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Transcript of Suzanne D'Anna1 Nervous System. Suzanne D'Anna2 Nervous System master control system master...
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Suzanne D'Anna 1
Nervous System
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Suzanne D'Anna 2
Nervous System
master control system
master communicating center
nerve tissue develops from embryonic ectoderm
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Suzanne D'Anna 3
Role of the Nervous System
monitors changes
- (sensory function) processes and interprets information
- (integrative) elicits responses
- (motor)
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Suzanne D'Anna 4
Nervous System Organization
anatomical organization
- central nervous system (CNS)
- peripheral nervous system (PNS) functional organization
- sensory
- integrative
- motor
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Suzanne D'Anna 5
Central Nervous System (CNS) brain
- cerebrum
- diencephalon
- brain stem
- cerebellum spinal cord
- continuation of brain stem
- continues from base of skull to the 1st lumbar vertebra
four principal parts
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Suzanne D'Anna 6
cerebrum
cerebellum
pituitarygland
diencephalon
spinal cord
brain stem
midbrain
pons
medullaoblongata
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Suzanne D'Anna 7
Peripheral Nervous System (PNS)
cranial nerves
- 12 pairs
- emerge from the brain spinal nerves
- 31 pairs
- emerge from the spinal cord
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Suzanne D'Anna 8
Functional Organization sensory
- gathers information that occurs within internal and external environment
integrative
- analyzes sensory information
- decides necessary responses motor
- carries instructions (nerve impulses) to muscles and glands (effectors)
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Suzanne D'Anna 9
Basic Types of Functional Neurons
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Suzanne D'Anna 10
Sensory Neurons
afferent neurons
- carry information from various body parts to the brain or spinal cord (input)
Motor Neurons efferent neurons
- carry instructions from the CNS to muscles and glands (output)
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Suzanne D'Anna 11
Interneurons or Connecting Neurons
analyze information determine appropriate response located in the CNS
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Suzanne D'Anna 12
Peripheral Nervous System(subdivisions)
somatic nervous system (soma = body)
- voluntary
- sensations are consciously perceived autonomic nervous system (auto = self)
- involuntary and automatic
- sensations are usually not consciously perceived
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Suzanne D'Anna 13
Somatic Nervous System(SNS)
sensory neurons
- carry impulses to the CNS from receptors for general and special senses
(touch, pressure, vibration, temperature, pain, proprioception, smell, taste, vision,hearing and equilibrium)
motor neurons
- carry impulses away from CNS only to skeletal muscles
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Suzanne D'Anna 14
Autonomic Nervous System(ANS)
sensory neurons
- carry impulses to the CNS from visceral receptors (internal organs)
motor neurons
- carry impulses from CNS to smooth muscle, cardiac muscle, and glands
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Suzanne D'Anna 15
Motor Division of Autonomic Nervous System
Two principal divisions work together, i.e., impulses of one division activate an organ, while impulses from the other division inhibit the organ
sympathetic parasympathetic
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Suzanne D'Anna 16
Sympathetic prepares the body for energy-expending,
stressful, or emergency situations
Parasympathetic active under normal ordinary, restful
conditions counterbalances effects of sympathetic
division restores body to resting state
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Suzanne D'Anna 17
Protection and Coverings of the Brain
bones of cranium cerebrospinal fluid connective tissue membranes called
meninges vertebral column
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Suzanne D'Anna 18
Cranium
frontal sphenoid ethmoid occipital parietal temporal
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Suzanne D'Anna 19
Cerebrospinal Fluid(CSF)
formed by filtration and secretion from networks of capillaries
- choroid plexuses
located in the (4) ventricles of the brain
form blood-brain barrier clear, colorless liquid contains glucose, proteins, lactic acid, urea,
cations, anions, and lymphocytes
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Suzanne D'Anna 20
Cerebrospinal Fluid (cont.)
acts as shock-absorbing medium protects brain from banging against
inner walls of cranium is a medium for exchange of nutrients
and waste products between blood and nervous tissue
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Suzanne D'Anna 21
Cerebrospinal Fluid (cont.)
significant changes in composition can indicate disease conditions
- meningitis
- tumors
- multiple sclerosis if drainage of CSF is obstructed, excessive
pressure on the brain will cause hydrocephalus
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Suzanne D'Anna 22
Blood-Brain Barrier permits certain substances to enter the fluid
but prohibits others protects the brain from harmful substances formed by tightly adherent cell connections
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Suzanne D'Anna 23
Meninges
protective membranes delicate envelop brain and spinal cord Three connective tissue membranes:
- dura mater
- arachnoid
- pia mater
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Suzanne D'Anna 24
Dura Mater outermost layer leathery next to bony inner surface of cranium separated from arachnoid by subdural
space which is fluid filled
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Suzanne D'Anna 25
Arachnoid
middle layer looks like a cobweb Two components:
- layer next to the subdural space
- system of supporting fibers (trabeculae) forming web-like structure between arachnoid and pia mater
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Suzanne D'Anna 26
Arachnoid (cont.)
in some areas, arachnoid material perforates dura mater forming protrusions called arachnoid villa
Functions:
- reabsorption of CSF into blood
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Suzanne D'Anna 27
Pia Mater
innermost thin layer of loose connective tissue transparent contains many blood vessels between pia mater and nerve tissue is a
thin layer of neuroglial processes firmly attached to pia mater
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Suzanne D'Anna 28
Meningitis
inflammation of meninges serious threat to brain bacterial and viral meningitis can spread
to nervous tissue of CNS
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Suzanne D'Anna 29
Regions of the Brain
cerebrum (cerebral hemisphere ) diencephalon brain stem cerebellum
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Suzanne D'Anna 30
Cerebrum (cerebral hemisphere)
largest, obscures most of brain stem looks like mushroom cap made up of 2 deeply grooved hemispheres -
left and right Surface is covered by:
- grooves - fissures or sulci
- ridges - gyri or convolutions which serve as landmarks
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Suzanne D'Anna 31
Cerebrum (con’t) concerned with higher brain functions Contains centers for:
- interpreting sensory impulses
- initiating voluntary muscular movements stores information of memory utilizes information in reasoning processes functions in determining a person’s
intelligence and personality
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Suzanne D'Anna 32
Left Hemisphere
More important for:
- right-hand control
- spoken and written language
- numerical and scientific skills
- reasoning
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Suzanne D'Anna 33
Right Hemisphere
More important for:
- left-hand control
- musical and artistic awareness
- space and pattern perception
- insight and imagination
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Suzanne D'Anna 34
Lobes
each hemisphere is subdivided into 4 lobes
named for cranial bone that covers them
more precisely defined by surface landmarks, i.e., sulci and fissures
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Suzanne D'Anna 35
Lobes (cont.)
parietal lobe occipital lobe temporal lobe frontal lobe
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Suzanne D'Anna 36
White Matter
underlying the cortex whitish appearance is due to fatty
component of myelin consists of myelinated axons extending in
three principal directions
- association fibers
- commissural fibers
- projection fibers
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Suzanne D'Anna 37
Association Fibers
connect and transmit impulses between gyri in the same hemispheres
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Suzanne D'Anna 38
Commissural Fibers
transmit impulses from the gyri in one cerebral hemisphere to corresponding gyri in the opposite hemisphere
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Suzanne D'Anna 39
Three Important Commissural Fibers
corpus callosum (corpus = mass or body)
- great commissure of the brain between the cerebral hemispheres
anterior commissure posterior commissure
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Suzanne D'Anna 40
Projection Fibers
form descending and ascending tracts tracts transmit impulses from cerebrum
and other parts of brain to spinal cord tracts transmit impulses from spinal
cord to brain
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Suzanne D'Anna 41
Gray Matter made primarily of densely packed neuron cell
bodies basal ganglia
- paired masses of gray matter
- found in cerebral hemispheres cerebral cortex
- layer of gray matter approx. 3 mm thick
- has 6 distinct layers
- divided into 3 areas based on function
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Suzanne D'Anna 42
Cerebral Hemisphere
outer layer of gray matter is cerebral cortex
- made up of lobes composed of dendrites and cell body neurons
- interior is composed of white matter (nerve fibers arranged in bundles called tracts)
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Suzanne D'Anna 43
Functions of Cerebral Cortex
divided into three main areas based on function
- sensory area
- motor area
- association area
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Sensory Areas Function in interpreting impulses,
located in several lobes of cerebrum
- general sensory area
- primary visual area
- primary auditory area
- primary gustatory area
- primary olfactory area
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Suzanne D'Anna 45
Sensory Areas
general sensory
primary visual
primary gustatory
primary auditory
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Suzanne D'Anna 46
General Sensory Area Receives impulses from:
- the skin
- muscles
- internal organs localizes precisely where sensations
originate located on the postcentral gryus on the
occipital lobe
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Suzanne D'Anna 47
Primary Visual Area
receives input from the eyes Interprets:
- shape
- color
- movement located on the occipital lobes
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Suzanne D'Anna 48
Primary Auditory Area (cont.)
receives input from internal ear (cochlea)
Interprets:
- pitch
- rhythm located on the temporal lobes
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Suzanne D'Anna 49
Primary Gustatory Area
receives input from taste buds Interprets:
- sensations related to taste
(sweet, sour, salty, bitter) located at base of postcentral gryus on
parietal lobes
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Suzanne D'Anna 50
Primary Olfactory Area
receives input from olfactory bulbs Interprets:
- sensations related to smell located on temporal lobes
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Suzanne D'Anna 51
Motor Areas
All located on frontal lobes, control actions of specific muscles or groups of muscles
- primary motor area
- motor speech area
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Suzanne D'Anna 52
Motor Areas
motor speech(Broca’s)
primary motor
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Suzanne D'Anna 53
Primary Motor Area
controls muscles in specific parts of body
located on precentral gyrus of frontal lobe
The translation of thoughts into speech involves the motor speech area
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Suzanne D'Anna 54
Motor Speech Area (Broca’s Area)
Coordinates complex muscular actions of the:
- mouth
- tongue
- larynx located at junction of temporal, parietal,
and occipital lobes in only one cerebral hemisphere (usually left)
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Suzanne D'Anna 55
Association Areas Concerned with:
- personality
- intelligence
- emotions
- reasoning
- problem solving
- creativity judgment
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Suzanne D'Anna 56
Association Areas (cont.)
somatosensory association area visual association area auditory associations area (Wernick’s
area) gnostic area premotor area frontal eye field
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Suzanne D'Anna 57
Association Areas
frontal eye field
promotor somatosensory
gnostic
visual
auditory
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Suzanne D'Anna 58
Somatosensory Association Area
integrates and interprets sensations Determines:
- shape and texture of an object
- orientation of one object to another as they are felt
- sense relation of one body part to another stores memories, so present sensations can
be compared to previous experiences
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Suzanne D'Anna 59
Visual Association Area
relates present to past visual experiences by recognizing and evaluating what is seen
located in occipital lobe
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Auditory Associations Area (Wernick’s area)
interprets meaning of speech determines type of sound
- speech, music, and noise also interprets meaning of speech by
translating words into thoughts located inferior to primary auditory area
in temporal lobe
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Gnostic Area(gnosis = knowledge) (NOS-tik)
integrates sensory interpretations from the association areas and impulses from other areas so that a common thought can be formed
- sends signals to other parts of the brain to cause appropriate response
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Premotor Area
anterior to primary motor area neurons from this area communicate
with primary motor cortex, sensory associations areas in the parietal lobe, the basal ganglia, and the thalamus
concerned with learned motor activities of complex and sequential nature such as writing or playing the piano
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Frontal Eye Field
in frontal cortex controls voluntary scanning movements
of the eyes such as searching for a word on a page of text or dictionary
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Diencephalon
consists primarily of the thalamus and the hypothalamus
sits on top of brain stem
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Thalamus oval structure consists of paired masses of gray matter (1 inch
long) organized into nuclei form lateral walls of third ventricle right and left halves are joined by bridge of gray
matter called intermediate mass principal relay station allows crude recognition of sensations; pain,
temperature, or pressure
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Hypothalamus
under thalamus single most important region of brain for
maintaining homeostasis Regulates:
- temperature, hunger, thirst, smell, fear, rage, sexual behavior, endocrine rhythms, and posterior and anterior pituitary secretions
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Brain Stem
Three parts:
- midbrain
- pons
- medulla oblongata three inches long
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Midbrain
mesencephalon
(meso = middle, enkephalos = brain) extends from pons to diencephalon about one inch involved with visual and auditory stimuli
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Pons (pons = bridge)
directly above medulla anterior to cerebellum about one inch long consists of white matter with regions of
gray matter (nuclei) scattered throughout bridge connecting spinal cord with brain
via transverse and longitudinal fibers helps to control respiration
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Medulla Oblongata
merges with spinal cord contains all ascending and descending
tracts that connect spinal cord and various parts of brain
contains centers that control heart rate, blood pressure, breathing, swallowing and vomiting
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Cerebellum
looks like a cauliflower located behind the pons and below
occipital lobes of cerebrum controls subconscious skeletal muscle
contractions required for smooth, coordinated movements and equilibrium
“automatic pilot” second largest part of brain
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Spinal Cord
continuation of brain stem extends from large opening in base of
cranium (foramen magnum) down to upper region of the lower back (1st lumbar vertebra)
cylindrically shaped approximately 17 inches long 1 inch in diameter
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Spinal Cord (cont.)
Surrounded and protected by:
- meninges
- cerebrospinal fluid
- a layer of fatty tissue
- the vertebra no possibility of spinal cord injury below
L4; ideal site for removal of cerebral spinal fluid