Nervous System PDF

Summary

This document provides an overview of the human nervous system, including its components, functions, and associated disorders. The information is presented in a structured format, suitable for educational purposes. The document covers the major components and processes of the nervous system. It's likely designed to be used as lecture notes or educational materials.

Full Transcript

CHAPTER 11

The Nervous System
 Divisions of the nervous system
Central Nervous System (CNS): brain and spinal cord
Receives, processes, and transfers information
Peripheral Nervous System (PNS): nerves outside CNS
Sensory nerves: carries information toward the CNS
Motor nerves: carries information away from CNS
1) Somatic subdivision: stimulates skeletal muscles
2) Autonomic subdivision: stimulates smooth muscles / glands
a) Sympathetic nerves
b) Parasympathetic nerves
Components of
the Nervous System

Figure 11.1
Slide 11.1
Nervous system function: Input, integration,
output
Sensory neurons receive data from outside and inside the
body, and transmit this information to interneurons of the
central nervous system.

Central nervous system receives and processes this
information, arrives at an action plan then causes action by
stimulating motor neurons

Motor neurons execute the action plan, by stimulating
muscle contraction or glands.
Motor neurons: somatic

Voluntary: conscious
control of skeletal muscles.
Signal from primary motor
cortex.

Involuntary: spinal reflexes
= quicker response.
Withdrawing your foot from
A sharp object, for example.

Slide 11.9B
 Motor neurons: autonomic
Not under conscious control, stimulates smooth muscles
and glands.
Important for maintaining homeostasis (controls heart
rate, breathing rate, blood pressure, etc.)
Sympathetic nerves
Function: for “fight or flight” reaction; opposes
parasympathetic division
Parasympathetic nerves
Function: for relaxation, normal body functions
Motor neurons: autonomic, sympathetic nerves

Releases epinephrine / norepinephrine neurotransmitters, opposes
parasympathetic nerves
“Fight or flight” response : better mental alertness and physical
activity: heart rate up, respiratory rate up, blood pressure up, pupils
dilated, more blood flow to skeletal muscles, liver releases glucose =
“Ready for action!!”
Immediately non-essential activities shut down: intestines, kidneys.
Epinephrine / norepinephrine released from adrenal gland for
sustained signal. (act as a hormone, felt after 20 sec.)
Motor neurons: autonomic, parasympathetic nerves

Releases acetylcholine neurotransmitter, opposes
sympathetic division

Relaxation: Lower heart rate, lower respiration rate,
increased digestion, lower blood pressure. = “rest and
digest”
 Central nervous system: spinal cord

Spinal cord: relays information between brain and
peripheral nervous system
Responsible for reflexes
Sensory nerves enter on dorsal side
Motor nerves leave on ventral side
White matter: myelinated neurons ascending and
descending spinal cord
Grey matter: unmyelinated axons,dendrites, cell
bodies, some synapses form here
Sensory nerves enter on dorsal side
Motor nerves exit on ventral side
 Brain: hindbrain
Medulla oblongata (brain stem):
Monitors hydrogen ion (= carbon dioxide) / oxygen of
blood
Controls heart rate and breathing rate
Controls blood pressure
Controls movements of digestive system
Controls reflexes like coughing, sneezing, swallowing
Joins spinal cord and the rest of the brain.
Medulla oblongata
 Brain: hindbrain
Cerebellum:
Coordinates basic movements and balance
Maintains posture (upright)
Learned motor programs that become automatic (like
juggling, hitting a tennis serve, driving a car, walking)

Drunk people: cerebellum affected, so a person cannot
walk properly and certainly cannot drive properly
Cerebellum
 Brain: forebrain
Hypothalamus:
Regulates hormone secretions of pituitary gland.
Helps with homeostasis by monitoring body
temperature, hunger and thirst (monitors blood solute
concentration).
Important for sex drive
Hypothalamus
 Brain: forebrain
Thalamus:
Relays touch sensory input from the body to the
cerebral cortex for proper interpretation.
Processes some outgoing motor signals.

Parkinson’s disease: A degenerative disease in which
dopamine-releasing neurons in thalamus die over many
years.
Smooth motions become increasingly difficult: tremors,
poor balance, slow movements, rigidity.
Dementia and depression can occur too.
Thalamus
Brain: forebrain
Limbic system: involved in emotions and short term
memory.
Limbic system associated with strong emotions and
instincts (love, fear, rage and sorrow).
Linked with the hypothalamus (basic desires: hunger,
thirst, sex).
“Impulses” of limbic system and hypothalamus pass
through thalamus to the cerebral cortex.
Cerebral cortex can control both strong emotions and
basic desires.
Limbic System
Brain: forebrain
Limbic system:
Short term memory (up to several hours): limbic system.
Transferring short-term to long term memory:
Saying information out loud
Writing down information
Reading information
Using information in conversation repeatedly,
Information transmitted to: long term memory in cerebral
cortex.
Four primary regions of the cerebral cortex
Frontal lobe: creates voluntary movement including
speech, also: planning, decision making, abstract thought,
personality traits, long term memory.
Parietal lobe: primary somatosensory region receives skin
sensory information, interpretation of sense of touch.
Also receives and interprets taste information.
Occipital lobe: primary visual cortex receives visual input,
interpretation of visual data
Temporal lobe: primary auditory cortex receives auditory
input, including speech, interpretation of auditory data.
Also receives and interprets smell information.
 Also taste

Also smell
Alzheimer’s disease
Degenerative disease that usually starts late in life (65 or
older):
Frontal lobe and limbic systems affected: protein amyloid
“plaque” deposited in brain, kills neurons. As it proceeds
only tangled remains of neurons and protein plaque remain.
Progressive memory loss occurs, irritability and personality
change. Eventually the person cannot care for themselves.
 chiras fig 11.18
 Generating words: Broca’s area..
Hearing words: primary auditory cortex and Wernicke’s area
Seeing words: primary visual cortex and visual association cortex.

Musicians “interpret” music similar to words, non-musicians don’t
Hearing foreign language: Wernicke’s area not active
Seeing a foreign script: visual association cortex not as active
 Primary motor cortex,
part of the frontal lobe:
Generates movement in
specific regions of the
body.
There are many motor
neurons associated with
parts of the body with
fine motor control (like
the fingers and the face).
More motor neurons =
fine movements = more
brain devoted to moving
these regions
Primary sensory cortex, part
of the parietal lobe: receives
sensory input from specific
regions of the body.
Some parts of the body are
more sensitive to touch (like
fingertips and lips), because
they have more dense
sensory neurons there.
More sensory neurons =
more sensitive to touch =
more brain devoted to
receiving information from
these regions.
 Disorders of the Nervous System
Concussion: blow to the head disrupts brain’s normal electrical
activity: often results in blurred vision, headaches, problem balancing
and short-term memory loss. Sometimes people lose consciousness.

Epilepsy Leads to seizure episodes: abnormal electrical activity with
many neurons firing at once. Person falls to the ground and moves
uncontrollably. Caused by drugs, brain injuries or inherited. Usually
can be treated with anti-convulsants.
 Disorders of the Nervous System
Infections:
Encephalitis (inflammation of brain due to viral infection), usually
leads to fever and headache. More serious problems can arise like
seizures, confusion, behavior changes and inability to control
movements. Coma and death can occur.

Meningitis (inflammation of tissues surrounding brain due to viral or
bacterial infection of fluid surrounding brain) leads to high fever,
severe headache and painful, stiff neck. Other symptoms are possible
like confusion and seizures. Can lead to permanent brain damage and
can be fatal.
 Disorders of the Nervous System
Infections:
Rabies Virus infects neurons and travels up to brain killing cells.
Causes hallucinations, seizures, coma then death. Mammal bites may
cause rabies, once symptoms appear (4-6 weeks) there is no cure.
 Chiras, DD Human biology, health, homeostasis, and the environmentJones and Bartlett, 2002