chapter 12bhsedwards.weebly.com/uploads/5/2/2/1/5221929/headneck_iii_special_senses.pdf•special...
TRANSCRIPT
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Chapter 12
Nervous System III:
Senses
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General vs. Special
• General Senses
• receptors that are widely distributed
throughout the body
• Special Senses
• specialized receptors confined to
structures in the head
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Receptor Types
Chemoreceptors
• respond to changes
in chemical
concentrations
Pain receptors
(Nociceptors)
• respond to tissue
damage
Thermoreceptors
• respond to changes
in temperature
Mechanoreceptors
• respond to
mechanical forces
Photoreceptors
• respond to light
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• Sensation – brain becomes aware of sensory
impulse
• Perception – brain interprets sensory
information
• Projection – brain projects the sensation back
to its apparent source
• Sensory Adaptation – ability to ignore
unimportant stimuli to prevent sensory overload
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General Senses
senses associated with skin, muscles, joints,
and viscera:
three groups
• exteroceptive senses – senses associated with
body surface; touch, pressure, temperature, pain
• visceroceptive senses – senses associated with
changes in viscera; blood pressure stretching blood
vessels, ingesting a meal
• proprioceptive senses – senses associated with
changes in muscles and tendons
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Touch and Pressure Senses
Free nerve endings
• common in
epithelial tissues
• simplest receptors
• sense itching
Meissner’s corpuscles
• abundant in hairless portions
of skin; lips
• detect fine touch; distinguish
between two points on the skin
Pacinian corpuscles
• common in deeper subcutaneous
tissues, tendons, and ligaments
• detect heavy pressure and
vibrations
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Touch and Pressure
Receptors
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Temperature Senses
Warm receptors
• sensitive to temperatures above 25oC (77o F)
• unresponsive to temperature above 45oC (113oF)
Cold receptors • sensitive to temperature between 10oC (50oF) and 20oC
(68oF)
Pain receptors
• respond to temperatures below 10oC
• respond to temperatures above 45oC
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Sense of Pain
• free nerve endings
• widely distributed
• nervous tissue of brain lacks pain receptors
• stimulated by tissue damage, chemical,
mechanical forces, or extremes in temperature
• adapt very little, if at all
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Visceral Pain
• pain receptors are the only receptors in viscera
whose stimulation produces sensations
• pain receptors respond differently to stimulation
• not well localized
• may feel as if coming from some other part of
the body (known as referred pain) because of
common nerve pathways
•See page 445 Figure 12.2
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Referred Pain
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Pain Nerve Pathways
Acute pain fibers •Well localized
•Occurs rapidly
•Not felt in deep tissues
•Sharp, fast, pricking pain
•Conducted on
myelinated fibers
•Ceases when stimulus is
removed
•OTC pain relief usually
adequate
Chronic pain fibers
• begins slowly and
increase in intensity
•Dull, aching, burning,
throbbing pain
•Can occur anywhere
•Conducted on
unmyelinated fibers
•May continue after
stimulus is removed
•Narcotics or other
prescriptions needed
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Regulation of Pain Impulses
Thalamus
• allows person to be
aware of pain
Cerebral Cortex
• judges intensity of pain
• locates source of pain
• produces emotional and
motor responses to pain
Pain Inhibiting
Substances (Analgesics)
Natural:
•enkephalins
• serotonin
• endorphins
Artificial:
• OTC drugs – aspirin,
Tylenol, Motrin
•Narcotics – morphine,
vicodin, demerol
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Special Senses
• Taste
• Smell
• Vision
• Hearing/Balance
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TASTE: how does it work?
• Taste buds on tongue on
fungiform papillae
(“mushroom-like projections)
• Chemical must be dissolved
in saliva to be detected
• Taste hairs protruding out of
taste pore absorb dissolved
chemicals
Organ = taste bud
Type of receptor = chemoreceptors
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Five taste sensations
• Sweet— tip
• Sour— sides
• Salty— perimeter
• Bitter — posterior
• “umami”— throughout
• Taste buds undergo
rapid sensory
adaptation
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Cranial Nerves
of Taste
Anterior 2/3 tongue: Facial
Posterior 1/3 tongue: Glossopharyngeal
Pharynx: Vagus
Gustatory center
in parietal lobe of
cerebral cortex
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Smell: How does it work?
• Organ = Olfactory epithelium in nasal cavity
• Type of receptors = chemoreceptors
• Chemicals must be dissolved in mucus before being detected
• Receptor cells have endings that respond to unique proteins
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Smell: How does it work?
• Every odor has particular signature that triggers a certain combination of receptor cells
• Undergoes rapid sensory adaptation • Olfactory receptor cells are continually replaced throughout life. Only nerve cells in body that are replaced.
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Olfactory epithelium just under cribiform plate (of ethmoid bone) in superior nasal epithelium at midline
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Vision
• Organ – Retina
• Receptor type – photoreceptors
• Visual Accessory Organs
• eyelids
• lacrimal apparatus
• extrinsic eye muscles
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Eyelid
eyelids- palpebra
•composed of four layers
1. skin
2. muscle
• orbicularis oculi – closes
•levator palperbrae superioris – opens
3. connective tissue
4. conjunctiva - mucous membrane; lines
eyelid and covers portion of eyeball
•tarsal glands – secrete oil onto eyelashes
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Human Anatomy, Frolich, Head II: Throat/Larynx
Movement
of eye
Eye movement simulator
(http://cim.ucdavis.edu/ey
es/version1/eyesim.htm)
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Lacrimal Apparatus
• lacrimal gland
• lateral to eye
• secretes tears
•Tears contain mucous,
antibodies, lysozyme
(anti-bacterial)
• nasolacrimal duct
• collects from lacrimal
sac
• empties tears into
nasal cavity
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External Eye Structures
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Structure of the Eye
• hollow
• spherical
• wall has 3 layers
• outer fibrous tunic
• middle vascular tunic
• inner nervous tunic
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Outer Tunic
Cornea
• anterior portion
• transparent
• light transmission
• light refraction
Sclera
• posterior portion
• opaque
• protection
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Middle Tunic
Iris
• anterior portion
• pigmented
• controls light
intensity
Ciliary body
• anterior portion
• pigmented
• holds lens
• moves lens for
focusing
Choroid coat
• provides blood supply
• pigments absorb extra light
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Anterior Portion of Eye
• filled with aqueous humor
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Lens
• transparent
• biconvex
• lies behind iris
• elastic
• held in place by
suspensory ligaments of
ciliary body
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Ciliary Body
• forms internal ring around front of eye
• ciliary processes – radiating folds
• ciliary muscles – contract and relax to move lens
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Accommodation
• changing of lens shape to view objects
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Iris
• composed of
connective tissue
and smooth muscle
• pupil is hole in iris
• dim light - radial
muscles cause pupil
to dilate
• bright light - circular
muscles cause pupil
to constrict
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Aqueous Humor
• fluid in anterior cavity of eye
• provides nutrients
• maintains shape of anterior portion of eye
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Inner Tunic
• retina
•contains visual receptors
•continuous with optic nerve
•fovea centralis – center of macula lutea;
produces sharpest vision
• optic disc – blind spot; contains no visual
receptors
• vitreous humor – thick gel that holds retina
flat against choroid coat
•http://www.eschoolonline.com/company/examples/eye/eyedissect.html
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Posterior Cavity
• contains vitreous humor – thick gel that
holds retina flat against choroid coat
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Cataract – Lens
becomes cloudy
Macular Degeneration
- macula lutea in retina
deteriorates
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Eye as lens/optical device
Light path: Cornea Aqueous humor Pupil
Lens Vitreous humor Retina
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FOCUS
• Ciliary muscles in ciliary body pull on lens to focus far away
• Elasticity of lens brings back to close focus
• Thus, with age, less elasticity, no close focusfar-sighted
Changes in shape of pupil and lens are due to autonomic NS controlled muscles
(animation of lens
http://artsci.shu.edu/biology/Student%20Pages/Kyle%20Keenan/eye/lensmovementnrve.html)
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Visual Nerve Pathway
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Light Refraction
Refraction
• bending of light
• occurs when light waves pass at an oblique
angle into mediums of different densities
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Types of Lenses
Convex lenses cause
light waves to
converge
Concave lenses
cause light waves to
diverge
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Clinical Application
Refraction Disorders
• concave lens corrects
nearsightedness (Myopia)
• convex lens corrects
farsightedness (Hyperopia)
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Stereoscopic Vision
• provides
perception of
distance and
depth (3D)
• results from
formation of two
slightly different
retinal images
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Focusing On Retina
•image focused on retina is upside down and
reversed from left to right
•Processing by the brain results in the image
appearing in correct position
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Human Anatomy, Frolich, Head II: Throat/Larynx
Retina and
photoreceptors
M&M, fig. 16.10
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Visual Receptors
Rods
• long, thin projections
• contain light sensitive
pigment called rhodopsin
• hundred times more
sensitive to light than cones
• provide vision in dim light
• produce colorless vision
• produce outlines of objects
Neurons have specialized receptors at end with “photo
pigment” proteins
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Visual Receptors
Cones
• short, blunt projections
• contain light sensitive
pigments called erythrolabe,
chlorolabe, and cyanolabe
• provide vision in bright light
• produce sharp images
• produce color vision
Neurons have specialized receptors at end with “photo
pigment” proteins
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Visual Pigments
Rhodopsin
• light-sensitive pigment in rods
• decomposes in presence of light
erythrolabe – responds to red
chlorolabe – responds to green
cyanolabe – responds to blue
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Hearing
Ear – organ of hearing
Receptor type - Mechanoreceptors
Three Sections
• External – collects sound
• Middle – transmits and amplifies sound
• Inner – senses sound and equilibrium
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External Ear
• auricle
• collects sounds waves
• external auditory meatus
• lined with ceruminous
glands
• carries sound to
tympanic membrane
• tympanic membrane
• “ear drum”
•vibrates in response to
sound waves
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Middle Ear
• tympanic cavity
•air-filled space in temporal
bone
• auditory ossicles (bones)
• vibrate in response to tympanic
membrane
• malleus, incus, and stapes are
smallest bones in the body
• oval window
• opening in wall of tympanic
cavity
• stapes vibrates against it to
move fluids in inner ear
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Auditory Tube
• eustachian tube
• connects middle ear
to throat
• helps maintain equal
pressure on both sides
of tympanic membrane
• usually closed by
valve-like flaps in
throat
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Inner Ear
• complex system of
labyrinths (maze) • osseous labyrinth
• bony canal in temporal
bone
• filled with perilymph
• membranous labyrinth
• tube within osseous
labyrinth
• filled with endolymph
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Inner Ear
Three Parts of Labyrinths
1. cochlea
• functions in
hearing
2. semicircular canals
• functions in
equilibrium
3. vestibule
• functions in
equilibrium
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• Spiral organ is receptor epithelium for hearing
• Stapes makes contact with oval window on cochlea
• Vibrations from stapes transferred to fluid within the
cochlea
Cochlea
how it works
In figure shown
uncoiled, in life
is spiral in
shape
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• Basilar membrane running down middle
– different frequencies of vibration move different parts of
basilar membrane
– Thicker at start, vibrates with lower sounds
– Thinner at end, vibrates at higher sound
Cochlea
how it works
In figure shown
uncoiled, in life
is spiral in
shape
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Organ of Corti
Organ of Corti is on
upper surface of basilar
membrane
• Contains hearing
receptor cells called hair
cells
• Particular sound
frequencies cause hairs
of receptor cells to bend
• Bending of hairs causes
nerve impulse generated
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Equilibrium
2 Types: Static Equilibrium
• sense position of head when body is
not moving
•Ex: nodding head yes or no
Dynamic Equilibrium
•sense rotation and movement of head
and body
•Ex: Cheerleader turning flips
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Static Equilibrium
Detected in Utricle
and Saccule • Contains gelatin
material that contains
rock-like crystals of
calcium carbonate called
Otoliths
• Has hair cells called
Mucula
• Movement of otoliths in
fluid against macula
stimulates nerve
impulses
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Dynamic Equilibrium
Detected by
Semicircular Canals
•Crista ampullaris-
sensory organ in
bulging part called
ampulla
• Contains hair cells
• Rapid turns of
head or body moves
fluid in canals and
stimulates hair cells
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ONE FINAL QUESTION?
What similar feature do
all the special sensory
organs have in
common?
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71
Life-Span Changes
Age related hearing loss due to
• damage of hair cells in organ of Corti
• degeneration of nerve pathways to the brain
• tinnitus
Age-related visual problems include
• dry eyes
• floaters (crystals in vitreous humor)
• loss of elasticity of lens
• glaucoma
• cataracts
• macular degeneration
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EXTRAS
Human Anatomy, Frolich, Head II: Throat/Larynx
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Human Anatomy, Frolich, Head II: Throat/Larynx
Support of Eye--conjunctiva • Mucous membrane that coats inner
surface of eyelid (palpebral part) and then folds back onto surface of eye (ocular part)
• Thin layer of connective tissue covered with stratified columnar epithelium
• Very thin and transparent, showing blood vessels underneath (blood-shot eyes)
• Goblet cells in epithelium secrete mucous to keep eyes moist
• Vitamin A necessary for all epithelial secretions—lack leads to conjunctiva drying up—”scaly eye”
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Details: Retina and photoreceptors
• Retina is outgrowth of brain
• Neurons have specialized receptors at end with “photo pigment”
proteins (rhodopsins)
– Rod cells function in dim light, not color-tuned
– Cone cells have three types: blue, red, green
– In color blindness, gene for one type of rhodopsin is deficient, usually red
or green
• Photoreceptors sit on pigmented layer of choroid. Pigment from
melanocytes--melanoma possible in retina!!
• Axons of photoreceptors pass on top or superficial to photoreceptor
region
• Axons congregate and leave retina at optic disc (blind spot)
• Fovea centralis is in direct line with lens, where light is focused most
directly, and has intense cone cell population (low light night vision
best from side of eye)
• Blood vessels superficial to photoreceptors (retina is good sight to
check for small vessel disease in diabetes)
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Human Anatomy, Frolich, Head II: Throat/Larynx
• Outer Ear: auricle is elastic cartilage attached to dermis, gathers sound
• Middle ear: ear ossicles transmit and modulate sound
• Inner ear: cochlea, ampullae and semicircular canals sense sound and
equilibrium
Ear/Hearing
M&M, fig. 16.17
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Human Anatomy, Frolich, Head II: Throat/Larynx
Middle Ear • External auditory canal ends
at tympanic membrane
which vibrates against
malleus on other side
• Inside middle ear chamber
– malleusincus stapes
which vibrates on oval window
of inner ear
• Muscles that inhibit vibration
when sound is too loud
– Tensor tympani m. (inserts on
malleus)
– Stapedius m. (inserts on
stapes)
M&M, fig. 16.19
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Human Anatomy, Frolich, Head II: Throat/Larynx
Inner Ear/Labyrinth
• Static equilibrium, linear motion
– Utricle, saccule are egg-shaped sacs in center (vestibule) of labyrinth
• 3-D motion, angular acceleration
– 3 semicircular canals for X,Y,Z planes
• Sound vibrations
– Cochlea (“snail”)
M&M, fig. 16.20
Auditory Nerve (Acoustic) VIII receives stimulus from all to brain
Vestibular n.—equilibrium Cochlear n.—hearing