nervous system
TRANSCRIPT
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NERVOUS SYSTEM
Abalos, Ailyn
Juatas, Kenneth
Llorin, Patricia
Mansibang, Rania
Sunio, Leslie
DMD 1-F
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Functions Of Nervous System
Communication and coordination
- Adapt and respond to changes from both inside and outside the body
sends messages to the rest of the bodycontrols all of the body functionsSite of reasoning
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The Organization of Nervous System
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Your nervous system has three components…
Brain- control center
Nerves-carry messages
Spinal cord-a thick bundle of nerves
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Brain
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Characteristics of the Brain
Weight: 1.3-kg (3-lb) mass of pinkish-gray jellylike tissue
Varies in gender:
Male: 1380 grams
Female: 1250 grams
With 100 billion nerve cell:
Neurons
Neuroglia (supporting-tissue) cells
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4 types of Memory:
Short-term memory – when we say things over and over again so you remember them.
Long term memory – we remember important events or things that we do over and over again.
Ancestral Memory – We remember things right when we were born. Example is when humans remember how to get milk from their mom or feeding bottles.
Eidetic Memory – a.k.a photographic memory
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The Cranial Cavity
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1. Meninges
Dura Mater - outermost membrane. The toughest and thickest.
Arachnoid Layer - middle membrane.
Pia Mater - innermost membrane. Consists of small blood vessels.
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2. Cerebrospinal Fluid – A clear liquid that bathes the entire brain and fills a series of four cavities called ventricles
3. Gray Matter – Composed of Nerve cell bodies
4. White Matter – Composed of myelinated nerve fibers
5. Nucleus – Mass of nerve cells in any part of the brain and spinal cord.
6. Ganglion – Mass of nerve cell outside of the brain and spinal cord.
7. Commisure – Band of fibers joining corresponding opposite parts of the brain and spinal cord.
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8. Brain:
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Left and Right Brain Functions
The right brain is associated with artistic ability like singing, painting, writing poetry, etc.
Left-brain dominated people may find their thought processes vague and difficult to follow, for they are quite opposite in the way they think. Left-brain dominated people tend to be more logical and analytical in their thinking and usually excel at mathematics and word skills.
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A. Embryological developmental of the Brain:
1. Forebrain - Prosencephalon
Telencephalon (Cerebrum)
Diencephalon (Thalamus and Hypothalamus)
2. Midbrain – Mesencephalon
Corpora Quadrigemina
Cerebral Peduncles
Iter (Cerebral aqueduct or aqueduct of Sylvius)
3. Hindbrain – Rhombencephalon
Metencephalon (cerebellum, pons varolii)
Myelencephalon (medulla oblongata)
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5 Main Parts of the Brain
1. Cerebrum (Telencephalon)
2. Pons and Cerebellum (Metencephalon)
3. Midbrain (Mesencephalon)
4. Thalamus and Hypothalamus (Diencephalon)
5. Medulla Oblongata (Myelencephalon)
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1. Forebrain
Cerebrum (Telencephalon)
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Cerebrum(the Latin word for brain)
a.k.a “cerebral cortex”
two large dome-shaped, almost symmetrical hemispheres
intelligence, memory and reason
Composed of gray matter thrown into infoldings: shallow; gyrus or gyri, deep; fissures
Innermost part is made of white matter
Great longitudinal fissure (or longitudinal cerebral fissure, or longitudinal fissure, or interhemispheric fissure) is the deep groove which separates the two hemispheres of the vertebrate brain.
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•The cerebral cortex is made of grey matter, and covers the cerebrum and cerebellum.
•The different lobes of the cerebral cortex subdivide processing responsibilities based on sensory input or motor function.
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Fissures the Cerebrum:1. Longitudinal Fissure – They are mirror twins
for motor and sensory activities of the body. *Connected in the midline by corpus
callosum – allows the two cerebral hemispheres to share learning and memory.
2. Lateral Fissure (Sylvian Fissure) – located between frontal and parietal lobes. For speech and hearing.
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Corpus Callosum
•is a thick band of nerve fibers that divides the cerebrum into left and right hemispheres.
•It connects the left and right sides of the brain allowing for communication between both hemispheres.
•transfers motor, sensory, and cognitive information between the brain hemispheres.
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3. Central Fissure (Rolandic Fissure) – Between the frontal and parietal lobes; for both motor and sensory functions.
4. Transverse Fissure – found between the cerebrum and cerebellum.
5. Palate Occipital Fissure – between occipital and parietal lobes.
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Lobes of the Cerebrum
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FRONTAL LOBE - involved with decision-making, problem solving, and planning
Lobes of the Cerebrum
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PARIETAL LOBE - receives and processes sensory information.
TEMPORAL LOBE (LEFT & RIGHT HEMISPHERE) - involved with emotional responses,
memory, and speech.
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OCCIPITAL LOBE involved with vision and color recognition.
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Functions of the Cerebral Cortex
Determining Intelligence
Determining Personality
Thinking
Perceiving
Producing and Understanding Language
Interpretation of Sensory Impulses
Motor Function
Planning and Organization
Touch Sensation
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Wernicke’s - language comprehension
Primary auditory cortex
auditory (sound) pitch and volume.
Broca's area - speech production, language processing, controls facial neurons
Motor cortex - movements and coordination.
Somatosensory cortex processes input from the various systems in the body which are sensitive to touch. (Sensations)
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•The cerebral cortex is made of grey matter, and covers the cerebrum and cerebellum.
•The different lobes of the cerebral cortex subdivide processing responsibilities based on sensory input or motor function.
Visual
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Amygdala
It is a limbic system:
•Emotions
•Motivations
•Survival.
•Fear
•Anger
•Pleasure.
•Hormonal Secretions
•Memory Hippocampus
•Memory forming, organizing, and storing.
•Connecting emotions and senses, such as smell and sound, to memories.
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2. HindbrainMetencephalon:
A. Cerebellum
B. Pons Varolli
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2. A Cerebellum “little brain”
two smaller hemispheres located at the back of the cerebrum
Oval in shape
Occupies the posterior cranial fossa
Seperated from the cerebrum by the tentorium cerbelli
The outer layer of the cerebellum consists of fine folds called folia.
the outer layer of cortical gray matter surrounds a deeper layer of white matter and nuclei (groups of nerve cells).
Three fiber bundles called cerebellar peduncles connect the cerebellum to the three parts of the brain stem.
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Anterior Lobe – posture
Posterior Lobe – coordination of movement
Flocculonodular Lobe – equilibrium
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Cerebellum
•The area of the hindbrain that controls motor movement coordination, balance, equilibrium and muscle tone.
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The Brainstem
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3 parts: midbrain, pons, and medulla oblongata
The brain stem is evolutionarily the most primitive part of the brain and is responsible for sustaining the basic functions of life, such as breathing and blood pressure.
A canal runs longitudinally through these structures carrying cerebrospinal fluid.
Distributed along its length is a network of cells, referred to as the reticular formation that governs the state of alertness.
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Mammillary body
-recognition memory.
Pituitary Gland
•"master gland,"
•makes hormones
Pons
Reticular Formation
Spinal cord
Fornix
Hypothalamus
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Functions:
• path for messages traveling between the upper brain and spinal cord
• the seat of basic and vital functions such as breathing, blood pressure, and heart rate, as well as reflexes like eye movement and vomiting.
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Reticular Formationis a netlike formation of nuclei known as the reticular formation.
The reticular formation controls respiration, cardiovascular function, digestion, levels of alertness, and patterns of sleep.
It also determines which parts of the constant flow of sensory information into the body are received by the cerebrum.
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Reticular Formation
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Functions:
Sleep
Walking
Sex
Eating
Elimination
Behavioral motivation
Breathing
Beating of the heart
Control of Consciousness – most important
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2.B Pons Varolli
slunted in front of the cerebellum between the midbrain and the medulla oblongata.
A bridge-like structure composed entirely of white matter
It joins the two haves of the cerebellum
Trigeminal Nerve (Cranial Nerve 5) emerges from pons
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FUNCTION:
The pons serves mainly as a relay station linking the cerebral cortex and the medulla oblongata.
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Pons
•connects the cerebral cortex with the medulla oblongata
•serves as a communications and coordination center between the two hemispheres of the brain
•As a part of the brainstem, it helps in the transferring of messages between various parts of the brain and the spinal cord.
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3. Midbrain
Mesencephalon
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also called mesencephalon,
region of the developing vertebrate brain containing cranial nerves that stimulate the muscles controlling eye movement,
between the forebrain and hindbrain
Concerned with motor coordination
Connects the cerebellum with the cerebrum
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Functions:
At the bottom of the midbrain are reflex and relay centers
relating to pain, temperature, and touch, as well as several regions associated with the, such as the red nucleus and the
substantia nigra - for reward, addiction, and movement
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A pair of nuclei called the superior colliculus
– Controls reflex
actions of the eye, such as blinking, opening and closing the pupil, and focusing the lens.
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A second pair of nuclei, called the inferior colliculus, – controls auditory
reflexes, such as adjusting the ear to the volume of sound.
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Sylvian/Cerebral aqueduct/Iter
– canal that connects the 3rd and 4th ventricles of the brain.
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Cerebral Peduncles
– pair of cylindrical bodies made up of nerve fibers tracts which connect the forebrain with the hindbrain
- Bundle of Axons
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Corpora Quadrigemina
– 4 rounded nuclear masses
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Corpora quadrigeminaCerebral aqueduct
Central gray stratum
Interpeduncular space
Substantia nigraRed nucleus of tegmentum
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4. MEDULLA OBLONGATA Myelencephalon
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lowest portion of the brainstem
At the top, it is continuous with the pons and the midbrain;
at the bottom, it makes a gradual transition into the spinal cord at the foramen magnum.
extends from the pons above and is continuous with the spinal cord below.
Pyramidal in shape (broad above and narrow below)
The nerve cells of the medulla are grouped to form “nuclei” out of which emerge cranial nerves 6-12.
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Medulla oblongata
is a portion of the hindbrain that controls autonomic functions:
•breathing,
•digestion,
•heart and blood vessel
•swallowing
•sneezing
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Functions:
Organ of conduction for the passage of impulses between brain and spinal cord
Contains center for control of bodily functions:
• Cardiac Inhibitory Center – holds heart rate to slower rate through cranial nerve 10 or Vagus Nerve.
• Vasoconstrictor Center – narrowing of lumen of the arteries
• Respiratory Center – controls rate and depth of respiration
• Reflex Center – sneezing, coughing, vomiting, winking and the movements and secretions of the alimentary canal.
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5. Diencephalon Thalamus and Hypothalamus
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Diencephalon
A. Thalamus
large mass of gray matter located in the cerebral hemisphere.
acts as a relay station between the cerebrum and the rest of the brain and spinal cord.
B. Hypothalamus
lies below the thalamus
contains temperature-regulating mechanisms and relations with the pituitary gland.
hunger, thirst, defense reactions; fear, rage and satiety.
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Thalamus
•It is involved in sensory perception and regulation of motor functions.
•is a limbic system structure
•it connects areas of the cerebral cortex that are involved in sensory perception and movement
• controls sleep and awake states of consciousness.
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Limbic System
The limbic system is a group of brain structures that plays a role in emotion, memory, and motivation.
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Hypothalamus
•plays a central role in controlling our autonomous nervous system (ANS),
•responsible for regulating homeostatic metabolic processes in the body.
•Examples of homeostatic processes include sleeping, eating, thirst, blood pressure, body temperature, and electrolyte balance.
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Hypothalamus
-regulates hunger, thirst, sleep, body temperature, sexual drive, and other functions.
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Fornix connects the Hippocampus to the Hypothalamus
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Spinal Corda long, thin, tubular bundle of nervous tissue and support cells that extends from the brain.
The spinal cord begins at the Occipital bone and extends down to the space between the first and second lumbar vertebrae.
It is around 45 cm (18 in) in men and around 43 cm (17 in) long in women.
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Functions of Spinal Cord
Serve as a conduit for motor information, which travels down the spinal cord
Serve as a conduit for sensory information, which travels up the spinal cord.
Serve as a center for coordinating certain reflexes.
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Cervical Spinal CordDivided into eight levels. Each level contributes into different functions in the neck and arms.
Sensations from the body are similarly transported from the skin and other areas of the body from the neck, shoulders, and arms up to the brain.
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Thoracic Spinal cord
The nerves of the spinal cord supply muscles of the chest that help in breathing and coughing.
This region also contains nerves in the sympathetic nervous system.
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Lumbosacral Spinal Cord
The lumbosacral spinal cord and nerve supply legs, pelvis, and bowel and bladder. Sensations from the feet, legs, pelvis, and lower abdomen are transmitted through the lumbosacral nerves and spinal cord to higher segments and eventually the brain
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Peripheral Nervous System
- main function of the PNS is to connect the central nervous system (CNS) to the limbs and organs.
- peripheral nervous system of humans has thirty-one pairs of spinal nerves,
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CRANIAL NERVES
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I. Olfactory NerveY
Function:
-Sense of Smell
- Sensory
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Function:
Transmits visual information to the brain; Located in
Optic canal.
Sense of sight
II. OPTIC
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III. OCCUMOTOR NERVE
Function:
The oculomotor
nerve is the third of
twelve paired cranial
nerves. It controls most
of the eye's movement
and constriction of the
pupil, and maintains an
open eyelid
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IV. TROCHLEAR NERVEFunction:
It is a motor nerve which stimulates and supplies the superior oblique muscle of the eye. The trochlear nerve is also a part of the cranial nerves which stems from the brain and connects to the eyes. Trochlear nerve function is interconnected to the superior oblique muscle. Which is also responsible for the movement of the eyes as it is one of the six extra ocular muscles that together help in the movement and alignment of the eyes. It acts as a pulley to move the eyes down—toward the tip of the nose
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Receives sensation from the face and innervates the muscles of mastication.
Sensory and Motor
V. TRIGEMINAL
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VI. ABDUCENS
Innervates the lateral rectus, which abducts the eye.
Motor
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VII. FACIALProvides motor innervation to the muscles of facial expression, posterior belly of the digastric muscle, and stapedius muscle, receives the special sense of taste from the anterior 2/3 of the tongue, and provides secretomotor innervation to the salivary glands (except parotid) and the lacrimal gland; Located and runs through internal acoustic canal to facial canal and exits at stylomastoid foramen
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VIII. VESTIBULOCOCHLEARFunction :
The vestibulocochlear nerve has separate acoustic and vestibular divisions. The acoustic portion of the nerve allows for proper hearing. The vestibular division is essential for normal balance.
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IX. GLOSSOPHARYNGEAL
The glossopharyngeal nerve allows for taste on the back portion of the tongue, provides the sensations of pain and touch from the tongue and tonsils, and participates in the control of muscles used during swallowing
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X. VAGUSFunction :
The vagus nerve plays an important role in the human body. It controls the sensory and motor functions of the heart and glands. It also participates in the process of digestion.
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XI. ACCESORYFunction:
The spinal accessory nerve allows the trapezius muscle and sternocleidomastoid muscle to control the movements of the head.
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XII. HYPOGLOSSAL
Provides motor innervation to the muscles of the tongue
Important for swallowing (bolus formation) and speech articulation.
Located in hypoglossal canal.
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Spinal Nerves
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carries motor, sensory, and autonomic signals between the spinal cord and the body.
Humans have 31 left-right pairs of spinal nerves, each roughly corresponding to a segment of the vertebral column: – 8 cervical spinal nerve pairs (C1-C8)– 12 thoracic pairs (T1-T12)– 5 lumbar pairs (L1-L5)– 5 sacral pairs (S1-S5)– 1 coccygeal pair.
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Cervical nerves (innervate the neck and the arms): cords conducting nerve impulses from the neck and arms to the cerebellum via the spinal cord.Intercostal nerve: cord conducting nerve impulses between the ribs.Lumbar and sacral nerves (innervate the legs and pelvic organs): nerves originating in the lower back and extending into the pelvis and legs.Sacral plexus: network of nerves of the sacrum.
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Lumbar plexus: network of nerves of the lower back.Spinal cord: substance belonging to the nervous system, found in the holes of the vertebrae.Brachial plexus: network of nerves of the arm.Cerebrum: seat of the mental capacities.
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Cervical nerve
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Lumbar and sacral nerves
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The formation of the spinal nerve from the dorsal and ventral roots
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dorsal roots carry afferent sensory axons, while the ventral roots carry efferent motor axons.
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Neuronalso known as neurone or nerve cell
basic unit of nervous system
Is an electircally excitable cell that processes and transmits information by electrical and chemical signaling.
there are billions neurons in the body. In fact, there are 12 - 14 billlions of neurons in one partof the brain alone.
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Basic nerve cell structure
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PARTS:Cell Body/ soma / perikaryon
=> the factory of the neuron. It produces all the proteins for the dendrites, axons and synaptic terminals.
Neuronal membrane
=> serves as a barrier to enclose the cytoplasm inside the neuron, and to exclude certain substances that float in the fluid that bathes the neuron.
Nodes of Ranvier
=> gaps between myelinated segment
Myelin Sheath
=> protects the axon, and prevents interference between axons as they pass along in bundles, sometimes thousands at time.
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Axon=> transmit impulses away from the cell body.
=>The main conducting unit of the neuron.
=>Conduct nerve impulses thru another cells.
=>Capable of conveying electrical signals along distances that range from as short as 0.1 mm to as long as 2 m.
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DendritesÞ the main apparatus for receiving signals from
other nerve cells. Þ The “ antennae” of the neuron. Þ They transmit impulses towards the cell body.
Þcovered by thousands of synapsesÞ200 000 axon terminals make contact with
dendrites of Purkinje neurons in cerebellum.
Þdiameter decrease from proximal to distal end.
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Nerve Ending (Presynaptic Terminals)
=> Synapses are the junctions formed with other nerve cells where the presynaptic terminal of one cell comes into 'contact' with the postsynaptic membrane of another. It is at these junctions that neurons are excited, inhibited, or modulated.
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Types of SynapsesElectrical synapses
Occur where the presynaptic terminal is in electrical continuity with the postsynaptic. Ions and small molecules passing through, thus connecting channels from one cell to the next, so that electrical changes in one cell are transmitted almost instantaneously to the next. Ions can generally flow both ways at these junctions i.e. they tend to be bi-directional, although there are electrical junctions where the ions can only flow one way, these are know as rectifying junctions. Rectifying junctions are used to synchronise the firing of nerve cells.
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Chemical synaptic junction is more complicated. The gap between the post- and presynaptic terminals is larger, and the mode of transmission is not electrical, but carried by neurotransmitters, neuroactive substances released at the presynaptic side of the junction.
a. Type I is an excitatory synapse, generally found on dendrites
b. type II is an inhibitory synapse, generally found on cell bodies
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Transmission of signals…SYNAPSE
Also known as the neuromuscular junction
A structure that permits a neuron to pass an electrical or chemical signal to another cell.
a place in the body where the axons of motor nerves meet the muscle, thus transmitting messages from the brain which cause the muscle to contract and relax.
neuromuscular junctions control the movements of the body and cause the heart to beat.
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SYNAPSE
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Classification of neuron according to the Direction:
Afferent neurons convey information from tissues and organs into the central nervous system and are sometimes also called sensory neurons.
Efferent neurons transmit signals from the central nervous system to the effector cells and are sometimes called motor neurons.
Interneurons connect neurons within specific regions of the central nervous system.
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Classification of neurons according to their functions:
motor neurons : control muscle fibers or effecteral organs eg: endocrine.
sensory neurons : receive sensory stimuli.
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sensory neurone
relay neurone
motor neurone
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Sensory neurons
Carries impulses from receptors e.g pain receptors in skin to the CNS( brain or spinal cord)
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Relay neuron
Carries impulses from sensory nerves to motor nerves
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Motor neuron
Carries impulses from CNS to effector e.g. muscle to bring about movement or gland to bring about secretion of hormone e.g ADH
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NEUROGLIA
smallest cells of nervous tissue
Function : metabolic, support, n protection.
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2 types Neuroglial Cells
1. Macroglial
2. Microglial
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1. Macroglial
A. Astrocyte
– largest
- long processes
- processes of the astrocytes are also present at the periphery of the brain and spinal cord forming a layer under pia mater : separates conn. Tissue of pia mater from the nerve cells.
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Types of astrocyte
a1. protoplasmic : in grey matter of brain n spinal cord
:processes are shorter and thicker
a2. fibrous : in white matter
: long smooth processes
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B. Oligodendrocytes
– smaller than astrocytes
- lesser processes n shorter
- can be found both in grey n white matter.
Function:
1. take part in metabolism of neurons
2. form protective barrier around neurons.
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C. Ependimocytes
– looks like an epithelial layer.
- line the central canal of spinal cord n ventricles of the brain which are filled with cerebrospinal fluid.
- take part in elaboration of cerebrospinal fluid.
- serve as a barrier btw fluid and neural elements.
- at last they form supporting framework of the system.
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2. Microglia
– small cells, highly-densed elongated bodies n short processes with numerous small branches.
- condensed, elongated nucleus.
- in adults, microglia are derived from monocytes of the bone marrow blood n they are phagocytes.
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Somatic Nervous System
> part of the PNS associated with the voluntary control of body movements via skeletal muscles.
> It is consists of efferent nerves responsible for stimulating muscle contraction, including all the non sensory neurons connected with skeletal muscles and skin.
> Its Sensory axon carries signals inward from receptors in the skin, skeletal muscles, and tendons while its motor axons carries signals out to the body’s skeletal muscles.
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Autonomic Nervous System the part of the PNS that acts as a control system functioning largely below the level of consciousness.
It controls visceral functions.
The ANS affects heart rate, digestion, respiration rate, salivation, perspiration, diameter of the pupils, micturition (urination), and sexual arousal. Whereas most of its actions are involuntary, some, such as breathing, work in tandem with the conscious mind.
Its sensory and motor axon carry signals from and to smooth muscles, cardiac (heart) muscle, and the different regions inside the body.
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Division of Autonomic Nervous System
Parasympathetic Nervous System
The parasympathetic system specifically is responsible for stimulation of "rest-and-digest" activities that occur when the body is at rest, including sexual arousal, salivation, lacrimation (tears), urination, digestion, and defecation
Sympathetic Nervous System
Its general action is to mobilize the body's resources under stress; to induce the fight-or-flight response. It is, however, constantly active at a basal level to maintain homeostasis.
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