DOCSLIB.ORG

Neuroscience: the Science of the Brain

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Neuroscience: the Science of the Brain NEUROSCIENCE SCIENCE OF THE BRAIN AN INTRODUCTION FOR YOUNG STUDENTS British Neuroscience Association European Dana Alliance for the Brain Neuroscience: the Science of the Brain 1 The Nervous System P2 2 Neurons and the Action Potential P4 3 Chemical Messengers P7 4 Drugs and the Brain P9 5 Touch and Pain P11 6 Vision P14 Inside our heads, weighing about 1.5 kg, is an astonishing living organ consisting of 7 Movement P19 billions of tiny cells. It enables us to sense the world around us, to think and to talk. The human brain is the most complex organ of the body, and arguably the most 8 The Developing P22 complex thing on earth. This booklet is an introduction for young students. Nervous System In this booklet, we describe what we know about how the brain works and how much 9 Dyslexia P25 there still is to learn. Its study involves scientists and medical doctors from many disciplines, ranging from molecular biology through to experimental psychology, as well as the disciplines of anatomy, physiology and pharmacology. Their shared 10 Plasticity P27 interest has led to a new discipline called neuroscience - the science of the brain. 11 Learning and Memory P30 The brain described in our booklet can do a lot but not everything. It has nerve cells - its building blocks - and these are connected together in networks. These 12 Stress P35 networks are in a constant state of electrical and chemical activity. The brain we describe can see and feel. It can sense pain and its chemical tricks help control the uncomfortable effects of pain. It has several areas devoted to co-ordinating our 13 The Immune System P37 movements to carry out sophisticated actions. A brain that can do these and many other things doesn’t come fully formed: it develops gradually and we describe some 14 Sleep P39 of the key genes involved. When one or more of these genes goes wrong, various conditions develop, such as dyslexia. There are similarities between how the brain 15 Brain Imaging P41 develops and the mechanisms responsible for altering the connections between nerve cells later on - a process called neuronal plasticity. Plasticity is thought to underlie learning and remembering. Our booklet’s brain can remember telephone 16 Artificial Brains and P44 numbers and what you did last Christmas. Regrettably, particularly for a brain Neural Networks that remembers family holidays, it doesn’t eat or drink. So it’s all a bit limited. But it does get stressed, as we all do, and we touch on some of the hormonal and 17 When things go wrong P47 molecular mechanisms that can lead to extreme anxiety - such as many of us feel in the run-up to examinations. That’s a time when sleep is important, so we let it have 18 Neuroethics P52 the rest it needs. Sadly, it can also become diseased and injured. New techniques, such as special electrodes that can touch the surface of cells, 19 Training and Careers P54 optical imaging, human brain scanning machines, and silicon chips containing artificial brain circuits are all changing the face of modern neuroscience. 20 Further Reading and P56 We introduce these to you and touch on some of the ethical issues and social Acknowledgements implications emerging from brain research. The Neuroscience Community at the University of Edinburgh The European Dana Alliance for the Brain To order additional copies: Online ordering: www.bna.org.uk/publications Postal: The British Neuroscience Association, c/o: The Sherrington Buildings, Ashton Street, Liverpool L68 3GE Telephone: 44 (0) 151 794 4943/5449 Fax: 44 (0) 794 5516/5517 This booklet was prepared and edited on behalf of the British Neuroscience Association and the European Dana Alliance for the Brain by Richard Morris (University of Edinburgh) and Marianne Fillenz (University of Oxford). The graphic design was by Jane Grainger (Grainger Dunsmore Design Studio, Edinburgh). We are grateful for contributions from our colleagues in the Division of Neuroscience, particularly Victoria Gill, and others in the neuroscience community in Edinburgh. We also thank members of the University Department of Physiology in Oxford, particularly Colin Blakemore, and helpful colleagues in other institutions. Their names are listed on the back page. The British Neuroscience Association (BNA) is the professional body in the United Kingdom that represents neuroscientists and is dedicated towards a better understanding of the nervous system in health and disease. Its members range from established scientists holding positions in Universities and Research Institutes through to postgraduate students. The BNA’s annual meetings, generally held in the spring, provide a forum for the presentation of the latest research. Numerous local groups around the country hold frequent seminars and these groups often organise activities with the general public such as school visits and exhibitions in local museums. See http://www.bna.org.uk/ for further information. The goal of The European Dana Alliance for the Brain (EDAB) is to inform the general public and decision makers about the importance of brain research. EDAB aims to advance knowledge about the personal and public benefits of neuroscience and to disseminate information on the brain, in health and disease, in an accessible and relevant way. Neurological and psychiatric disorders affect millions of people of all ages and make a severe impact on the national economy. To help overcome these problems, in 1997, 70 leading European neuroscientists signed a Declaration of Achievable Research Goals and made a commitment to increase awareness of brain disorders and of the importance of neuroscience. Since then, many others have been elected, representing 24 European countries. EDAB has more than 125 members. See http://www.edab.net/ for further information. Published by The British Neuroscience Association The Sherrington Buildings Ashton Street Liverpool L69 3GE UK Copyright British Neuroscience Association 2003 This book is in copyright. Subject to statutory exception and the provisions of relevant collective licensing agreements, no reproduction of any part may take place without the written permission of The British Neuroscience Association First Published 2003 ISBN: 0-9545204--0-8 The images on this page are of neurons of the cerebral cortex visualised using special dyes inserted into the adjacent cells. The Nervous System Neurons have an architecture that consists of a cell body and two sets of additional compartments called ‘processes’. One of these sets are called axons; their job is to transmit information from the neuron on to others to which it is connected. The other set are called dendrites - their job is to receive the information being transmitted by the axons of other neurons. Both of these processes participate in the specialised contacts called synapses (see the Chapters 2&3 on Action Potential and Chemical Messengers). Neurons are organised into complex chains and networks that are the pathways through which information in the nervous system is transmitted. The brain and spinal cord are connected to sensory receptors and muscles through long axons that make up the peripheral nerves. The spinal cord has two functions: it is the seat of simple reflexes such as the knee jerk and the rapid withdrawal of a limb from a hot object or a pinprick, as well as more complex reflexes, and it forms a highway between the body and the brain for information Human central nervous system showing the brain and travelling in both directions. spinal cord These basic structures of the nervous system are the same Basic structure in all vertebrates. What distinguishes the human brain is its large size in relation to body size. This is due to an enormous The nervous system consists of the brain, spinal cord and increase in the number of interneurons over the course of peripheral nerves. It is made up of nerve cells, called evolution, providing humans with an immeasurably wide choice neurons, and supporting cells called glial cells. of reactions to the environment. There are three main kinds of neurons. Sensory neurons are coupled to receptors specialised to detect and Anatomy of the Brain respond to different attributes of the internal and external environment. The receptors sensitive to changes in light, The brain consists of the brain stem and the cerebral sound, mechanical and chemical stimuli subserve the sensory hemispheres. modalities of vision, hearing, touch, smell and taste. When mechanical, thermal or chemical stimuli to the skin The brain stem is divided into hind-brain, mid-brain and a exceed a certain intensity, they can cause tissue damage ‘between-brain’ called the diencephalon. The hind-brain is an and a special set of receptors called nociceptors are extension of the spinal cord. It contains networks of activated; these give rise both to protective reflexes and to neurons that constitute centres for the control of vital the sensation of pain (see chapter 5 on Touch and Pain). functions such as breathing and blood pressure. Within Motor neurons, which control the activity of muscles, are these are networks of neurons whose activity controls these responsible for all forms of behaviour including speech. functions. Arising from the roof of the hind-brain is the Interposed between sensory and motor neurons are cerebellum, which plays an absolutely central role in the Interneurones. These are by far the most numerous (in the control and timing of movements (See Chapters on human brain). Interneurons mediate simple reflexes as well Movement and Dyslexia). as being responsible for the highest functions of the brain. Glial cells, long thought to have a purely The midbrain contains groups of neurons, each of which seem supporting function to the neurons, are now known to make to use predominantly a particular type of chemical an important contribution to the development of the messenger, but all of which project up to cerebral nervous system and to its function in the adult brain.
Load more

Recommended publications
  • M.S. and Ph.D. Sequences in Neuroscience and Physiology
    Neuroscience and Physiology are distinct but overlapping disciplines. • M.S. and Ph.D. students take three core Whereas Neuroscience investigates courses in neuroscience, physiology and neural substrates of behavior, Physiology biostatistics, and elective courses in more studies multiple functions. However, specific areas of these fields, as well as in M.S. and Ph.D. both seek to understand at an integrated related fields, such as cellular and level across molecules, cells, tissues, molecular biology, behavior, chemistry Sequences in whole organism, and environment. and psychology The workings of our brain and body • The curriculum provides a canonical Neuroscience and define us. When problems occur, results conceptual foundation for students can be devastating. According to the pursuing master’s and doctoral research in Physiology National Institutes of Health, neurological neuroscience and physiology and heart disease are two of the largest world health concerns and more than 50 • Our sequences provide a “cohort” million people in this country endure experience for new students, by offering a School of Biological some problem with the nervous system. cohesive curriculum for those students interested in pursuing graduate study in Sciences Our graduate sequences in Neuroscience neuroscience and physiology. and Physiology provide an exciting and Illinois State University challenging academic environment by combining research excellence with a strong commitment to education. We offer a comprehensive curriculum to graduate students interested in Neuroscience and Physiology. Both M.S. For more information, contact Dr. Paul A. and Ph.D. programs are also tightly Garris ([email protected]) or visit integrated into laboratory research. bio.illinoisstate.edu/graduate and goo.gl/9YTs4X Byron Heidenreich, Ph.D.
    [Show full text]
  • The Creation of Neuroscience
    The Creation of Neuroscience The Society for Neuroscience and the Quest for Disciplinary Unity 1969-1995 Introduction rom the molecular biology of a single neuron to the breathtakingly complex circuitry of the entire human nervous system, our understanding of the brain and how it works has undergone radical F changes over the past century. These advances have brought us tantalizingly closer to genu- inely mechanistic and scientifically rigorous explanations of how the brain’s roughly 100 billion neurons, interacting through trillions of synaptic connections, function both as single units and as larger ensem- bles. The professional field of neuroscience, in keeping pace with these important scientific develop- ments, has dramatically reshaped the organization of biological sciences across the globe over the last 50 years. Much like physics during its dominant era in the 1950s and 1960s, neuroscience has become the leading scientific discipline with regard to funding, numbers of scientists, and numbers of trainees. Furthermore, neuroscience as fact, explanation, and myth has just as dramatically redrawn our cultural landscape and redefined how Western popular culture understands who we are as individuals. In the 1950s, especially in the United States, Freud and his successors stood at the center of all cultural expla- nations for psychological suffering. In the new millennium, we perceive such suffering as erupting no longer from a repressed unconscious but, instead, from a pathophysiology rooted in and caused by brain abnormalities and dysfunctions. Indeed, the normal as well as the pathological have become thoroughly neurobiological in the last several decades. In the process, entirely new vistas have opened up in fields ranging from neuroeconomics and neurophilosophy to consumer products, as exemplified by an entire line of soft drinks advertised as offering “neuro” benefits.
    [Show full text]
  • The Baseline Structure of the Enteric Nervous System and Its Role in Parkinson’S Disease
    life Review The Baseline Structure of the Enteric Nervous System and Its Role in Parkinson’s Disease Gianfranco Natale 1,2,* , Larisa Ryskalin 1 , Gabriele Morucci 1 , Gloria Lazzeri 1, Alessandro Frati 3,4 and Francesco Fornai 1,4 1 Department of Translational Research and New Technologies in Medicine and Surgery, University of Pisa, 56126 Pisa, Italy; [email protected] (L.R.); [email protected] (G.M.); [email protected] (G.L.); [email protected] (F.F.) 2 Museum of Human Anatomy “Filippo Civinini”, University of Pisa, 56126 Pisa, Italy 3 Neurosurgery Division, Human Neurosciences Department, Sapienza University of Rome, 00135 Rome, Italy; [email protected] 4 Istituto di Ricovero e Cura a Carattere Scientifico (I.R.C.C.S.) Neuromed, 86077 Pozzilli, Italy * Correspondence: [email protected] Abstract: The gastrointestinal (GI) tract is provided with a peculiar nervous network, known as the enteric nervous system (ENS), which is dedicated to the fine control of digestive functions. This forms a complex network, which includes several types of neurons, as well as glial cells. Despite extensive studies, a comprehensive classification of these neurons is still lacking. The complexity of ENS is magnified by a multiple control of the central nervous system, and bidirectional communication between various central nervous areas and the gut occurs. This lends substance to the complexity of the microbiota–gut–brain axis, which represents the network governing homeostasis through nervous, endocrine, immune, and metabolic pathways. The present manuscript is dedicated to Citation: Natale, G.; Ryskalin, L.; identifying various neuronal cytotypes belonging to ENS in baseline conditions.
    [Show full text]
  • Distance Learning Program Anatomy of the Human Brain/Sheep Brain Dissection
    Distance Learning Program Anatomy of the Human Brain/Sheep Brain Dissection This guide is for middle and high school students participating in AIMS Anatomy of the Human Brain and Sheep Brain Dissections. Programs will be presented by an AIMS Anatomy Specialist. In this activity students will become more familiar with the anatomical structures of the human brain by observing, studying, and examining human specimens. The primary focus is on the anatomy, function, and pathology. Those students participating in Sheep Brain Dissections will have the opportunity to dissect and compare anatomical structures. At the end of this document, you will find anatomical diagrams, vocabulary review, and pre/post tests for your students. The following topics will be covered: 1. The neurons and supporting cells of the nervous system 2. Organization of the nervous system (the central and peripheral nervous systems) 4. Protective coverings of the brain 5. Brain Anatomy, including cerebral hemispheres, cerebellum and brain stem 6. Spinal Cord Anatomy 7. Cranial and spinal nerves Objectives: The student will be able to: 1. Define the selected terms associated with the human brain and spinal cord; 2. Identify the protective structures of the brain; 3. Identify the four lobes of the brain; 4. Explain the correlation between brain surface area, structure and brain function. 5. Discuss common neurological disorders and treatments. 6. Describe the effects of drug and alcohol on the brain. 7. Correctly label a diagram of the human brain National Science Education
    [Show full text]
  • Journal of Neuroimmunology
    JOURNAL OF NEUROIMMUNOLOGY AUTHOR INFORMATION PACK TABLE OF CONTENTS XXX . • Description p.1 • Audience p.1 • Impact Factor p.1 • Abstracting and Indexing p.1 • Editorial Board p.2 • Guide for Authors p.3 ISSN: 0165-5728 DESCRIPTION . The Journal of Neuroimmunology affords a forum for the publication of works applying immunologic methodology to the furtherance of the neurological sciences. Studies on all branches of the neurosciences, particularly fundamental and applied neurobiology, neurology, neuropathology, neurochemistry, neurovirology, neuroendocrinology, neuromuscular research, neuropharmacology and psychology, which involve either immunologic methodology (e.g. immunocytochemistry) or fundamental immunology (e.g. antibody and lymphocyte assays), are considered for publication. Works pertaining to multiple sclerosis, AIDS, amyotrophic lateral sclerosis, Guillain Barré Syndrome, myasthenia gravis, and brain tumors form a major focus. The scope of the Journal is broad, covering both research and clinical problems of neuroscientific interest. A major aim of the Journal is to encourage the development of immunologic approaches to analyse in further depth the interactions and specific properties of nervous tissue elements during development and disease. AUDIENCE . Researchers in neurology, immunology, neuroscience, neuropathology, and experimental neurology IMPACT FACTOR . 2020: 3.478 © Clarivate Analytics Journal Citation Reports 2021 ABSTRACTING AND INDEXING . BIOSIS Citation Index Chemical Abstracts Current Contents - Life Sciences Embase PubMed/Medline Pascal Francis Reference Update Scopus AUTHOR INFORMATION PACK 23 Sep 2021 www.elsevier.com/locate/jneuroim 1 EDITORIAL BOARD . Editors-in-Chief Robyn Klein, Washington University in St Louis School of Medicine, Campus Box 8301660 S. Euclid Ave., MO 63110-1093, Saint Louis, Missouri, United States of America Laura Piccio, The University of Sydney Brain and Mind Centre, Camperdown, Australia Gregory Wu, Washington University in St Louis School of Medicine, Campus Box 8301660 S.
    [Show full text]
  • GLOSSARY Glossary Adapted with Permission from R
    GLOSSARY Glossary adapted with permission from R. Kalb (ed.) Multiple Sclerosis: The Questions You Have: The Answers You Need (5th ed.) New York: Demos Medical Publishing, 2012. This glossary is available in its entirety (as well as additional MS terms) online at nationalMSsociety.org/glossary. 106 | KNOWLEDGE IS POWER 106 | KNOWLEDGE IS POWER Americans with Disabilities Act Blood-brain barrier (ADA) A semi-permeable cell layer around The first comprehensive legislation blood vessels in the brain and spinal to prohibit discrimination on the cord that prevents large molecules, basis of disability. The ADA (passed immune cells, and potentially in 1990) guarantees full participation damaging substances and disease- in society to people with disabilities. causing organisms (e.g., viruses) from The four areas of social activity passing out of the blood stream into the covered by the ADA are employment; central nervous system (brain, spinal public services and accommodations; cord and optic nerves). A break in the transportation; and communications blood-brain barrier may underlie the Autoimmune(e.g., telephone disease services). Centraldisease process nervous in system MS. A process in which the body’s immune The part of the nervous system that system causes illness by mistakenly includes the brain, optic nerves, and attacking healthy cells, organs or tissues Cerebrospinalspinal cord. fluid (CSF) in the body that are essential for good health. In multiple sclerosis, the specific antigen — or target — that the immune A watery, colorless, clear fluid that cells are sensitized to attack remains bathes and protects the brain and unknown, which is why MS is considered spinal cord.
    [Show full text]
  • Piracy Or Productivity: Unlawful Practices in Anime Fansubbing
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Aaltodoc Publication Archive Aalto-yliopisto Teknillinen korkeakoulu Informaatio- ja luonnontieteiden tiedekunta Tietotekniikan tutkinto-/koulutusohjelma Teemu Mäntylä Piracy or productivity: unlawful practices in anime fansubbing Diplomityö Espoo 3. kesäkuuta 2010 Valvoja: Professori Tapio Takala Ohjaaja: - 2 Abstract Piracy or productivity: unlawful practices in anime fansubbing Over a short period of time, Japanese animation or anime has grown explosively in popularity worldwide. In the United States this growth has been based on copyright infringement, where fans have subtitled anime series and released them as fansubs. In the absence of official releases fansubs have created the current popularity of anime, which companies can now benefit from. From the beginning the companies have tolerated and even encouraged the fan activity, partly because the fans have followed their own rules, intended to stop the distribution of fansubs after official licensing. The work explores the history and current situation of fansubs, and seeks to explain how these practices adopted by fans have arisen, why both fans and companies accept them and act according to them, and whether the situation is sustainable. Keywords: Japanese animation, anime, fansub, copyright, piracy Tiivistelmä Piratismia vai tuottavuutta: laittomat toimintatavat animen fanikäännöksissä Japanilaisen animaation eli animen suosio maailmalla on lyhyessä ajassa kasvanut räjähdysmäisesti. Tämä kasvu on Yhdysvalloissa perustunut tekijänoikeuksien rikkomiseen, missä fanit ovat tekstittäneet animesarjoja itse ja julkaisseet ne fanikäännöksinä. Virallisten julkaisujen puutteessa fanikäännökset ovat luoneet animen nykyisen suosion, jota yhtiöt voivat nyt hyödyntää. Yhtiöt ovat alusta asti sietäneet ja jopa kannustaneet fanien toimia, osaksi koska fanit ovat noudattaneet omia sääntöjään, joiden on tarkoitus estää fanikäännösten levitys virallisen lisensoinnin jälkeen.
    [Show full text]
  • Cognitive Neuroscience 1
    Cognitive Neuroscience 1 Capstone Cognitive Neuroscience Concentrators will additionally take either a seminar course or an independent research course to serve as their capstone experience. Cognitive neuroscience is the study of higher cognitive functions in humans and their underlying neural bases. It is an integrative area of Additional requirements for Sc.B. study drawing primarily from cognitive science, psychology, neuroscience, In line with university expectations, the Sc.B. requirements include a and linguistics. There are two broad directions that can be taken in greater number of courses and especially science courses. The definition this concentration - one is behavioral/experimental and the other is of “science” is flexible. A good number of these courses will be outside of computational/modeling. In both, the goal is to understand the nature of CLPS, but several CLPS courses might fit into a coherent package as well. cognition from a neural perspective. The standard concentration for the In addition, the Sc.B. degree also requires a lab course to provide these Sc.B. degree requires courses on the foundations, systems level, and students with in-depth exposure to research methods in a particular area integrative aspects of cognitive neuroscience as well as laboratory and of the science of the mind. elective courses that fit within a particular theme or category such as general cognition, perception, language development or computational/ Honors Requirement modeling. Concentrators must also complete a senior seminar course or An acceptable upper level Research Methods, for example CLPS 1900 or an independent research course. Students may also participate in the an acceptable Laboratory course (see below) will serve as a requirement work of the Brown Institute for Brain Science, an interdisciplinary program for admission to the Honors program in Cognitive Neuroscience.
    [Show full text]
  • Progress and Challenges in Probing the Human Brain
    University of Pennsylvania ScholarlyCommons Neuroethics Publications Center for Neuroscience & Society 10-2015 Progress and Challenges in Probing the Human Brain Russell A. Poldrack Martha J. Farah University of Pennsylvania, [email protected] Follow this and additional works at: https://repository.upenn.edu/neuroethics_pubs Part of the Bioethics and Medical Ethics Commons, Neuroscience and Neurobiology Commons, and the Neurosciences Commons Recommended Citation Poldrack, R. A., & Farah, M. J. (2015). Progress and Challenges in Probing the Human Brain. Nature, 526 (7573), 371-379. http://dx.doi.org/10.1038/nature15692 This paper is posted at ScholarlyCommons. https://repository.upenn.edu/neuroethics_pubs/136 For more information, please contact [email protected]. Progress and Challenges in Probing the Human Brain Abstract Perhaps one of the greatest scientific challenges is to understand the human brain. Here we review current methods in human neuroscience, highlighting the ways that they have been used to study the neural bases of the human mind. We begin with a consideration of different levels of description relevant to human neuroscience, from molecules to large-scale networks, and then review the methods that probe these levels and the ability of these methods to test hypotheses about causal mechanisms. Functional MRI is considered in particular detail, as it has been responsible for much of the recent growth of human neuroscience research. We briefly er view its inferential strengths and weaknesses and present examples of new analytic approaches that allow inferences beyond simple localization of psychological processes. Finally, we review the prospects for real-world applications and new scientific challenges for human neuroscience.
    [Show full text]
  • Socity the Physiologicalsociety Newsletter
    p rVI i~ ne Pal Newsette Socity The PhysiologicalSociety Newsletter Contents 1 Physiological Sciences at Oxford - Clive Ellory 2 Neuroscience Research at Monash University - Uwe Proske 4 Committee News 4 Grants for IUPS Congress, Glasgow, 1993 4 COPUS - Committee on the Public Understanding of Science 4 Nominations for election to Membership 5 Computers in Teaching Initiative 5 Membership Subscriptions for 1993 5 Benevolent Fund 6 Wellcome Prize Lecturer 6 Retiring Committee Members 8 Letters & Reports 8 Society's Meetings 9 Animal Research - Speaking in Schools 9 Colin Blakemore - FRS 9 Happy 80th Birthday 10 Talking Point in the Biological Sciences - Simon Brophy,RDS 11 Chance & Design 11 Views 11 Muscular Dystrophy Group - SarahYates 14 The Multiple Sclerosis Society - John Walford 14 British Diabetic Association - Moira Murphy 15 Biomedical Research in the SERC - Alan Thomas 16 Cancer Research Campaign - TA Hince 18 The Wellcome Trust - JulianJack 22 Articles 22 Immunosuppression in Multiple Sclerosis - A N Davison 23 Hypoxia - a regulator of uterine contractions in labour? - Susan Wray 25 Pregnancy and the vascular endothelium - Lucilla Poston 28 Society Sponsored Events 28 IUPS Congress 93, list of themes 32 Notices 35 Tear-Out Forms 35 Affiliates 37 Grey Book Updates Administrations & Publications Office, P 0 Box 506, Oxford, OXI 3XE Tel: (0865) 798498 Fax: (0865) 798092 Produced by Kwabena Appenteng, Heather Dalitz and Clare Haigh The PhysiofogicafSociety 9ewsfetter Physiological Sciences at Oxford The two year interval since the last meeting of the Society in Lecturer in the department for some time, has been appointed to Oxford corresponds with the time I have been standing in for a university lectureship, in association with Balliol College.
    [Show full text]
  • 2021 Psychiatry CC-MOC Content Specifications
    CONTINUING CERTIFICATION/MOC EXAMINATION IN PSYCHIATRY The American Board of Psychiatry and Neurology, Inc. (ABPN) has issued new, two- dimensional content specifications for the psychiatry, neurology and child neurology continuing certification/MOC examinations. Questions for the 2021 psychiatry, neurology and child neurology continuing certification examinations will conform to these new content specifications. Within the two-dimensional format, one dimension is comprised of disorders and topics while the other is comprised of competencies and mechanisms that cut across the various disorders of the first dimension. By design, the two dimensions are interrelated and not independent of each other. All of the questions on the examination will fall into one of the disorders/topics and will be aligned with a competency/mechanism. For example, an item on substance use could focus on treatment, or it could focus on systems-based practice. The psychiatry, neurology and child neurology continuing certification content specifications can be accessed from the Specialty MOC Exams section of our website. Candidates should use the new detailed content specifications as a guide to prepare for a continuing certification examination. Scores for these examinations will be reported in a standardized format rather than the previous percent correct format. In addition to these three continuing certification examinations, ABPN examinations will gradually conform to the new two-dimensional content specification starting in 2018. The American Board of Psychiatry and Neurology, Inc. is a not-for-profit corporation dedicated to serving the public interest and the professions of psychiatry and neurology by promoting excellence in practice through certification and continuing certification processes. For more information, please contact us at [email protected] or visit our website at www.abpn.com .
    [Show full text]
  • Network AW 2004.Qxd 10/11/2004 13:40 Page 1
    Network AW 2004.qxd 10/11/2004 13:40 Page 1 network Autumn/Winter 2004 News, views and information from the Medical Research Council In this issue... MRC integral to UK clinical Funding update research drive News of competition for MRC funding in Speaking at the Academy of Medical Sciences (AMS) in 2004/05 and the application June, Lord Warner of Brockley announced the formation review process of the UK Clinical Research Collaboration (UKCRC) – a page 2 multi-partner initiative launched to give a major boost to clinical research in the UK.The Government has also set up a new MRC/Health Departments (HDs) Joint Health Francis Crick Delivery Group to increase the strategic coordination of 1916-2004 publicly funded medical research and support the UKCRC. A colleague pays tribute to one of the founding fathers UKCRC of molecular biology The UKCRC was a key recommendation of the Research page 4 for Patient Benefit Working Party set up in response to "We welcome Chancellor Gordon Brown's budget influential reports in Autumn 2003 by the AMS and the announcement of a cash injection for medical research Government's Bioscience Innovation and Growth Team. over the next four years, and will be working even more Basic Technology With a mission to coordinate and transform clinical closely with the Government and the Health Departments November showcase for research in the UK, the partnership will involve the MRC, to address national health priorities in the years ahead." progress by MRC scientists Government, the NHS, academia, medical charities, Colin Blakemore, MRC Chief Executive in the Research Councils UK industry and the public.
    [Show full text]