* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download 中樞神經系統
Apical dendrite wikipedia , lookup
Metastability in the brain wikipedia , lookup
Binding problem wikipedia , lookup
Embodied cognitive science wikipedia , lookup
Affective neuroscience wikipedia , lookup
Optogenetics wikipedia , lookup
Development of the nervous system wikipedia , lookup
Emotional lateralization wikipedia , lookup
Stimulus (physiology) wikipedia , lookup
Neuroesthetics wikipedia , lookup
Neuroanatomy wikipedia , lookup
Clinical neurochemistry wikipedia , lookup
Central pattern generator wikipedia , lookup
Neuroscience in space wikipedia , lookup
Sensory substitution wikipedia , lookup
Neuropsychopharmacology wikipedia , lookup
Executive functions wikipedia , lookup
Cortical cooling wikipedia , lookup
Eyeblink conditioning wikipedia , lookup
Orbitofrontal cortex wikipedia , lookup
Aging brain wikipedia , lookup
Environmental enrichment wikipedia , lookup
Neuroplasticity wikipedia , lookup
Evoked potential wikipedia , lookup
Time perception wikipedia , lookup
Human brain wikipedia , lookup
Neuroeconomics wikipedia , lookup
Synaptic gating wikipedia , lookup
Embodied language processing wikipedia , lookup
Anatomy of the cerebellum wikipedia , lookup
Neural correlates of consciousness wikipedia , lookup
Prefrontal cortex wikipedia , lookup
Cognitive neuroscience of music wikipedia , lookup
Premovement neuronal activity wikipedia , lookup
Inferior temporal gyrus wikipedia , lookup
Feature detection (nervous system) wikipedia , lookup
Functional Organization of The Central Nervous System 丁慶華 [email protected] 腦機介面概論 Week-03 1 CNS Organization 腦機介面概論 Week-03 2 CNS Role 腦機介面概論 Week-03 3 腦機介面概論 Week-03 4 The Brain Brief facts Weighs about 1600g in ♂ and about 1400g in ♀ Has about 1012 neurons, each of which may receive as many as 200,000 synapses – how about integration! Although these numbers connote a high level of complexity, the CNS is actually quite orderly. 腦機介面概論 Week-03 5 腦機介面概論 Week-03 6 Gray and White Matters Microscopically, the CNS contains 2 neural elements: Neuron cell bodies (clusters are known as nuclei) Nerve fibers (axons) in bundles called tracts. Viewed macroscopically, CNS tissues can be distinguished by color: Gray matter consists of somas, dendrites, and unmyelinated axons. White matter consists primarily of myelinated axons. 腦機介面概論 Week-03 7 Brain Regions Cerebrum Responsible for the initiation and coordination of all voluntary activity in the body. Governs the functioning of lower parts of the nervous system. Cortex is the seat of all intelligent behaviour. Diencephalon Functions as signal relay. Brainstem Sensory, motor, and reflex functions Cerebellum Acts with the cerebral cortex to produce killed movements by coordinating the activities of groups of muscles. Helps control posture by making movements smooth. Maintains equilibrium by controlling skeletal muscles. 腦機介面概論 Week-03 8 腦機介面概論 Week-03 9 Cerebrum Allows for sensation, voluntary movement, selfawareness, communication, recognition, and more. Gray matter! 40% of brain mass, but only 2-4 mm thick. Each cerebral hemisphere is concerned with the sensory and motor functions of the opposite side of the body. 腦機介面概論 Week-03 10 Cerebral Layers The cerebral cortex has 6 layers. Each layer composes of millions of axon terminals with millions of dendrites and cell bodies other neurons. 腦機介面概論 Week-03 11 Cerebrum 腦機介面概論 Week-03 12 腦機介面概論 Week-03 13 Functional Areas of the Cortex 3 types of functional areas: Motor Control voluntary motor functions Sensory Allow for conscious recognition of stimuli Association Integration 腦機介面概論 Week-03 14 Functions of the Cerebral Cortex No part of the brain functions alone. It requires coordination of many parts of the CNS to function normally. 腦機介面概論 Week-03 15 Cortical Motor Areas 1. 2. 3. 4. Primary Motor Cortex Premotor Cortex Broca’s Area Frontal Eye Field 腦機介面概論 Week-03 16 Primary motor cortex Premotor cortex Frontal Eye Field Broca’s Area 腦機介面概論 Week-03 17 Primary (Somatic) Motor Cortex Located in the precentral gyrus of each cerebral hemisphere. Contains large neurons (pyramidal cells) which project to SC neurons which eventually synapse on skeletal muscles Allowing for voluntary motor control. These pathways are known as the corticospinal tracts or pyramidal tracts. 腦機介面概論 Week-03 18 腦機介面概論 Week-03 19 Primary (Somatic) Motor Cortex Somatotopy The entire body is represented spatially in the primary motor cortex, i.e., in one region we have neurons controlling hand movements and in another region leg movements, etc. Neurons controlling movement of different body regions do not intermingle. Look at the motor homunculus. 腦機介面概論 Week-03 20 腦機介面概論 Week-03 21 Sensory Functions of the Cortex Somatic senses include sensations of touch, pressure, temperature, body position, and perceptions that do not require complex sensory organs. Special senses include vision, hearing, and other perceptions that require complex sensory organs. 腦機介面概論 Week-03 22 Cerebral Sensory Areas Found in the parietal, occipital, and temporal lobes. Primary somatosensory cortex Somatosensory association cortex Visual areas Auditory areas Olfactory cortex Gustatory cortex Vestibular cortex 腦機介面概論 Week-03 23 Functions of the Cerebral Cortex 腦機介面概論 Week-03 24 Somatosensotry Cortex Neurons in this cortical area receive info from sensory neurons in the skin and from proprioceptors which monitor joint position. Contralateral input. 腦機介面概論 Week-03 25 LEFT RIGHT 腦機介面概論 Week-03 26 LEFT RIGHT 腦機介面概論 Week-03 27 腦機介面概論 Week-03 28 Somatosensory Association Cortex Synthesizes multiple sensory inputs to create a complete comprehension of the object being felt. How would damage to this area differ from damage to the primary somatosensory cortex? 腦機介面概論 Week-03 29 腦機介面概論 Week-03 30 Visual Cortex Largest of the sensory cortices. What does this suggest? Contralateral input. 腦機介面概論 Week-03 31 腦機介面概論 Week-03 32 Visual Association Area Surrounds the primary visual cortex. Basically vision is the sensation of bars of light on our retinal cells. The primary visual cortex tells which cells are being stimulated and how. The association area lets us “see” what we’re looking at. 腦機介面概論 Week-03 33 Auditory Cortex Found in the superior margin of the temporal lobe, next to the lateral sulcus. Sound waves excite cochlear receptors in the inner ear which send info to the auditory cortex. There is also an auditory association area which lets us interpret and remember sounds. 腦機介面概論 Week-03 34 Olfactory Cortex Receptors in the olfactory epithelium extend through the cribriform plate and are excited by the binding of oderants. They then send their info to the olfactory cortex. Very much involved in memory and emotion. 腦機介面概論 Week-03 35 Olfactory Pathway Olfactory Sensor 腦機介面概論 Week-03 36 Gustatory and Vestibular Cortices Gustatory cortex is involved in taste and is in the parietal lobe just deep to the temporal lobe. Vestibular cortex is involved in balance and equilibrium and is in the posterior insula 腦機介面概論 Week-03 37 腦機介面概論 Week-03 38 Association Areas Allows for analysis of sensory input. Multiple inputs and outputs. Why? Prefrontal cortex Language areas General interpretation area Visceral association area 腦機介面概論 Week-03 39 Prefrontal Cortex Involved in analysis, cognition, thinking, personality, conscience, & much more. Look at its evolution 腦機介面概論 Week-03 40 Language Areas Large area for language understanding and production surrounding the lateral sulcus in the left (language-dominant) hemisphere Includes: Wernicke’s area understanding oral/written words Broca’s area speech production Lateral prefrontal cortex language comprehension and complex word analysis Lateral and ventral temporal cortex integrates visual and auditory stimulate 腦機介面概論 Week-03 41 Cerebellum 2nd largest region of the brain. 10% of the brain by volume, but it contains 50% of its neurons Has 2 primary functions: 1. Adjusting the postural muscles of the body Coordinates rapid, automatic adjustments, that maintain balance and equilibrium 2. Programming and fine-tuning movements controlled at the subconscious and conscious levels Refines learned movement patterns by regulating activity of both the pyramidal and extrapyarmidal motor pathways of the cerebral cortex Compares motor commands with sensory info from muscles and joints and performs any adjustments to make the movement smooth 腦機介面概論 Week-03 42 腦機介面概論 Week-03 43 腦機介面概論 Week-03 44 Cerebellum The cerebellum can be permanently damaged by trauma or stroke or temporarily affected by drugs such as alcohol. These alterations can produce ataxia – a disturbance in balance. 腦機介面概論 Week-03 45 Diencephalon Forms the central core of the forebrain 3 paired structures: 1. Thalamus 2. Hypothalamus 3. Epithalamus 腦機介面概論 Week-03 46 腦機介面概論 Week-03 47 Thalamus 80% of the diencephalon Sensory relay station where sensory signals can be edited, sorted, and routed. Also has profound input on motor (via the basal ganglia and cerebellum) and cognitive function. Not all functions have been elucidated. 腦機介面概論 Week-03 48 Hypothalamus Functions: Autonomic regulatory center Influences HR, BP, resp. rate, GI motility, pupillary diameter. Can you hold your breath until you die? Emotional response Involved in fear, loathing, pleasure Drive center: sex, hunger Regulation of body temperature Regulation of food intake Contains a satiety center Regulation of water balance and thirst Regulation of sleep/wake cycles Hormonal control Releases hormones that influence hormonal secretion from the anterior pituitary gland. Releases oxytocin and vasopressin 腦機介面概論 Week-03 49 Epithalamus Above the thalamus Contains the pineal gland which releases melatonin (involved in sleep/wake cycle and mood). Contains a structure called the habenula – involved in food and water intake 腦機介面概論 Week-03 50 Somatic Sensory Pathways in the Central Nervous System Sensory pathways to the cerebral cortex are crossed pathways. Impulses are conducted to its sensory areas by way of relays of neurons referred to as sensory pathways. Each side of the brain registers sensations from the opposite side of the body. General sensations of the right side of the body are predominantly experienced by the left somatic sensory area. General sensations of the left side of the body are predominantly experienced by the right somatic sensory area. 腦機介面概論 Week-03 51 left right 腦機介面概論 Week-03 52 腦機介面概論 Week-03 53 Somatic Motor Pathways in the Central Nervous System Impulses are conducted from its motor areas to skeletal muscles by relays of neurons referred to as somatic motor pathways. 腦機介面概論 Week-03 54 腦機介面概論 Week-03 55