Neuroscience 1 - Trans 3 - Introduction to the Nervous System PDF

Summary

This document provides an introduction to the nervous system, covering its major divisions, including the central nervous system (CNS) and peripheral nervous system (PNS). It details the structure and function of the brain and spinal cord, and discusses the autonomic nervous system.

Full Transcript

1A
NEUROANATOMY
INTRODUCTION TO THE NERVOUS SYSTEM
DR. A. VIADO M.D.
A. DIVISIONS OF THE NERVOUS SYSTEM
OUTLINE
I. INTRODUCTION – Nervous System
A. Divisions of the Nervous System
1. Central Nervous System
2. Peripheral Nervous System
3. Autonomic Nervous System
B. Order of Neuron
II. MAJOR DIVISIONS OF THE CENTRAL NERVOUS SYSTEM
A. The Brain
1. Brain Development
2. Anatomical Classification
3. Cerebral Hemispheres
4. Gray/White Matter Interface
5. Cerebral Cortex
6. Functional Areas of the Cerebral Cortex
6.1. Sensory Areas
6.2. Motor Areas
6.3. Association Areas
7. Language
B. Spinal Cord
Main subdivisions:
1.Central Nervous System
I. THE NERVOUS SYSTEM -Brain
*NB: Brain and Spinal Cord are untransplantable -Spinal cord
Amygdala: center of emotions -Protected by the scalp (brain), spine (spinal cord)
2. Peripheral Nervous System
-Everything outside the brain and spinal cord.
 composed basically of specialized cells, whose function is
-Meaning starting the peripheral nerve down the muscles
to receive sensory stimuli and to transmit them to effector they innervate
organs, whether muscular or glandular -Cranial nerves- innervation of the head- 12
 functional unit: Neurons -Spinal nerves- 31 pairs
 Neurons: capable of receiving, conducting, and -Basically exposed
transmitting impulses to each other as well as to muscle 3. Autonomic Nervous System
cells and cells of glands
 Subdivided into: Central Nervous System(CNS) 1. CENTRAL NERVOUS SYSTEM
Peripheral Nervous System (PNS)  Comprised of the brain and spinal cord suspended in
 Sensory input(afferent)-impulse sent toward the brain cerebrospinal fluid (CSF)
*monitoring stimuli through receptors  Where correlation and integration of nervous information
 Integration- processing of info done between sensory and occur
motor stages  Meninges-system of membranes covering the brain and
 Motor output(efferent)-impulse sent away from the brain spinal cord
*response to stimuli
2. PERIPHERAL NERVOUS SYSTEM
 Cranial and spinal nerves
 Emanates from and physical extension of the CNS
 conduct information to and from the central nervous
system

3. AUTONOMIC NERVOUS SYSTEM
 innervation of involuntary structures (i.e. heart, smooth
muscle, and glands within the body)
 distributed throughout the CNS and PNS
 Divided into: Sympathetic Nervous System
Parasympathetic Nervous System
 Sympathetic: fight-or-flight response
 Parasympathetic: rest-or-digest

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NEUROANATOMY
INTRODUCTION TO THE NERVOUS SYSTEM
 *Enteric Nervous System- involved in regulating the  Further subdivides, each with fluid filled region: ventricle,
process of digestion aqueduct or canal

B. ORDER OF NEURON
ST
 1 Order Neuron- Upper Motor Neuron
 Brain
 Spinal Cord
nd
 2 Order Neuron- Lower Motor Neuron
 Cranial Nerves (12 pairs)
 Spinal Nerves (31 pairs)

II. MAJOR DIVISIONS OF THE CENTRAL NERVOUS SYSTEM
2. ANATOMICAL CLASSIFICATION

A. THE BRAIN
 Cerebral hemispheres
 composed of an inner core of white matter which is  Diencephalon
surrounded by an outer covering of grey matter  Thalamus
 subdivided into three major divisions:  Epithalamus
 Hindbrain- medulla oblongata, pons, cerebellum  Hypothalamus
 Midbrain  Brain Stem
 Forebrain- diencephalon, cerebrum  Midbrain
 Midbrain- collective term for the medulla  Pons
oblongata, pons, and midbrain  Medulla
 Cerebellum
1. BRAIN DEVELOPMENT  Spinal Cord
st
 21 day of development – neural tube is formed Interface in CNS
 Neural tube – initially composed of a single layer of -Outer cortex
columnar cells, known as neuroepithelial cells 6 layers- cerebral cortex
 Proliferation of these cells results in a thickened tubular 4mm layer
structure - cephalic region begins to form three -Inner cortex
enlargements: the prosencephalon (forebrain), Diencephalon and basal ganglia
mesencephalon (midbrain), and rhombencephalon *Dendrites and nerve cell body reside in the cortex
(hindbrain) -White matter- composed mainly of fiber tracts or axons
 Rostral part of the neural tube – develop into the brain
 Rest of neural tube – spinal cord

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 Surface Anatomy
 Gyrus- elevated ridges, located at the brain’s
entire surface
 Sulcus- shallow groove
 Fissure- deeper grooves

3. CEREBRAL HEMISPHERES

 Central Sulcus( of Rolando)- divides frontal and
parieltal lobes
 Longitudinal fissure- divides the brain into left and right
hemispheres
 Lobes- named under bones of the same name
*Insula- buried deep in lateral sulcus
 Occipital lobe (back of brain)- visual perception
 Parietal lobe (top of brain)- sensation
 Frontal lobe (front of brain)-
thinking/cognition/movement
 Temporal lobe (side of brain)- memory, language,
emotion

 Lateral sulcus- separates temporal lobe from
parietal lobe

 Parieto-occipital sulcus – divides occipital and
parietal lobes but cannot be seen from outside

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5. CEREBRAL CORTEX
 Executive functioning
 2-4 nm thick
 Transverse cerebral fissure – separates cerebral
 No fiber tracts (no axons)
hemispheres from cerebellum
 Brodmann areas – 52 structurally different areas with
assigned numbers
 Gray matter – neuron cell bpdies (neurons and neuroglial
cells), dendrites, capillaries

6. FUNCTIONAL AREAS OF CEREBRAL CORTEX
 Sensory areas: perception
 Motor areas: movement
 Association areas: integrate diverse information between
sensory and motor areas – enable purposeful action
 Homunculus – “little man”

4. GRAY/WHITE MATTER INTERFACE

 Gray matter - contains neuronal cell bodies, dendrites,
glial cells
 Six layers composed of neurons
 Neurons (pyramidal):
 Afferent (sensory)
 Efferent (motor)
Outer gray- cerebral cortex 6.1 Sensory Areas
Inner gray- diencephalon and basal ganglia
 Posterior to central sulcus
Inner gray and cortex- made up of nerve cell bodies,
 Primary somatosensory cortex: postcentral gyrus of
dendrites
parietal lobe
 Allows conscious awareness of sensation
 White Matter – contains myelinated axons and myelin-  Ability to localize the sensation
producing oligodendrocytes (extend until the peripheral
 Somatosensory association area: behind the primary
nerves)
somatosensory area
 Understanding of what is being felt
 Special sensory areas
 Primary visual cortex (17)
 handles information from contralateral
retina
 if damaged: functionally blind due to
lack of conscious awareness of sight
 map of visual space
 Visual association area (18 and 19)

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 Face recognition usually on the right Motor speech area
side  Broca’s Area (44) –specialized motor speech area
 Hearing: temporal lobe  Base of precentral gyrus just above lateral sulcus
 Primary auditory area(41) in only one hemisphere, usually left
 Auditory association area  Word articulation: movement necessary for
 Smell( olfactory sense) – located deep in speech
temporal lobe along medial surface  If damaged: expressive aphasia – can understand
but can’t speak

6.3 Association Areas
 Higher-order processing areas
 Tie together different kinds of sensory input
 Associate new input with memories
 Pre-frontal cortex- executive functioning/cognition

6.2 Motor Areas
 Anterior to central sulcus
 Primary motor area
 Precentral gyrus of frontal lobe (4)
 Conscious or voluntary movement of  Wernicke’s area- recognizing and understanding spoken
skeletal muscles words
 Contain large neurons called pyramidal  Junction of parietal and temporal lobes
cells (Betz cells)  One hemisphere, usually left
 Axons: form massive pyramidal or  Language reception
corticospinal tracrs  Fluent aphasia: words are understandable but
 These tracts descend through brain stem don’t make sense
and spinal cord
 Cross to contralateral side in the medulla
 Right side of the brain control left side of
the body, left side of the brain control right
side of the body
 Pyramidal System
 Tracts of the motor cortex that reach
their targets travelling to the spinal
cord thru the pyramids of the medulla
 Corticospinal tract (Spinal cord- spinal
nerves) – movement of muscles below
the head with control opposite side of
the brain
 Corticobulbar tract( Brainstem-nerves)
–movement of muscles, control
ipsilateral sides of the brain
Motor areas
 Premotor cortex (6)- complex movements associated with
highly processed sensory information 7. LANGUAGE
 Frontal eye fields (8)- voluntary movement of the eyes  Motor area: Broca’s area

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 Association area: Wernicke’s area Cervical enlargement
 Modification of language and speech - corresponds to cervical plexus which serves motor and
 Frontal lobe sensory to upper extremities
 Basal ganglia Lumbar enlargement
 Cerebellum -Corresponds to lumbar plexus which serves the lower
 Pons extremities
-end- called conus medullaris

 Foramen magnum to lumbar level L1/L2
B. THE SPINAL CORD  Runs through the vertebral canal of the vertebral column
Functions:
 cylindrical aggregate of nervous tissue 1. Sensory and motor innervation of entire body inferior to the head
 white matter surrounds a central cylinder of gray matter through the spinal nerve
 ventral horn- region in the spinal cord where neurons 2.Two-way conduction (Motor and Sensory) pathway between the
concerned with somatic motor function are located body and the brain (ascending and descending)
 lateral horn- axons of the preganglionic sympathetic 3. Major center for reflexes
neurons -Fetal 3rd month: ends at coccyx
 dorsal horn- location where central processes of unipolar -Birth: ends at L3
neurons of dorsal root ganglia enter the spinal cord via -Adult position at approximately L1- L2 during childhood
dorsal rootlets bringing sensory information to the CNS -End: conus medullaris
 31 pairs of spinal nerves - leave the spinal cord and pass This tapers into filum terminale of connective tissue, tethered to
through intervertebral foramina in the vertebral column coccyx
 spinal nerves - named according to the regions of the -Denticulate ligaments: lateral shelves of pia mater anchoring SC to
vertebral column with which they are associated dura
 8 cervical, 12 thoracic, 5 lumbar, 5 sacral, and 1 -Has also 3 coverings/ potential spaces: dura mater, arachnoid
coccygeal mater, pia mater Foramen magnum to lumbar level L1/L2
Spinal cord REFERENCES
-begins the spinal cord and ends at the level of L1-L2 1. Snell R.S Clinical Neuroanatomy, 7th Edition 2010.
-with 2 enlargements: 2. Dr Allan Viado’s lecture, 2018

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