Anatomy & Physiology Essentials - Chapter 7 - PDF

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A comprehensive PowerPoint presentation covering various aspects of the human nervous system, including its anatomy and function. The document features detailed diagrams and explanations of neurons, neurotransmitters, and different parts of the central and peripheral nervous systems; it also notes common disorders encountered.

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Anatomy &
Physiology
Essentials
7 The Nervous
System
7.1
Anatomy of the
Nervous System
Section 7.1 Objectives
Explain the general organization of the human nervous system.
Describe the types of tissues present in the nervous system and
identify the general role of each.

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Structural Divisions
Central nervous system (CNS)
Includes brain and spinal cord
Directs activity of entire nervous system
Peripheral nervous system (PNS)
Includes spinal nerves, cranial nerves, and sensory receptors
Transmits information and responds to stimuli

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Functional Divisions
Afferent nerves
Somatic sensory fibers
Visceral sensory fibers
Efferent nerves
Somatic nervous system
Autonomic nervous system

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Nervous System Organization

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Neurons

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Types of Neurons

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Neuron Structures

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7.2
Impulse Transmission
Section 7.2 Objectives
Explain what action potentials are and how they are generated.
Explain the factors that influence the speed of neural impulse
transmission.
Describe the role of neurotransmitters in transmitting impulses
across synapses.
Describe the two types of reflexes and explain how they work.

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Action Potentials
Neuron states
Polarized
Depolarized
Refractory period
Repolarized
Sodium-potassium pump

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7 Main Neurotransmitters
Acetylcholine
Dopamine
Gaba (Gamma-aminobutyric acid)
Glutamate
Histamine
Norepinephrine
Serotonin
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Neurotransmitters
Excitatory or inhibitory effect on receiving cell

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Reflexes
Somatic reflexes
Stimulation of skeletal muscles
Example: removing hand from something hot
Autonomic reflexes
Regulate cardiac muscle and smooth muscle
Examples: digestion, elimination, sweating, and blood pressure

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Reflex Example

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7.3
Central Nervous
System
Section 7.3 Objectives
Identify and describe the major parts of the brain, including the
cerebrum, diencephalon, brainstem, cerebellum, meninges, and
blood-brain barrier.
Explain the structure and functions of the spinal cord.

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Hemispheres of the Cerebrum

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Lobes of the Cerebrum

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Functional Regions of the Brain

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Motor and Somatic Sensory Cortexes

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Diencephalon
Interbrain
Enclosed by cerebral hemispheres
Important structures
Thalamus
Hypothalamus
Epithalamus

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Brainstem
Reticular activating system
Regulates states
Damage may result in coma

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Cerebellum
Coordinates body movements
Receives input from eyes, ears, and sensory receptors
Monitors body segment positions and movements
Sends out signals to make adjustments

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Meninges
Protective membranes

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Blood-Brain Barrier
Blocks surges in concentrations of hormones, ions, and some
nutrients
Allows water, glucose, and essential amino acids to pass
Allows blood-borne alcohol, nicotine, fats, respiratory gases, and
anesthetics

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Spinal Cord
Extends from brainstem to beginning of lumbar region

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 Peripheral Nervous System

7.4
Peripheral Nervous
System
Section 7.4 Objectives
Describe the basic structure of a nerve.
Identify the twelve cranial nerves and the purpose of each.
Explain the organization of the spinal nerves, the dorsal and ventral
rami, and the plexuses.
Differentiate between the functions of the sympathetic and
parasympathetic nerves within the autonomic nervous system.

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Nerve Structure

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Cranial Nerves

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Spinal Nerves

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Spinal Nerve Plexuses
Cervical
Brachial
Lumbar
Sacral

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Lumbar and Sacral Plexuses

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Autonomic Nervous System

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Sympathetic Nerves
Fight-or-flight response
Acetylcholine secreted to stimulate paravertebral ganglia
Norepinephrine released by postganglionic neurons

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Parasympathetic Nerves
Functions
Control circulatory, respiratory, and digestive systems
Calm system after fight-or-flight response
Activation of neurons releases acetylcholine

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7.5
Development of the
Nervous System
Section 7.5 Objectives
Explain the role of neural progenitor cells in the development of the
nervous system.
Describe the major developmental changes that the brain
undergoes during childhood and adolescence.
Describe the functional changes to the aging brain in late adulthood.

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Embryonic and Fetal Periods
Neural progenitor cells (neural stem cells)
Produce the different cells that make up CNS
Neurons organize into primitive neural networks
At week 7, neurons begin to form
From week 9 through birth, gyri and sulci form
First fissure separates two cerebral hemispheres

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Infancy, Childhood, and Adolescence

Structural changes in brain
and spinal cord
Dramatic increase in
myelination of neurons
Functional organization

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Adulthood
Brain reaches full size at about age 25
From then on, brain and spinal cord lose volume and weight
Brain function tends to decline
Short-term memory, verbal abilities, intellectual capacity
Conduction of impulses by peripheral nerves slows
Regular exercises postpones effects of aging

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7.6
Nervous System
Injuries and Disorders
Section 7.6 Objectives
Describe the symptoms and recovery strategies for someone who
has suffered a traumatic brain or spinal cord injury.
Describe common diseases and disorders of the nervous system.

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Traumatic Brain Injury (TBI)
Mild
May lose consciousness
Symptoms
Moderate to severe
More serious symptoms
Require immediate medical care

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Current Treatment and Prevention of
TBI
Follow-up care: individualized rehabilitation programs
Prognosis for TBI varies greatly
Research to develop strategies and interventions

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Cerebral Palsy (CP)
Group of nervous system disorders
Caused by congenital defects or in early infancy
Varying degrees of motor function impairment
Can include hearing, vision, and cognitive impairment
Spastic CP is most common
No cure
Surgical intervention can improve some symptoms
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Spinal Cord Injury
Fracture or displacement of the vertebrae
Complete severing of spinal cord
C1-C3—usually fatal
C1-C4—quadriplegia
C5-C7—complete paralysis of lower extremities; partial loss of
function in trunk and upper extremities
T1-L5—paraplegia
Medical emergency—immobilized before movement
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Meningitis
Inflammation of meninges surrounding brain and spinal cord
Swelling produces symptoms
Caused by viral, bacterial, and fungal infections
Viral meningitis
Bacterial meningitis
Cephalosporins – (Cefotaxime, Ceftriaxone)
- Penicillin, Ampicillin
Seek immediate medical attention
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Multiple Sclerosis
Autoimmune disease of unknown cause
Inflammation destroys myelin sheath
Can occur at any age
Occurs with greater frequency in women
Cause is unknown
Symptoms vary widely
No known cure
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Epilepsy

Group of brain disorders characterized by repeated seizures
Symptoms depend on type of epilepsy and area of brain affected
Caused by disease or injury that affects brain
Seizures are relatively consistent in given individual
Controlled with medication

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Epilepsy
Medication
- GABA Analogs (gabapentin, pregabalin)
- Carboxamides (Carbamazepine, Rufinamide)
- Calcium Channel modulators (Levetiracetam)
- AMPA Receptor Antagonist (Perampanel)

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Parkinson’s Disease
Common among elderly
Tremors, difficulty initiating movements, and deficits in coordination
Men and women equally affected
Slow, progressive destruction of brain cells that produce dopamine
Motor dysfunction on one or both sides of body
Impairment of autonomic and cognitive functions
No cure
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Huntington’s Disease
Genetic mutation passed down through families
Causes degeneration of neurons in brain
Age of onset and rate of progression vary
Neuromuscular disorders
Intellectual impairments
Psychiatric disorder
Medications and genetic engineering
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Dementia
Loss of function in two or more areas of cognition
Usually occurs after age 60
Can be caused by disruption in blood supply to brain
Most common cause is Alzheimer’s disease
Progressive loss of brain function
No known cause

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Alzheimer’s Disease (AD)
Early onset AD appears before age 60
Worsens quickly
Believed to involve genetic predisposition
Late onset AD is the most common form
Early symptoms
Worsening symptoms
Advanced symptoms

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Medical Terminology Practice (1 of 2)
Identify the word parts that make up the following terms. Then use
your knowledge of medical word parts to define the terms.
Congenital
Word parts: con- = together, -genit/o = reproduction, -al =
pertaining to
Meaning: pertaining to reproduction

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Medical Terminology Practice (2 of 2)
Epineurium
Word parts: epi- = upon, -neur/o = nerve, -ium = structure
Meaning: outer covering of a nerve
Myelophthisis
Word parts: myel/o = spinal cord, -phthisis = atrophy
Meaning: atrophy of the spinal cord

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Review (1 of 5)
What two structures make up the central nervous
system?
Brain and spinal cord
Which nervous system stimulates the skeletal muscles?
Somatic
What are the two specialized types of cells that exist
within the nervous system?
Neurons and neuroglia

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Review (2 of 5)
What is the refractory period in a nerve fiber?
The time between the completion of the action potential and
repolarization
What are the two types of reflexes, and which type regulates the
cardiac muscle of the heart?
Somatic and autonomic; autonomic regulates the cardiac muscle

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Review (3 of 5)
What are the four major anatomic regions of the
brain?
Cerebrum, diencephalon, brainstem, and cerebellum
Name the lobes of the brain.
Frontal, parietal, occipital, and temporal
What are the four plexuses in the body?
Cervical, brachial, lumbar, and sacral
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Review (4 of 5)
What system controls all of the automatic, everyday functions of
the circulatory, respiratory, and digestive systems?
Parasympathetic nervous system
What brain function tends to be the first to diminish?
Short-term memory
What determines the extent of a spinal cord injury if the spinal
cord is severed?
The level at which the cord is severed
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Review (5 of 5)
What are the two types of meningitis, and which one is potentially
life threatening?
Viral and bacterial; bacterial is much more serious

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