Chapter 15 EYES PDF

Summary

This presentation provides an overview of the human eye's anatomy and physiology. It covers the external and internal structures, functions, and associated nerves and muscles. The presentation details important components including the cornea, lens, retina, and visual pathways.

Full Transcript

Chapter 15
EYES
External Anatomy
 Bony orbital cavity surrounded by cushion of fat protects
eye
 Palpebral fissure:
 Elliptical open space between eyelids
 Lower lid margin, at limbus, borders between cornea
and sclera
 Canthus: corner of eye, angle where lids meet
Inner canthus: caruncle is small fleshy mass
containing sebaceous glands
 Tarsal plates
 contain meibomian glands, which are modified
sebaceous glands that secrete an oily lubricating
material onto lids
External Anatomy
3
 Conjunctiva
Transparent protective covering of the eye
 Cornea
covers and protects the iris and pupil
 Lacrimal apparatus
provides irrigation to the eye
External Anatomy of the Eye
Extraocular Muscles
 Six muscles attach eyeball to its orbit and direct eye to points of
a person’s interest
 Give eye both straight and rotary movement
 Each muscle is coordinated, or yoked, with one in other eye
ensuring that when two eyes move, their axes always
remain parallel, called conjugate movement
Four straight, or rectus, muscles are superior, inferior,
lateral, and medial rectus muscles
Two slanting, or oblique, muscles are superior and
inferior muscles
 Parallel axes are important because human brain has a
binocular, single-image visual system
Extraocular Muscles
 Movement of the extraocular muscles
stimulated by three cranial nerves
Cranial nerve VI: abducens nerve, innervates
lateral rectus muscle, which abducts eye
Cranial nerve IV: trochlear nerve, innervates
superior oblique muscle
Cranial nerve III: oculomotor nerve,
innervates all the rest: the superior, inferior,
and medial rectus and the inferior oblique
muscles
Muscle Attachments
Direction of Movement
Internal Anatomy
 Eye: a sphere of three concentric coats
Outer fibrous sclera
Middle vascular choroid
Inner nervous retina
Inside retina is transparent vitreous body.
Only parts accessible to examination are
sclera anteriorly and retina through
ophthalmoscope.
Three Concentric Coats
Internal Anatomy: Outer Layer
 Sclera: tough, protective, white covering
 Continuous anteriorly with smooth, transparent cornea,
which covers iris and pupil
 Cornea: part of refracting media of eye, bending incoming light
rays so that they will be focused on inner retina
 Corneal reflex—contact with a wisp of cotton stimulates a
blink in both eyes
 Trigeminal nerve, cranial nerve V, carries afferent sensation
into brain.
 Facial nerve, cranial nerve VII, carries efferent message that
stimulates blink.
Internal Anatomy: Middle Layer
 Choroid: has dark pigmentation to prevent light from
reflecting internally and is heavily vascularized to
deliver blood to retina
functions as a diaphragm, varying opening at its
 Iris:
center, the pupil
 Muscle fibers of iris contract pupil in bright light and
to accommodate for near vision
 Dilate pupil when light is dim and for far vision
Internal Anatomy: Middle Layer
 Pupil:round and regular; size determined by balance
between parasympathetic and sympathetic chains of
autonomic nervous system
 Stimulation of parasympathetic branch, through
cranial nerve III, causes constriction of pupil
 Stimulationof sympathetic branch dilates pupil and
elevates eyelid
 Pupil size also reacts to amount of ambient light
and to accommodation or focusing an object on
retina
Internal Anatomy: Middle Layer

 Lens: biconvex disc located just posterior to pupil
 Transparent; it serves as a refracting medium, keeping a
viewed object in focus on retina
 Anteriorand posterior chambers contain clear, watery
aqueous humor produced continually by ciliary body
Continuous flow of fluid serves to deliver nutrients to
surrounding tissues and to drain metabolic wastes
 Intraocularpressure determined by balance between
amount of aqueous produced and resistance to outflow
Internal Anatomy: Inner Layer
 Retina:the visual receptive layer of eye where light
waves change into nerve impulses
 Retinal structures viewed through ophthalmoscope
are optic disc, retinal vessels, general background,
and macula
 Optic disc: area in which fibers from retina converge to
form optic nerve
 Located toward nasal side of retina, it has
characteristics specific to color, shape and margins
Internal Anatomy: Inner Layer
16
 Retinal vessels: normally include a paired
artery and vein extending to each quadrant
 Macula: located on temporal side of fundus
Slightlydarker pigmented region
surrounding fovea centralis, area of
sharpest and keenest vision
Receives and transduces light from center
of visual field
Visual Pathways and Visual Fields
 Light rays are refracted through transparent media, the cornea,
aqueous humor, lens, and vitreous body, striking the retina
 Retinatransforms light stimulus into nerve impulses
conducted to visual cortex
Image formed on retina is upside down and reversed
All
retinal fibers collect to form optic nerve but maintain
same spatial arrangement
At optic chiasm, fibers from both visual fields cross over
Left optic tract now has fibers from left half of each retina,
and right optic tract contains fibers only from right; thus,
right side of brain looks at left side of the world
Visual Pathways
Visual Reflexes
 Pupillarylight reflex: normal constriction of pupils
when bright light shines on retina
 Subcortical reflex arc with no conscious control
 Fixation: a reflex direction of eye toward an object
attracting a person’s attention
 Image fixed in center of visual field, the fovea
centralis
Visual Reflexes 20
 Accommodation: adaptation of eye for near vision
 Accomplishedby increasing curvature of lens
through movement of ciliary muscles
 Although lens cannot be observed directly, the
following components of accommodation can be
observed:
Convergence (motion toward) of the axes of the
eyeballs
Pupillary constriction
Developmental Competence:
Aging Adults
 Changes in eye structure  loss of elasticity, fat &
muscle tissue atrophy &decreased tear production
 Presbyopia
 Lens loses elasticity, becoming hard and glasslike,
which decreases ability to change shape to
accommodate for near vision by age 40 to 45
 Visual acuity may diminish gradually after age 50, and
more so after age 70
 Floaters appear from accumulation of debris
Developmental Competence:
Aging Adults
 Most common causes of decreased visual
functioning in older adults are the following:
Cataract formation
Lens opacity, resulting from a clumping of
proteins in lens
Diabetic retinopathy (DR)
Oxidative damage & inflammation of the
retina leading to blindness
Developmental Competence:
23
Aging Adults
 Glaucoma
Increased intraocular pressure leading to
optic nerve compression
 Age-related macular degeneration (AMD)
Degeneration of cells in macula of retina leading
to loss of central vision
Genetics and Environment
 Culturally based variability present in color of
iris and retinal pigmentation
 By age 80, most individuals in the US
have cataracts or have had cataract
surgery
Family history & environment are risk
factors
 Glaucoma incidence increases with age.
Black Americans 40 years & older are at
highest risk, followed by Hispanic/Latinos &
Whites (NIH, 2021)
Genetics and Environment
 Age-related macular degeneration
Increase seen in White Americans over the
age of 75 (NIH,2021)
Diet & smoking are modifiable risk factors
 Visual impairment (VI)
Not being able to see letters on the eye
chart at line 20/40 or below (NIH, 2021)
Genetics and Environment
26
 Due to uncorrected refractive error
 Mostcommon eye problems in children
uncorrected refractive errors
(nearsightedness, farsightedness &
astigmatism)
Visual screening is crucial to detect
strabismus (“cross-eye”) & amblyopia
(“lazy eye”)
Subjective Data
 Vision difficulty: decreased acuity, blurring,
blind spots
 Pain
 Strabismus, diplopia
 Redness, swelling
 Watering, discharge
Subjective Data 28

 History of ocular problems
 Glaucoma
 Use of glasses or contact lenses
 Patient-centered care
 Terms:
Myopia – Near sighted
Hyperopia – Far sighted
Vision Difficulty Questions
 Anydifficulty seeing or any blurring? Blind
spots? Come on suddenly or slowly? One eye
or both?
 Constant, or does it come and go?
 Doobjects appear out of focus or clouding of
objects?
 Do
spots move in front of your eyes? One or
many? In one or both eyes?
Vision Difficulty Questions 30

 Any halos, rainbows, rings around objects?
 Any blind spot? Does it move as you shift your
gaze? Any loss of peripheral vision?
 Any night blindness?
Pain Questions
 Any eye pain? Please describe.
 Come on suddenly?
 Quality:
burning or itching? Or sharp, stabbing
pain; pain with bright light?
A foreign body sensation? Or deep aching? Or
headache in brow area?
Strabismus, Diplopia, Redness, and
Swelling
 Strabismus, diplopia: Any history of crossed
eyes? Now or in the past? Does this occur with
eye fatigue?
Ever see double? Constant, or does it come
and go? In one eye or both?
 Redness, swelling
Any redness or swelling in eyes?
Any infections? Now or in past? When do
these occur? In a particular time of year?
Watering, Discharge and Past
History
 Watering, discharge
 Any watering or excessive tearing?
 Any discharge? Any matter in the eyes? Is it hard to
open your eyes in the morning? What color is the
discharge?
 How do you remove matter from eyes?
 Past history of ocular problems
 Any history of injury or surgery to eye? Any history
of allergies?
Glaucoma, Eyeglasses, and Contact Lenses

 Glaucoma
 Have you ever been tested for glaucoma? What were the
results?
 Do you have any family history of glaucoma?
 Use of glasses or contact lenses
 Do you wear glasses or contact lenses? How do they work for
you?
 Last time your prescription was checked? Was it changed?
 Ifyou wear contact lenses, are there any problems such as
pain, photophobia, watering, or swelling?
 How do you care for contacts? How long do you wear them?
How do you clean them? Do you remove them for certain
activities?
Patient-Centered Care
 Last vision test? Ever tested for color?
 Anyenvironmental conditions at home or at
work that may affect your eyes? If so, do you
wear goggles to protect your eyes?
 What medications are you taking? Systemic or
topical? Any specifically for eyes?
Patient Centered Care
36
 Do you smoke?
 Ifyou have experienced a vision loss, how do
you cope? Do you have books with large print,
books on audio tape, braille?
 Do you maintain living environment the same?
 Do you sometimes fear complete loss of
vision?
Additional History for Aging Adults
 Have you noticed any visual difficulty with climbing stairs or
driving? Any problem with night vision?
 When was last time tested for glaucoma?
 Any aching pain around eyes? Any loss of peripheral
vision?
 If you have glaucoma, how do you manage your
eyedrops?
 Is there history of cataracts? Any loss or progressive blurring
of vision?
 Do your eyes ever feel dry or burning? What do you do for
this?
 Any decrease in usual activities, such as reading or sewing?
Objective Data
 Preparation
 Position a person standing for vision screening;
then sitting up with head at your eye level.
 Equipment needed:
 Snellen eye chart
 Handheld visual screener
 Opaque card or occluder
 Penlight
 Ophthalmoscope
 Applicator stick (occasionally)
Test Near Vision
 For those who report increasing difficulty reading
 Test near vision with handheld vision screener with various
sizes of print (e.g., a Jaeger card)
 Hold card in good light about 35 cm (14 inches) from the
eye; this distance equals print size on 20-foot chart
 Test each eye separately, with glasses on
 Normal result is “14/14” in each eye, read without hesitancy
and without moving card closer or farther away
 When no vision screening card is available, ask the person
to read from a magazine or newspaper
 Confrontation Test
 Gross measure of peripheral vision; compares
the person’s peripheral vision with yours
 We do not perform this test
Corneal Light Reflex
 Also known as the Hirschberg test
 Assess parallel alignment of eye axes by shining a
light toward the person’s eyes
 Direct the person to stare straight ahead as you hold
the light about 30 cm (12 inches) away
 Note reflection of light on corneas; should be in
exactly same spot on each eye
Diagnostic Positions Test
 Leading patient through six
cardinal positions of gaze:
Follow movement of
penlight or object
proceeding clockwise
Assess for potential
EOM muscle weakness,
nystagmus, or lid lag
General Inspection and Eyebrows
 General
 Already you will have noted the person’s ability to
move around room, with vision functioning well
enough to avoid obstacles and to respond to your
directions
 Alsonote facial expression; relaxed expression
accompanies adequate vision
 Eyebrows
 Look for symmetry between the two eyes
 Normally eyebrows are present bilaterally, move
symmetrically as expression changes, and have no
scaling or lesions
Eyelids, Lashes, and Eyeballs
 Eyelids and lashes
 Upper lids normally overlap superior part of iris,
and approximate completely with lower lids when
closed
 Note that eyelashes are evenly distributed along lid
margins and curve outward
 Eyeballs
 Eyeballs are aligned normally in their sockets with
no protrusion or sunken appearance
 Blacks normally may have slight protrusion of
eyeball beyond supraorbital ridge
Conjunctiva and Sclera
 Ask the person to look up; using thumbs, slide lower
lids down along orbital rim, being careful not to push
against eyeball
 Inspectexposed area; eyeball should look moist
and glossy
 Numerous small blood vessels normally show
through transparent conjunctiva
 Otherwise, conjunctivae clear and show normal color
of structure below; pink over lower lids and white over
sclera
 Note any color change, swelling, or lesions
 Be aware of ethnic variations
Lacrimal Apparatus
 Ask the person to look down; with thumbs, slide outer
part of upper lid up along bony orbit to expose under
lid; inspect for any redness or swelling
 Normally puncta drain tears into lacrimal sac
 Presenceof excessive tearing may indicate
blockage of nasolacrimal duct
 Check by pressing index finger against sac, just inside
lower orbital rim, not against side of the nose
 Pressurewill slightly evert lower lid, but there should
be no other response to pressure
Cornea and Lens
 Shinelight from side across cornea, and check
for smoothness and clarity
Oblique view highlights any abnormal
irregularities in corneal surface
 Thereshould be no opacities (cloudiness) in
cornea, anterior chamber, or lens behind the
pupil
Do not confuse an arcus senilis with an
opacity; arcus senilis is normal finding in
aging persons
Iris and Pupil
 Iris normally appears flat, with round regular shape and even
coloration
 Note size, shape, and equality of pupils; normally pupils
appear round, regular, and of equal size in both eyes
 To test pupillary light reflex
 Darken room and ask person to gaze into distance; this
dilates pupils; advance a light in from side and note
response
 Normally you will see constriction of same-sided pupil (a
direct light reflex) and simultaneous constriction of the other
pupil (a consensual light reflex)
 In acute care setting, pupil size is measured in millimeters
before and after the light reflex
Iris and Pupil
 Test for accommodation by asking the person to focus
on a distant object
 This dilates pupils; then have the person shift gaze
to near object, such as your finger held about 7 to 8
cm (3 inches) from nose
 Normal response includes
 pupillary constriction
 convergence of axes of eyes
 Record normal response to all these maneuvers as
PERRLA, or Pupils Equal, Round, React to Light, and
Accommodation
Inspection of Ocular Fundus
 Ophthalmoscope enlarges view of eye
 We do not perform this inspection
 Inspection of Optic Disc
 Mostprominent landmark is optic disc, located
on nasal side of retina; one half disc diameter
 We do not perform this examination
Retinal Vessels
 Only place in body where you can view blood vessels directly
 Many systemic diseases that affect vascular system show
signs in retinal vessels
 Follow a paired artery and vein out to periphery in four
quadrants, noting these points:
 Number: paired artery and vein pass to each quadrant;
vessels look straighter at nasal side
 Color: arteries brighter red than veins; also have arterial light
reflex, with thin stripe of light down middle
 A:V ratio: ratio comparing artery-to-vein width is 2:3 or 4:5
 Caliber: arteries and veins show a regular decrease in
caliber as they extend to periphery
Eversion of the Upper Eye Lid
 Used when one suspects foreign body or eye
pain
 Procedure may cause apprehension; therefore,
use directed, deliberate approach.
Multi-step procedure using applicator stick
 Inspect
for color change, swelling, lesion, or
evidence of foreign body
Developmental Competence
 Aging adult
 Visual acuity
Perform same examination as described in adult section
Central acuity may decrease, particularly after 70 years
of age; peripheral vision may be diminished
 Ocular structures
Eyebrows may show loss of outer one third to one half of
hair because of decrease in hair follicles; remaining brow
hair is coarse
As a result of atrophy of elastic tissues, skin around eyes
may show wrinkles or crow’s feet; upper lid may be so
elongated as to rest on lashes, resulting in pseudoptosis
Developmental Competence
 Aging adult
 Ocular structures
Eyes may appear sunken from atrophy of orbital
fat; orbital fat may herniate, causing bulging at
lower lids and inner third of upper lids
Lacrimal apparatus may decrease tear
production, causing eyes to look dry and
lusterless and the person to report a burning
sensation
Pingueculae commonly show on sclera
Developmental Competence
 Aging adult
 Ocular structures
 Cornea may look cloudy with age
 Arcus senilis is commonly seen around cornea.
 Gray-white arc or circle around limbus due to deposition of lipid
material
 As more lipids accumulate, cornea may look thickened and
raised, but arcus has no effect on vision
 Xanthelasma: soft, raised yellow plaques occurring on lids at inner
canthus
 They commonly occur around fifth decade of life and more
frequently in women, occur with both high and normal levels of
cholesterol, and have no pathologic significance
Developmental Competence
 Aging adult
 Ocular structures
 Pupils small in old age; pupillary light reflex may be slowed
 Lens loses transparency and looks opaque
 Ocular fundus
 Retinal structures generally have less shine; blood vessels
look paler, narrower, and attenuated; arterioles appear paler
and straighter, with a narrower light reflex
 Drusen,or benign degenerative hyaline deposits, are normal
development on retinal surface
 Often symmetrically placed in eyes with no effect on
vision
Abnormal Findings:
Extraocular Muscle Dysfunction
 Asymmetric corneal light reflex
 Strabismus

Esotropia—inward turning of eye
Exotropia—outward turning of eye
 Cover test
 Uncovered eye
 Covered eye
 Diagnostic positions test
 Paralysis indicates cranial nerve dysfunction.
Abnormal Findings: EyeLid Abnormalities
 Periorbital edema
 Exophthalmos (protruding eyes)
 Enophthalmos (sunken eyes)
 Ptosis (drooping upper lid)
 Upward palpebral slant
 Ectropion (eversion)
 Entropion (inversion)
Abnormal Findings:
Lesions on the Eyelids

 Blepharitis (inflammation of the eyelids)
 Chalazion
 Hordeolum (stye)
 Dacryocystitis (inflammation of the lacrimal
sac)
 Basal cell carcinoma
Pupil Abnormalities
 Unequal pupil size—Anisocoria
 Monocular blindness
 Constricted and fixed pupils—Miosis
 Dilated and fixed pupils—Mydriasis
 Argyll Robertson pupil
 Tonic pupil (Adie’s pupil)
 Cranial nerve III damage
 Horner’s syndrome
Abnormal Findings: Visual Field

 Retinal damage
Macula central blind area (e.g.,
Diabetes)
Localized damage (Blind spot – scotoma)
Increasingintraocular pressure
(Glaucoma)
Retinal detachment (shadow or diminished
Vision
Abnormal Findings: Visual Field Loss
 Lesion in globe or optic nerve
 one blind eye or unilateral blindness
 Lesion at optic chiasm
 pituitary tumor
 Lesion of outer uncrossed fibers at optic chiasm
 aneurysm
 Lesion R optic tract or R optic radiation

* Depending on nature of damage differences in
visual field losses will occur
Abnormal Findings:
Red Eye—Vascular Disorders
Conjunctivitis
Allergic conjunctivitis
Iritis (circumcorneal redness)
Primary angle-closure glaucoma (PACG)
Subconjunctival hemorrhage
Herpes simplex virus (HSV)
Abnormal Findings:
Cornea and Iris
 Pterygium
 Corneal abrasion
 Normal anterior chamber (for contrast)
 Shallow anterior chamber
 Hyphema
 Hypopyon
Abnormal Findings: Opacities in the Lens

Central gray
opacity—nuclear
cataract
Abnormal Findings: Opacities in the Lens

Star-shaped
opacity—cortical
cataract
Abnormal Findings
 Optic disc abnormalities
Optic atrophy (disc pallor)
Papilledema (choked disc)
Excessive cup-disc ratio
Abnormal Findings 69
 Retinal vessels and background
Arteriovenous crossing (Nicking)
Narrowed (attenuated) arteries
Diabetic retinopathy (DR)
Moderate nonproliferative
Severe nonproliferative
Proliferative