Introducing Neuropsychology, Second Edition
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Clinical Neuropsychology What Is Clinical Neuropsychology?
Clinical Neuropsychology What is Clinical Neuropsychology? A Neuropsychologist is a licensed psychologist trained to examine the link between a patient’s brain and behavior. A Neuropsychologist will assess neurological, medical, and genetic disorders, psychiatric illness and behavior problems, developmental disabilities, and complex learning issues. UNC PM&R’s Neuropsychologists work with children, adolescents, and adults. The primary goal of this service is to utilize results of the evaluation to collaborate with the patient and develop a treatment plan and recommendations that best fit the patient’s needs. Patients who may benefit from a Neuropsychological Evaluation include those with: • A neurological disorder such as epilepsy, hydrocephalus, Parkinson’s disease, Alzheimer’s disease and other dementias, multiple sclerosis, or hydrocephalus • An acquired brain injury from concussion or more severe head trauma, stroke, hydrocephalus, lack of oxygen, brain infection, brain tumor, or other cancers • Other medical conditions that may affect brain functioning, such as chronic heart, lung, kidney, or liver problems, diabetes, breathing issues, lupus, or other autoimmune diseases • A neurodevelopmental disorder such as cerebral palsy, spina bifida, intellectual disabilities, learning difficulties, ADHD disorder, or autism spectrum disorder • Problems with or changes in thinking, memory, or behavior with no clear known cause What is the evaluation like? The evaluation will be tailored to The evaluation may last between 3-6 address the patient’s specific concerns hours and typically includes: about functioning, and can address 1. Interview with the patient and the following: possibly family members/caretakers • General intellectual ability and/or problems in 2. Assessment and testing (typically a reading, writing, or math combination of one-on-one tests of • Problems with/changes in attention, memory, thinking involving paper/pencil or a thinking abilities, or language tablet, along with questionnaires) • Changes in emotional or behavioral 3. -
'Introspectionism' and the Mythical Origins of Scientific Psychology
Consciousness and Cognition Consciousness and Cognition 15 (2006) 634–654 www.elsevier.com/locate/concog ‘Introspectionism’ and the mythical origins of scientific psychology Alan Costall Department of Psychology, University of Portsmouth, Portsmouth, Hampshire PO1 2DY, UK Received 1 May 2006 Abstract According to the majority of the textbooks, the history of modern, scientific psychology can be tidily encapsulated in the following three stages. Scientific psychology began with a commitment to the study of mind, but based on the method of introspection. Watson rejected introspectionism as both unreliable and effete, and redefined psychology, instead, as the science of behaviour. The cognitive revolution, in turn, replaced the mind as the subject of study, and rejected both behaviourism and a reliance on introspection. This paper argues that all three stages of this history are largely mythical. Introspectionism was never a dominant movement within modern psychology, and the method of introspection never went away. Furthermore, this version of psychology’s history obscures some deep conceptual problems, not least surrounding the modern conception of ‘‘behaviour,’’ that continues to make the scientific study of consciousness seem so weird. Ó 2006 Elsevier Inc. All rights reserved. Keywords: Introspection; Introspectionism; Behaviourism; Dualism; Watson; Wundt 1. Introduction Probably the most immediate result of the acceptance of the behaviorist’s view will be the elimination of self-observation and of the introspective reports resulting from such a method. (Watson, 1913b, p. 428). The problem of consciousness occupies an analogous position for cognitive psychology as the prob- lem of language behavior does for behaviorism, namely, an unsolved anomaly within the domain of an approach. -
RELIGIOUS BELIEFS COMPENSATE for PURPOSE When
RELIGIOUS BELIEFS COMPENSATE FOR PURPOSE 1 When God is your only friend: Religious beliefs compensate for purpose in life in the socially disconnected Todd Chan, Nicholas Michalak, & Oscar Ybarra Department of Psychology University of Michigan 530 Church St., Ann Arbor, MI, 48109-1043 Author notes Data and materials are available at osf.io/h6wuv. Corresponding Author: Todd Chan ([email protected]) RELIGIOUS BELIEFS COMPENSATE FOR PURPOSE 2 Abstract Objective: Social relationships supply purpose to life. How can socially disconnected people, who show lower levels of purpose, compensate for purpose in life? We propose that religious beliefs can compensate for the purpose in life that social relationships would otherwise provide, through (a) providing greater purpose to turn to, and (b) providing divine figures that can substitute for social relationships. Method: In three studies, we analyze three nationally representative and longitudinal datasets (N = 19775) using moderated regression and cross- lagged panel analyses. Results: Consistent with our hypotheses, religious beliefs were of minimal influence on purpose in life for socially connected individuals, who already held higher levels of purpose than socially disconnected individuals. However, for socially disconnected individuals, being highly religious predicted higher levels of purpose in life. Conclusions: Results suggest that although people primarily derive purpose from social relationships, socially disconnected individuals may leverage their religious beliefs for purpose and social comfort until they can reconnect. Keywords: religion; loneliness; social disconnection; interpersonal relationships; purpose RELIGIOUS BELIEFS COMPENSATE FOR PURPOSE 3 When God is your only friend: Religious beliefs compensate for purpose in life in the socially disconnected Purpose drives people forward. To have purpose means people feel that their life consists of plans, goals, and direction that make life worth living (Reker, Peacock, & Wong, 1987). -
Of Boundary Extension: Anticipatory Scene Representation Across Development and Disorder
Received: 23 July 2016 | Revised: 14 January 2017 | Accepted: 19 January 2017 DOI: 10.1002/hipo.22728 RESEARCH ARTICLE Testing the “Boundaries” of boundary extension: Anticipatory scene representation across development and disorder G. Spano1,2 | H. Intraub3 | J. O. Edgin1,2,4 1Department of Psychology, University of Arizona, Tucson, Arizona 85721 Abstract 2Cognitive Science Program, University of Recent studies have suggested that Boundary Extension (BE), a scene construction error, may be Arizona, Tucson, Arizona 85721 linked to the function of the hippocampus. In this study, we tested BE in two groups with varia- 3Department of Psychological and Brain tions in hippocampal development and disorder: a typically developing sample ranging from Sciences, University of Delaware, Newark, preschool to adolescence and individuals with Down syndrome. We assessed BE across three dif- Delaware 19716 ferent test modalities: drawing, visual recognition, and a 3D scene boundary reconstruction task. 4Sonoran University Center for Excellence in Despite confirmed fluctuations in memory function measured through a neuropsychological Developmental Disabilities, University of Arizona, Tucson, Arizona 85721 assessment, the results showed consistent BE in all groups across test modalities, confirming the Correspondence near universal nature of BE. These results indicate that BE is an essential function driven by a com- Goffredina Spano, Wellcome Trust Centre plex set of processes, that occur even in the face of delayed memory development and for Neuroimaging, Institute of Neurology, hippocampal dysfunction in special populations. University College London, 12 Queen Square, London WC1N 3BG, UK. Email: [email protected] KEYWORDS Funding information down syndrome, memory development, hippocampus, prediction error, top-down influences LuMind Research Down Syndrome Foundation; Research Down Syndrome and the Jerome Lejeune Foundation; Molly Lawson Graduate Fellow in Down Syndrome Research (GS). -
Concepts As Correlates of Lexical Labels. a Cognitivist Perspective
This is a submitted manuscript version. The publisher should be contacted for permission to re-use or reprint the material in any form. Final published version, copyright Peter Lang: https://doi.org/10.3726/978-3-653-05287-9 Sławomir Wacewicz Concepts as Correlates of Lexical Labels. A Cognitivist Perspective. This is a submitted manuscript version. The publisher should be contacted for permission to re-use or reprint the material in any form. Final published version, copyright Peter Lang: https://doi.org/10.3726/978-3-653-05287-9 CONTENTS Introduction………………………………………………………………... 6 PART I INTERNALISTIC PERSPECTIVE ON LANGUAGE IN COGNITIVE SCIENCE Preliminary remarks………………………………………………………… 17 1. History and profile of Cognitive Science……………………………….. 18 1.1. Introduction…………………………………………………………. 18 1.2. Cognitive Science: definitions and basic assumptions ……………. 19 1.3. Basic tenets of Cognitive 22 Science…………………………………… 1.3.1. Cognition……………………………………………………... 23 1.3.2. Representationism and presentationism…………………….... 25 1.3.3. Naturalism and physical character of mind…………………... 28 1.3.4. Levels of description…………………………………………. 30 1.3.5. Internalism (Individualism) ………………………………….. 31 1.4. History……………………………………………………………... 34 1.4.1. Prehistory…………………………………………………….. 35 1.4.2. Germination…………………………………………………... 36 1.4.3. Beginnings……………………………………………………. 37 1.4.4. Early and classical Cognitive Science………………………… 40 1.4.5. Contemporary Cognitive Science……………………………... 42 1.4.6. Methodological notes on interdisciplinarity………………….. 52 1.5. Summary…………………………………………………………. 59 2. Intrasystemic and extrasystemic principles of concept individuation 60 2.1. Existential status of concepts ……………………………………… 60 2 This is a submitted manuscript version. The publisher should be contacted for permission to re-use or reprint the material in any form. Final published version, copyright Peter Lang: https://doi.org/10.3726/978-3-653-05287-9 2.1.1. -
Neural Dust: Ultrasonic Biological Interface
Neural Dust: Ultrasonic Biological Interface Dongjin (DJ) Seo Electrical Engineering and Computer Sciences University of California at Berkeley Technical Report No. UCB/EECS-2018-146 http://www2.eecs.berkeley.edu/Pubs/TechRpts/2018/EECS-2018-146.html December 1, 2018 Copyright © 2018, by the author(s). All rights reserved. Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. To copy otherwise, to republish, to post on servers or to redistribute to lists, requires prior specific permission. Neural Dust: Ultrasonic Biological Interface by Dongjin Seo A dissertation submitted in partial satisfaction of the requirements for the degree of Doctor of Philosophy in Engineering - Electrical Engineering and Computer Sciences in the Graduate Division of the University of California, Berkeley Committee in charge: Professor Michel M. Maharbiz, Chair Professor Elad Alon Professor John Ngai Fall 2016 Neural Dust: Ultrasonic Biological Interface Copyright 2016 by Dongjin Seo 1 Abstract Neural Dust: Ultrasonic Biological Interface by Dongjin Seo Doctor of Philosophy in Engineering - Electrical Engineering and Computer Sciences University of California, Berkeley Professor Michel M. Maharbiz, Chair A seamless, high density, chronic interface to the nervous system is essential to enable clinically relevant applications such as electroceuticals or brain-machine interfaces (BMI). Currently, a major hurdle in neurotechnology is the lack of an implantable neural interface system that remains viable for a patient's lifetime due to the development of biological response near the implant. -
Cognitive and Neuroscience Research on Learning And
The 11th International Conference on Education Research New Educational Paradigm for Learning and Instruction September 29 – October 1, 2010 Cognitive and Neuroscience Research on Learning and Instruction: Recent insights about the impact of non-conscious knowledge on problem solving, higher order thinking skills 12 and interactive cyber-learning environments. Richard E. Clark University of Southern California, USA Abstract There are as least three powerful insights from recent studies of the brain that support cognitive science research findings: First, our brains learn and process two very different types of knowledge; non conscious, automated knowledge and conscious, controllable, declarative knowledge. Evidence also suggests that we believe we control our own learning by conscious choice when in fact nearly all mental operations are highly automated, including learning and problem solving; Second, human beings have a very limited capacity to think during learning and problem solving and when that capacity is exceeded, thinking and learning stop without us being aware. Thus instruction and self managed learning must strive to avoid cognitive overload; and Third, nearly all of our instructional design and cyber learning theories and models fail to account for the influence of non-conscious cognitive processes and therefore are inadequate to deal with complex learning and performance. Evidence for these points will be described and their implications for instruction and the learning of problem solving and higher order thinking skills will be discussed. Models of learning and instruction that appear to help overcome some of these biological and cognitive barriers will be described. In addition, suggestions for new research questions on interactive learning environments that take account of the three insights will also be described. -
Neurotechnologies and Brain Computer Interface
From Technologies to Market Sample Neurotechnologies and brain computer interface Market and Technology analysis 2018 LIST OF COMPANIES MENTIONED IN THIS REPORT 240+ slides of market and technology analysis Abbott, Ad-tech, Advanced Brain Monitoring, AdvaStim, AIST, Aleva Neurotherapeutics, Alphabet, Amazon, Ant Group, ArchiMed, Artinis Medical Systems, Atlas Neuroengineering, ATR, Beijing Pins Medical, BioSemi, Biotronik, Blackrock Microsystems, Boston Scientific, Brain products, BrainCo, Brainscope, Brainsway, Cadwell, Cambridge Neurotech, Caputron, CAS Medical Systems, CEA, Circuit Therapeutics, Cirtec Medical, Compumedics, Cortec, CVTE, Cyberonics, Deep Brain Innovations, Deymed, Dixi Medical, DSM, EaglePicher Technologies, Electrochem Solutions, electroCore, Elmotiv, Endonovo Therapeutics, EnerSys, Enteromedics, Evergreen Medical Technologies, Facebook, Flow, Foc.us, G.Tec, Galvani Bioelectronics, General Electric, Geodesic, Glaxo Smith Klein, Halo Neurosciences, Hamamatsu, Helius Medical, Technologies, Hitachi, iBand+, IBM Watson, IMEC, Integer, Integra, InteraXon, ISS, Jawbone, Kernel, LivaNova, Mag and More, Magstim, Magventure, Mainstay Medical, Med-el Elektromedizinische Geraete, Medtronic, Micro Power Electronics, Micro Systems Technologies, Micromed, Microsoft, MindMaze, Mitsar, MyBrain Technologies, Natus, NEC, Nemos, Nervana, Neurable, Neuralink, NeuroCare, NeuroElectrics, NeuroLutions, NeuroMetrix, Neuronetics, Neuronetics, Neuronexus, Neuropace, Neuros Medical, Neuroscan, NeuroSigma, NeuroSky, Neurosoft, Neurostar, Neurowave, -
Neuropsychology of Facial Expressions. the Role of Consciousness in Processing Emotional Faces
Neuropsychology of facial expressions. The role of consciousness in processing emotional faces Michela Balconi Department of Psychology, Catholic University of the Sacred Heart, Milano, Italy [email protected] Abstract Neuropsychological studies have underlined the significant presence of distinct brain correlates deputed to analyze facial expression of emotion. It was observed that some cerebral circuits were considered as specific for emotional face comprehension as a func- tion of conscious vs. unconscious processing of emotional information. Moreover, the emotional content of faces (i.e. positive vs. negative; more or less arousing) may have an effect in activating specific cortical networks. Between the others, recent studies have explained the contribution of hemispheres in comprehending face, as a function of type of emotions (mainly related to the distinction positive vs. negative) and of specific tasks (comprehending vs. producing facial expressions). Specifically, ERPs (event-related potentials) analysis overview is proposed in order to comprehend how face may be processed by an observer and how he can make face a meaningful construct even in absence of awareness. Finally, brain oscillations is considered in order to explain the synchronization of neural populations in response to emotional faces when a conscious vs. unconscious processing is activated. Keywords: Face; Consciousness; Brain; Brain oscillations; ERPs 1. Face and consciousness Rapid detection of emotional information is highly adaptive, since it pro- vides critical elements on environment and on the attitude of the other people (Darwin, 1872; Eimer & Holmes, 2007). Indeed faces are a critically Neuropsychological Trends – 11/2012 http://www.ledonline.it/neuropsychologicaltrends/ 19 Michela Balconi important source of social information and it appears we are biologically prepared to perceive and respond to faces in an unique manner (Balconi, 2008; Ekman, 1993). -
Running Head: a REVIEW and EVALUATION of an OPEN 1
Running Head: A REVIEW AND EVALUATION OF AN OPEN 1 A Review and Evaluation of an Open-Source Mood Assessment, the Brief Mood Introspection Scale Rachael M. Cavallaro University of New Hampshire Victoria Bryan University of New Hampshire John D. Mayer University of New Hampshire A REVIEW AND EVALUATION OF AN OPEN 2 Abstract The Brief Mood Introspection Scale (BMIS) is an open-source, 16-item assessment of current mood regularly used in psychological research. The scale has two sets of scales: one pair of scales assesses mood using Pleasant-Unpleasant and Arousal-Calm dimensions; the other (less used alternative) assesses mood using Positive and Negative Affect. However, since its publication in 1988, there have been no systematic reports of its usage pattern, norms or of evidence for its validity. The present meta-analysis aims to (1) identify the nature of the studies that employed the BMIS (i.e. research areas and design), (2) establish the norms for the BMIS the scale means, standard deviations, and reliabilities, and (3) evaluate for the BMIS’s validity. One hundred and fifty studies that utilized the BMIS over a five-year timespan (2016-2011) were identified, including 27 studies that reported information pertinent to the scale’s norms. Our findings indicated that BMIS was primarily used in experimental research, and that its norms were similar to those from the original report. We make recommendations for use of Likert response scales and scoring conventions. A more qualitative review suggested that the Pleasant- Unpleasant mood scale had considerable evidence for its validity from its relation to criteria. -
Criteria for Unconscious Cognition: Three Types of Dissociation
Perception & Psychophysics 2006, 68 (3), 489-504 Criteria for unconscious cognition: Three types of dissociation THOMAS SCHMIDT Universität Gießen, Gießen, Germany and DIRK VORBERG Technische Universität Braunschweig, Braunschweig, Germany To demonstrate unconscious cognition, researchers commonly compare a direct measure (D) of awareness for a critical stimulus with an indirect measure (I) showing that the stimulus was cognitively processed at all. We discuss and empirically demonstrate three types of dissociation with distinct ap- pearances in D–I plots, in which direct and indirect effects are plotted against each other in a shared effect size metric. Simple dissociations between D and I occur when I has some nonzero value and D is at chance level; the traditional requirement of zero awareness is necessary for this criterion only. Sensitivity dissociations only require that I be larger than D; double dissociations occur when some experimental manipulation has opposite effects on I and D. We show that double dissociations require much weaker measurement assumptions than do other criteria. Several alternative approaches can be considered special cases of our framework. [what do you see?/ level and that the indirect measure has some nonzero nothing, absolutely nothing] value. This so-called zero-awareness criterion may seem —Paul Auster, “Hide and Seek” (in Auster, 1997) like a straightforward research strategy, but historically it The traditional way of establishing unconscious percep- has encountered severe difficulties. From the beginning, tion has been to demonstrate that awareness of some criti- the field was plagued with methodological criticism con- cal stimulus is absent, even though the same stimulus af- cerning how to make sure that a stimulus was completely fects behavior (Reingold & Merikle, 1988). -
Prosopagnosia with Topographical Difficulties 1
CORE Metadata, citation and similar papers at core.ac.uk Provided by Bournemouth University Research Online Prosopagnosia with topographical difficulties 1 Running Head: PROSOPAGNOSIA WITH TOPOGRAPHICAL DIFFICULTIES Developmental Prosopagnosia with Concurrent Topographical Difficulties: A Case Report and Virtual Reality Training Programme Sarah Bate, Amanda Adams, Rachel Bennetts & Hannah Line Department of Psychology, Bournemouth University, UK Word count: 6858 Address for correspondence: Dr Sarah Bate Department of Psychology Faculty of Science and Technology Poole House Bournemouth University Fern Barrow Poole BH12 5BB United Kingdom Telephone: +44 (0) 1202 961918 Fax: +44 (0) 1202 965314 Email: [email protected] Prosopagnosia with topographical difficulties 2 Abstract Several neuropsychological case studies report brain-damaged individuals with concurrent impairments in face recognition (i.e. prosopagnosia) and topographical orientation. Recently, individuals with a developmental form of topographical disorientation have also been described, and several case reports of individuals with developmental prosopagnosia provide anecdotal evidence of concurrent navigational difficulties. Clearly, the co-occurrence of these difficulties can exacerbate the negative psychosocial consequences associated with each condition. This paper presents the first detailed case report of an individual (FN) with developmental prosopagnosia alongside difficulties in topographical orientation. FN’s performance on an extensive navigational battery indicated