methods used in cognitive neuroscience include EEG human EEG 1920 and MEG 1968 Occasionally cognitive neuroscientists utilize other brain imaging methods such as PET and SPECT An upcoming technique in neuroscience is NIRS which uses light absorption to calculate changes in oxy and deoxyhemoglobin in cortical areas In some animals Single unit recording can be used Other methods include microneurography facial EMG and eye tracking Integrative neuroscience attempts to consolidate data in databases and form unified descriptive models from various fields and scales biology psychology anatomy and clinical practice ARTMAP overview Adaptive resonance theory ART is a cognitive neuroscience theory developed by Gail Carpenter and Stephen Grossberg in the late 1970s on aspects of how the brain processes information It describes a number of artificial neural network models which use supervised and unsupervised learning methods and address problems such as pattern recognition and prediction In 2014 Stanislas Dehaene Giacomo Rizzolatti and Trevor Robbins were awarded the Brain Prize for their pioneering research on higher brain mechanisms underpinning such complex human functions as literacy numeracy motivated behaviour and social cognition and for their efforts to understand cognitive and behavioural disorders Brenda Milner Marcus Raichle and John O Keefe received the Kavli Prize in Neuroscience for the discovery of specialized brain networks for memory and cognition and O Keefe shared the Nobel Prize in Physiology or Medicine in the same year with May Britt Moser and Edvard Moser for their discoveries of cells that constitute a positioning system in the brain In 2017 Wolfram Schultz Peter Dayan and were awarded the Brain Prize for their multidisciplinary analysis of brain mechanisms that link learning to reward which has far reaching implications for the understanding of human behaviour including disorders of decision making in conditions such as gambling drug addiction compulsive behaviour and schizophrenia Recent trendsRecently the focus of research had expanded from the localization of brain area s for specific functions in the adult brain using a single technology Studies have been diverging in several different directions exploring the interactions between different brain areas using multiple technologies and approaches to understand brain functions and using computational approaches Advances in non invasive functional neuroimaging and associated data analysis methods have also made it possible to use highly naturalistic stimuli and tasks such as feature films depicting social interactions in cognitive neuroscience studies In recent years there have been a lot of new advancements in the field of Cognitive Neuroscience One new technique that has emerged is called shadow imaging This method has combined different aspects of various neuroimaging techinques to create one that is more versatile It uses standard light microscopy and melds it with fluorescence labeling of the interstitial fluid in the brain s extracellular space This technique can help researchers get a bigger and more detailed look at brain tissue This can help researchers understand more on anatomy and viability for their experiments This technique has helped to see neurons microglia tumor cells and blood capillaries more closely Shadow imaging is a new approach that shows a lot of promise in the field of neuroimaging Another very recent trend in cognitive neuroscience is the use of optogenetics to explore circuit function and its behavioral consequences This new technology is a combination of genetic targeting of certain neurons and using the imaging technology to see targets in living neurons This technique allows scientists to see the neurons while they are still intact in animals and be able to trace the electrical happenings in that cell This new technology has been used successfully in many experiments and it is helping researchers in observing brain activity and understanding its role in disease behavior and function Researchers have also modified a fMRI and made it more efficient in a technique called direct imaging of neuronal activity or DIANA This group of researchers changed the software to collect data every 5 milliseconds which is 8 times faster than what the normal technique captures After the software can stitch together all of the images taken during the imaging and create a full slice of the brain Cognitive Neuroscience and Artificial Intelligence Cognitive neuroscience has played a major role in shaping artificial intelligence AI By studying how the human brain processes information researchers have developed AI systems that simulate cognitive functions like learning pattern recognition and decision making A good example of this is neural networks which are inspired by the connections between neurons in the brain These networks form the foundation of many AI applications Deep learning a subfield of AI uses neural networks to replicate processes similar to those in the human brain For instance convolutional neural networks CNNs are modeled after the visual system and have transformed tasks like image recognition and speech analysis AI also benefits from advancements in brain imaging technologies such as functional magnetic resonance imaging fMRI and electroencephalography EEG These tools provide valuable insights into neural activity which help improve AI systems designed to mimic human thought processes Despite the progress replicating the complexity of human cognition remains a challenge Researchers are now exploring hybrid models that combine neural networks with symbolic reasoning to better mimic how humans think and solve problems This approach shows promise for addressing some of the limitations of current AI systems Cognitive Neuroscience and Neurotherapy Cognitive neuroscience contributed to development of novel noninvasive neurostimulation methods and developed in parallel with Neurotherapy aimed to address symptom control and cure several conditions in medical treatment Noninvasive neurotherapy have attracted significant attention from the scientific community since these methods can be personalized and used in treatment independent of underlying conditions Based on research in cognitive neuroscience Neurostimulation techniques apply different innovations to exert an energy based impact on the nervous system by using electrical magnetic and or electromagnetic energy to treat mental and physical health disorders in patients Since Neurotherapy aims to heal without harm and implements systemic targeted delivery of an energy stimulus to a specific neurological zone in the body to alter neuronal activity and stimulate neuroplasticity the recent trend in the Cognitive neuroscience is the research of natural neurostimulation TopicsAttention Cognitive development Consciousness Creativity Decision making Emotions Intelligence Language Learning Memory Perception Social cognitionMethodsExperimental methods include Psychophysics Eye tracking Functional magnetic resonance imaging Electroencephalography Magnetoencephalography Electrocorticography Transcranial Magnetic Stimulation Computational ModelingNotable peopleJesper Mogensen Danish neuroscientist and former university professorSee alsoPhilosophy portalPsychology portalBinding problem Cognitive biology Cognitive psychology Embodied cognition Experimental psychology Cognitive psychophysiology Affective neuroscience Social neuroscience Social cognitive neuroscience Cultural neuroscience List of cognitive neuroscientists Neurochemistry Neuroethology Neuroendocrinology 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Dembitskaya Y Boyce A K J Idziak A Pourkhalili Langeroudi A Arizono M Girard J Le Bourdelles G Ducros M Sato Fitoussi M Ochoa de Amezaga A Oizel K Bancelin S Mercier L Pfeiffer T Thompson R J Kim S K Bikfalvi A amp Nagerl U V 2023 Shadow imaging for panoptical visualization of brain tissue in vivo Nature communications 14 1 6411 https doi org 10 1038 s41467 023 42055 2 Pama E A Claudia Colzato Lorenza S Hommel Bernhard 6 September 2013 Optogenetics as a neuromodulation tool in cognitive neuroscience Frontiers in Psychology 4 610 doi 10 3389 fpsyg 2013 00610 PMC 3764402 PMID 24046763 Deisseroth Karl Feng Guoping Majewska Ania K Miesenbock Gero Ting Alice Schnitzer Mark J 2006 10 11 Next Generation Optical Technologies for Illuminating Genetically Targeted Brain Circuits Journal of Neuroscience 26 41 10380 10386 doi 10 1523 JNEUROSCI 3863 06 2006 ISSN 0270 6474 PMC 2820367 PMID 17035522 Prillaman McKenzie 2022 10 13 Faster MRI scan captures brain activity in mice Nature doi 10 1038 d41586 022 03276 5 PMID 36229690 LeCun Yann Bengio Yoshua Hinton Geoffrey 2015 05 28 Deep learning Nature 521 7553 436 444 Bibcode 2015Natur 521 436L doi 10 1038 nature14539 ISSN 0028 0836 PMID 26017442 Lake Brenden M Ullman Tomer D Tenenbaum Joshua B Gershman Samuel J 2017 Building machines that learn and think like people Behavioral and Brain Sciences 40 e253 arXiv 1604 00289 doi 10 1017 S0140525X16001837 ISSN 0140 525X PMID 27881212 Langley Christelle Cirstea Bogdan Ionut Cuzzolin Fabio Sahakian Barbara J 2022 04 05 Theory of Mind and Preference Learning at the Interface of Cognitive Science Neuroscience and AI A Review Frontiers in Artificial Intelligence 5 doi 10 3389 frai 2022 778852 ISSN 2624 8212 PMC 9038841 PMID 35493614 Chapin TJ Russell Chapin LA 2013 Neurotherapy and Brain based treatment for psychological and behavioral problems Routledge 2013 Dec 4 Val Danilov I 2023 The Origin of Natural Neurostimulation A Narrative Review of Noninvasive Brain Stimulation Techniques OBM Neurobiology 2024 8 4 260 https doi 10 21926 obm neurobiol 2404260 Further readingBaars Bernard J Gage Nicole M 2010 Cognition Brain and Consciousness Introduction to Cognitive Neuroscience Academic Press ISBN 978 0 12 381440 1 Bear Mark F Connors Barry W Paradiso Michael A 2007 Neuroscience Lippincott Williams amp Wilkins ISBN 978 0 7817 6003 4 Churchland Patricia Smith Sejnowski Terrence Joseph 1992 The Computational Brain MIT Press ISBN 978 0 262 33965 0 Code Chris 2004 Classic Cases Ancient and Modern Milestones in the Development of Neuropsychological Science In Code Chris Joanette Yves Lecours Andre Roch Wallesch Claus W eds Classic Cases in Neuropsychology pp 17 25 doi 10 4324 9780203304112 8 inactive 13 December 2024 ISBN 978 0 203 30411 2 a href wiki Template Cite book title Template Cite book cite book a CS1 maint DOI inactive as of December 2024 link Enersen O D 2009 John Hughlings Jackson In Who Named It http www whonamedit com doctor cfm 2766 html Retrieved 14 August 2009 Gazzaniga M S Ivry R B amp Mangun G R 2002 Cognitive Neuroscience The biology of the mind 2nd ed New York W W Norton Gallistel R 2009 Memory and the Computational Brain Why Cognitive Science will Transform Neuroscience Wiley Blackwell ISBN 978 1 4051 2287 0 Gazzaniga M S The Cognitive Neurosciences III 2004 The MIT Press ISBN 0 262 07254 8 Gazzaniga M S Ed 1999 Conversations in the Cognitive Neurosciences The MIT Press ISBN 0 262 57117 X Sternberg Eliezer J Are You a Machine The Brain the Mind and What it Means to be Human Amherst NY Prometheus Books Ward Jamie 2015 The Student s Guide to Cognitive Neuroscience 3rd ed Psychology Press ISBN 978 1848722729 Handbook of Functional Neuroimaging of Cognition By Roberto Cabeza Alan Kingstone Principles of neural science By Eric R Kandel James H Schwartz Thomas M Jessell The Cognitive Neuroscience of Memory By Amanda Parker Edward L Wilding Timothy J Bussey Neuronal Theories of the Brain By Christof Koch Joel L Davis Cambridge Handbook of Thinking and Reasoning By Keith James Holyoak Robert G Morrison Handbook of Mathematical Cognition By Jamie I D Campbell Cognitive Psychology By Michael W Eysenck Mark T Keane Development of Intelligence By Mike Anderson Development of Mental Processing By Andreas Demetriou et al Memory and Thinking By Robert H Logie K J Gilhooly Memory Capacity By Nelson Cowan Proceedings of the Nineteenth Annual Conference of the Cognitive Science Models of Working Memory By Akira Miyake Priti Shah Memory and Thinking By Robert H Logie K J Gilhooly Variation in Working Memory By Andrew R A Conway et al Memory Capacity By Nelson Cowan Cognition and Intelligence By Robert J Sternberg Jean E Pretz General Factor of Intelligence By Robert J Sternberg Elena Grigorenko Neurological Basis of Learning Development and Discovery By Anton E Lawson Memory and Human Cognition By John T E Richardson Society for Neuroscience Retrieved 14 August 2009 Keiji Tanaka Current Opinion in Neurobiology 2007 External 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