Alterations in Special Sensory Func

Alterations in Special Sensory Functions

The Ear
•The ear is the primary structure for hearing and balance.
–Disorders and injuries can leave a person unable to:
•Communicate
•React
•Maintain equilibrium
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Anatomy and Physiology of the Ear
•Divided into three anatomic parts

Anatomy and Physiology of the Ear
•Sound waves enter the ear.
–Travel to the tympanic membrane.
–Sound waves set up vibration in the ossicles.
–Vibrations transmit to the cochlear duct.
–At organ of Corti, vibrations form impulses.
–Travel to the brain via the auditory nerve.
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Hearing Sensitivity Loss
“The ear is not as sensitive as normal in detecting sound”

●Types:

• Conductive
• Sensorineural
• Mixed

Conductive Hearing Loss
“Caused by an abnormal reduction or attenuation of sound as it travels from the outer ear to the cochlea”








An audiogram of a bilateral conductive hearing loss



Conductive Hearing Loss
Differences in the air-bone gap across different types of hearing loss

Sensorineural Hearing Loss
“Caused by a failure in the cochlea to transduce the sound from the middle ear to neural impulses in the VIII Nerve.”

Implications include:

•A reduction in the sensitivity of the receptor cells in the cochlea
•A reduction in the frequency resolving power of the cochlea
•A reduction in the dynamic range of the system


Sensorineural Hearing Loss
An audiogram of a bilateral sensorineural hearing loss

Sensorineural Hearing Loss
Differences in the air-bone gap across different types of hearing loss
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Mixed Hearing Loss
“A loss with both a conductive and sensorineural component.”







An audiogram of a bilateral mixed hearing loss



Mixed Hearing Loss
Differences in the air-bone gap across different types of hearing loss

Perforated Tympanic Membrane
•Ruptured eardrum
•Results from:
–Foreign bodies in the ear
–Pressure-related injuries
–Diving-related injuries
•Assessment and management
–Signs and symptoms include:
•Loss of hearing
•Blood drainage from the ear
•Pain
–Assess and treat other injuries.
–Transport for evaluation.

Otitis Externa and Media
•Infection resulting from bacterial growth in the ear canal
–Externa: outer ear
–Media: middle ear
•More common in children than adults
Meniere Disease
•Endolymphatic rupture creates increased pressure in the cochlear duct
–Damages organ of Corti and semicircular canal
–Patients will likely experience:
•Severe vertigo
•Tinnitus
•Sensorineuronal hearing loss
Meniere Disease
•Assessment and management
–Prehospital care includes an antiemetic.
–Physician may treat with diuretics and an antiemetic.
Anatomy and Physiology of the Eye

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Anatomy of the Eye

Anatomy and Physiology of the Eye
•The globe measures about 1 inch in diameter.
–Housed within the orbit
–Held in place by connective tissue and muscles
•Control eye movement
•Oculomotor nerve (third cranial nerve)
–Cause motion of the eyeballs and upper eyelids
•Optic nerve (second cranial nerve)
–Provides the sense of vision

Anatomy and Physiology of the Eye
•Eye structures
–Sclera (“white of the eye”)
–Cornea
–Conjunctiva
–Iris

–Pupil
–Lens
–Retina
•Converts light impulses to nerve signals

Anatomy and Physiology of the Eye
•Anterior chamber: between lens and cornea
–Filled with aqueous humor
•Posterior chamber: between iris and lens
–Filled with vitreous humor
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External Fibrous Layer
•Sclera
–“white of eye’
•Protective & supportive outer layer
•Cornea
–Dense fibrous connective tissue
•Must be transparent to allow light



•When you look at the visible parts of a human eye, there are a number of parts that you would already be familiar with.
•Eyelids: The top and bottom eyelids protect the eye.
•Eyelashes: These are hairs that grow on the eyelids that prevent dust and dirt from entering the eye. They also sensitive to touch, much like the whiskers on a dog or cat.
•Conjunctiva: The conjunctiva is the clear, thin layer that covers the eyeball and the eyelid. There are 2 parts to the conjunctiva:
•Bulbar conjuctiva – covers the front of the eyeball
•Palpebral conjuntiva – covers the inside of eyelids
•Punctum: The punctum is an opening that leads to the tear duct system. It allows tears to drain into the nose (which is what causes your nose to run when you cry).

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Middle Vascular Layer
•Heavily pigmented
•Blood vessels


•Sclera: The ‘white of the eye’, known as the sclera, is made up of in elastic collagen fibres and some elastic tissue. As a result, the sclera is very strong and like the outer skin of a basketball, gives the eye its’ shape.
•Cornea: made up of inelastic collagen fibres and some elastic tissue. It allows light to enter the eye and is a vital part of the optics of the eye. The cornea is a transparent cover over the coloured iris and the pupil and acts like the ‘window of the eye’.
•Limbus: is the circle that is where the white sclera connects to the transparent cornea.
•Iris and Pupil: The Iris and Pupil are the parts that allow light in. Muscles in the iris change the size of the pupil. Together, these parts act like the aperture on a camera allowing more or less light through depending on the amount of available light.
•Lens: The lens is positioned behind the iris and pupil. In a normal eye, the lens is flexible and transparent. It is the lens’s ability to change shape that permits humans to focus on objects that are at various distances from the eye. A cataract is a common eye disease that involves clouding of the lens.
•Ciliary Muscle: The muscle that controls the shape of the lens is called the ciliary muscle.
•Aqueous: The aqueous is a watery liquid that fills the space at the front of the eye between the cornea and the lens.
•Vitreous: The vitreous is a clear gel that occupies interior space of the eye. The vitreous is what gives the eye its’ shape just like the air inside a football.
•Retina: The retina is the layer of light sensitive nerve cells at the back of the eye. The retina catches the light passing through the iris and the lens and converts this light into nerve messages.
•Macula: The macula is the slight depression at the centre of the retina that provides a sharper image than peripheral areas. Macular oedema is a common eye condition in diabetic people where there is loss of vision due to swelling of the macula.
•Optic Nerve: The optic nerve is the pathway that carries the image on the retina to the brain which ‘processes’ the image.Eyes are organs that sense light. Almost all living things sense light in some way. Plants need to sense light for photosynthesis. Animals need sense light in order to hunt prey or escape from predators.

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Inner Layer
•Retina
–Continuous with optical nerve in rear
–Ora serrata in front
–Two parts
•Outer part-pigmented-attached to choroid layer
•Inner part is nerve tissue

Optic nerve
Macula
(fovea in centre)
Retinal blood vessels

The retina
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•Eyelids
–Tarsal glands secrete oil to lubricate
•Lacrimal glands – outer edge of eye socket
–Secretes tears to clean & protect
•Aqueous humor – between cornea & lens
–Salty clear fluid

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Retina
•Thin membrane lining rear of eye
•Contains light sensitive cells
•Rods & cones
–Rods are sensitive to light
•120 million rods
–Cones are sensitive to colors
•6 million cones









•The rods are most sensitive to light and dark changes, shape and movement and contain only one type of light-sensitive pigment. Rods are not good for color vision. In a dim room, however, we use mainly our rods, but we are "color blind." Rods are more numerous than cones in the periphery of the retina. Next time you want to see a dim star at night, try to look at it with your peripheral vision and use your ROD VISION to see the dim star. There are about 120 million rods in the human retina.
• The cones are not as sensitive to light as the rods. However, cones are most sensitive to one of three different colors (green, red or blue). Signals from the cones are sent to the brain which then translates these messages into the perception of color. Cones, however, work only in bright light. That's why you cannot see color very well in dark places. So, the cones are used for color vision and are better suited for detecting fine details. There are about 6 million cones in the human retina. Some people cannot tell some colors from others - these people are "color blind." Someone who is color blind does not have a particular type of cone in the retina or one type of cone may be weak. In the general population, about 8% of all males are color blind and about 0.5% of all females are color blind.
• The fovea,, is the region of the retina that provides for the most clear vision. In the fovea, there are NO rods...only cones. The cones are also packed closer together here in the fovea than in the rest of the retina. Also, blood vessels and nerve fibers go around the fovea so light has a direct path to the photoreceptors.
•One part of the retina does NOT contain any photoreceptors. This is our "blind spot". Therefore any image that falls on this region will NOT be seen. It is in this region that the optic nerves come together and exit the eye on their way to the brain.

Anatomy and Physiology of the Eye
•Light rays enter the eyes through the pupil.
–Focused by the lens
–Image is cast on the retina
–The optic nerve transmits the image to the brain.
–The visual cortex coverts it into a conscious image.
Anatomy and Physiology of the Eye
•Two types of vision
–Central vision
•Enables visualization of objects directly in front of you
–Peripheral vision
•Enables visualization of lateral objects while a person is looking forward
Anatomy and Physiology of the Eye
•Lacrimal apparatus
–Secretes and dr