Ophthalmic Surgery
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Transcript Ophthalmic Surgery
Ophthalmic Surgery
Surgery of the Eyes
Anatomy of the Eye
Bony Orbit – two
orbital cavities
7 bones form the
orbit
Maxilla
Palatine
Frontal
Sphenoid
Zygomatic
Ethmoid
Lacrimal
Anatomy of the Eye
Bony Orbit
Above – ant cranial fossa, frontal sinus
Medial – nasal cavity
Below – maxillary sinus
Laterally - middle cranial and temporal
fossae
Periosteum of bony orbit is continuous
with dura mater
Anatomy of the Eye
Contents of the
Bony Orbit
Eyeball
Muscles
Nerves
Vessels
Other nerves and
vessels of facial
area around socket
Lacrimal apparatus
Lacrimal gland-
lateral
Produces tears
and secretes
them through a
series of ducts
into the
conjunctival sac
Puncta -
medial- opening
Lacrimal apparatus
Lacrimal
canaliculi
Passage between
conjunctiva and
the Lacrimal sac
Nasolacrimal
duct
Directs to the
inferior meatus of
the nose
Conjunctiva
Thin transparent mucous membrane,
divided into two parts
Palpebral – lines back of eyelids, contains
the puncta
Bulbar - lines front of globe, allows sclera
to show through
Conjunctiva
Continuous at
limbus with anterior
epithelium of
cornea
Conjunctival sac,
with an opening in
front of eye
between margins of
eyelids called the
Palpebral fissure
Eyelids
Musculofibrinous folds
Protect globe and eye from light
Upper larger and more mobile
Canthi – medial and lateral angles on edge of
eye
Eyelids
Obicularis
oculi muscle
Circular
muscle acts
as a sphincter
Closes eye
Eyelids
Levator muscle
Opens upper lid
Innervated by the third cranial nerve and relaxing
of orbicular muscle
Eyelids
Layers of eyelid
Skin
Subcutaneous with
lymphatics
Muscles
Tarsal cartilage –
dense fibrous
tissue, forms the
framework of the
lids
Anchored by medial
and lateral
palpebral ligaments
Eyelids
Layers of eyelid
Cilia / eyelashes
Meibomian glands –
post to lashes
Secretes a
sebaceous
substance that
keeps the lids from
adhering to each
other
Punctum lacrimale –
near med edges of
each eyelid
Muscles of the Eye
Extrinsic –
inserted into
sclera by tendons
that arise from
back of orbit
(except the
Inferior oblique)
Work in pairs –
antagonistic
Muscles of the Eye
4 rectus – insert on
side - superior,
inferior, medial,
lateral
2 oblique – insert
on back – superior
and inferior
Muscles of the Eye
Muscles are supplied by the Cranial Nerves
3rd – oculomotor- all ocular muscles except
lateral rectus and superior oblique
4th – trochlear- superior oblique
6th – abducens- lateral rectus muscle
Eye Muscle Simulator
http://rad.usuhs.mil/rad/eye_simulator/e
yesim.htm
Includes a simulator on how eye
muscles work and how the cranial
nerves effect them
Globe
Eyeball or Oculus
O.D. - Oculus Dexter – right eye
O.S. – Oculus Sinister – left eye
Supported on a cushion of fat and fascia
Layers or Tunics
Corneoscleral
Cornea
Sclera
Choroid
Retina
External - Corneoscleral
Sclera - joins cornea at limbus
transitional zone
Opaque layer – white
Collatgenous fibers connected with fascia
Receives tendons
Pierced by ciliary arteries and nerves and
posteriorly by the optic nerve
Cornea
Clear, transparent
anterior portion of the
eye
Curvature enables it to
function as an
important refractive
medium
Continuous with the
sclera
Cornea
5 layers
Bowman's
membrane
Connective tissue
fibers
Forms a barrier to
trauma / infection
If damaged it does
not regenerate
and a permanent
scar is left
Cornea
5 layers
Stroma
90% of corneal
thickness
Multiple lamellar
fibers
Cornea
5 layers
Descemet’s
membrane
Thin membrane
between
endothelium and
substantia propria
(stroma)
Can become
inflamed and
herniate
Cornea
5 layers
Endothelium
Single layer of
cells that do not
regenerate
Responsible for
the proper state
of dehydration
that keeps the
cornea clear
Damage causes
corneal edema
and loss of
transparency
Choroid
Middle vascular
pigmented layer
Main source of
nourishment of
receptor cell and
pigment epithelial
layer of the retina
Choroid
Iris
Regulates light entering eye, assists with clear
images
Pupil is central opening
Retina
Thin transparent
membrane
Nerve fibers from
the retina converge
to become the optic
nerve (II)
Retina, cont.
Optic disk (blind
spot)- point at
which nerve enters
the eyeball
Optic nerve travels
to contralateral side
of brain
Retina, cont.
Sensory Retina
Pigment epithelium – single layer – for O2 and
nutrients
Photoreceptor cells
Macula Lutea – yellow spot, center of retina, 2mm
from optic disk
Fovea centralis – pit of closely packed cones in
center of the macula – highest resolution and
central vision.
Retina, cont.
Sensory Retina
Rods and cones
Cones- stimulated
by light of different
colors (color-vision)
Rods- responds to
dim light (nightvision)
Respond to light
energy and initiate
the neural response,
which goes to
occipital cortex for
interpretation
Humors
Fluid – gives shape
Aqueous- anterior
cavity – fills anterior
and posterior
chambers
Transparent fluid,
produced by the
cilliary body
Passes from the
posterior to the
anterior chamber,
then to the venous
system through the
canal of Schlemm
Humors
Fluid – gives shape
Vitrous (vitreous
body) – fills posterior
cavity (posterior to
lens)
Glasslike,
transparent,
gelatinous mass
99% water, 1%
collagen and
hyalurinic acid
fills 4/5ths of the
eyeball
Choroid
Ciliary body
(intrinsic muscle)
Extension of
choroidal blood
vessels, muscle
mass and extension
of neuroepithelium of
retina
Effects
accommodation
Secrets aqueous
humor
Choroid
Iris
(intrinsic muscle)
Thin membrane, is
the anterior portion of
the middle layer, and
is situated in front of
the lens
Peripheral border
attached to the ciliary
body
Divides space
between cornea and
lens
Choroid
Iris
Anterior
chamber
Posterior
chamber
Both filled with
aqueous
humor
Refraction of the Eye
Refractive media – bends light so rays
strike Macular area
Myopia- nearsightedness- light rays focus in front
of the retina
Hyperopia- farsightedness- light rays focus
behind the retina
Cornea - greatest refractive power – variations
change it’s power
Refraction of the Eye
Lens – suspended behind the pupillary
opening of the iris by the suspensory
ligament and zonular fibers which
expand and contract lens
(accommodation/focus)
Does not shed cells, cells become compressed
and hard.
Presbyopia- accommodation is lost with age as
lens loses elasticity – onset usually occurs
between age 40 to 45
Blood Supply
Ophthalmic artery – for orbit and globe,
from internal carotid
Divided into globe, muscle and eyelid
branches
Central retinal artery/vein through optic
nerve and serve inner retina
Pathology
Leading causes of visual impairment
and blindness
1st - Macular degeneration
2nd - Cataracts
3rd - Glaucoma
Pathology
Macular degeneration
(1st)
Leading cause of vision
impairment in persons
over 50
Degeneration in the
macular area of the
retina of the eye
This condition will not,
in itself, lead to total
blindness
Pathology
Macular degeneration (1st)
Can lead to loss of central vision, making it
difficult to read or do fine work
Have patient look at a grid with each eye
separately.
If central vision is impaired the lines will appear
wavy instead of straight
Pathology
Cataracts (2nd)
Opacification of the
lens
From Greek word,
means mist of a
waterfall
Common form results
from aging, but may be
congenital or caused
by infection, injury,
radiation exposure,
complication of
diabetes, and smoking
Pathology
Cataracts
Awareness and treatment goes back over
3,000 years
“Couching or reclination” tx practiced sporadically
from 2,000-1,000 BC until 1745
1745 Jacques Daviel, a French surgeon,
performed the first deliberate lens extraction on a
monk from a local monastery
18th century attempts to implant lenses were
unsuccessful
Pathology
Cataracts
Modern implants evolved from the observation in
WWII that noted a lack of reactivity to plastic
fragments from shattered plane canopies that
penetrated the eyes of fighter pilots
Pathology
Glaucoma (3rd)
Increased intraocular
pressure
Results in atrophy
of the optic nerve
Occurs when the
aqueous humor
drains from the eye
to slowly to keep up
with production
Pathology
Retinal disorders
Damage to the
sensory receiver of
light perception
Detached retina
(pictured)
Macular
degeneration
Diabetic
retinopathy
Pathology
Corneal transplant
First performed around 1817
Failed, as they used animal tissue
(xenograft) instead of human tissue
(allograft)
First to remain clear in 1905
1950 Ramone Castroviejo developed the
procedure, and promoted the donation of
eyes after death that resulted in the
formation of eye banks throughout the world
Pathology
Ametropia
Imperfect refractive powers of the eye in which
the principal focus does not lie on the retina, as in
myopia, hyperopia, and astigmatism
Pathology
Astigmatism
A form of ametropia in which the refraction of a
ray of light is spread over a diffuse area, rather
than sharply focused on the retina, due to
differences in the curvature in various areas of
the cornea and lens
Pathology
Aphakia - absence of the crystalline
lens of the eye
Aphakia with Soemmering's ring formation.
Patient Concerns
Preoperatively
Orient patient to environment (for visual
and/or hearing impairment)
Approach patient from non-affected side
If walking a patient into OR, offer your arm
to lead them instead of pulling them
Let them know desired results of eye
drops and sedation
Explain what to expect from anesthetic
Explain routine of intraoperative period
Patient Concerns
Preoperatively
Explain what to expect immediately after
surgery
They may be restless, have discomfort
and anxiety
There may be limitations in mobility and
prosthesis (positioning)
Ask about medical problems, general and
ophthalmic (i.e. Diabetes, glaucoma, etc.)
Ask about medications and allergies
Patient Concerns
Postoperatively
Give verbal and written instructions
regarding
Use of eye drops, other meds
Information on limitations on activities
(Awareness that vision with only one eye
interferes with depth perception, i.e. Going
down steps, driving, etc.)
Patient Concerns
Postoperatively
Give verbal and written instructions
regarding
Wound care
Signs and symptom of complications
Who to call with questions or concerns
Clinical appointment times or phone number
to schedule
Anesthesia
Understand that most surgery is under
local anesthesia
Should be quiet and peaceful
Most patients are sedated
There may be an O2 tube under drapes
Anesthesia
Topical
For cataract-extraction
May be supplemented with infiltration
anesthesia in anterior chamber
Infiltration
Injected beneath skin, subconjunctival or
into the Tenon capsule (thin connective
tissue envelope behind the conjunctiva
Anesthesia
Peribulbar (preferred)
Around soft tissue of globe with needle to
floor and roof of orbit
Retrobulbar
Injection into base of eyelids at the orbital
margins or behind the eyeball to block
ciliary ganglion
Injected 10-15 minutes prior to surgery to
paralyze extraocular muscles
Positioning
Supine
Stabilize head with 1” paper tape or other
head holding device
Protect bony prominences, provide
alignment to body
Prepping
If eyelashes are clipped, do before prepping
Spread water soluble lubricant on scissors to
catch hairs
May order 5% povodine-iodine on
conjunctiva
1 –2 drops on surface before prep - then rinse
with NS
Prepping
Cleanse eyelids of operative eye, lid margins,
lashes, eyebrows and surrounding skin
Lid margins cleaned by everting the lids and
cleaning with cotton-tipped applicator
moistened with disinfectant.
Don’t allow entry into eye or ear.
Irrigate with NS in irrigation bulb, should flow
medially to laterally
Draping
Eliminate lint and fiber particles
Water repellent
Adequate air exchange
Place Mayo stand above the patient’s
chest or face shield, drape over
Draping
Use one-piece fenestrated drape
Plastic, sticky around hole
ALT: head drape with fenestrated
plastic eye sheet
A fluid drainage bag with wicking strip
may be adhered to eye sheet
Surgical Needs
Be sure implants or prostheses are
present
Microscope drape or sterile handles
Field with lint-free barriers
Gloves lubricant free or wiped
Powder irritates the cornea
Surgical Needs
Instrument part used in wound not
touched with gloves
Debris cleaned with cellulose sponge
Meds instilled into eyes
Hold light pressure over lacrimal duct for 1
minute to prevent system absorption and
drying inner canthus after each drop
Surgical Needs
Let patient know what to expect from
meds.
Protect cornea after anesthetic instilled
to prevent damage
Need to irrigate eye regularly to prevent
corneal drying.
Know that pressure on eye/tension or
traction on ocular muscles can produce
bradycardia.
Instruments
Microscopic, nonreflective finish
Storage cases protect tips and cutting
surfaces
Inspect under magnifiers each time for
burrs, nicks, alignment
Clean with non fibrous sponge
Instruments
Know name and purpose of
instruments
Place on Mayo in order of use
Clean in ultrasonic with each not
touching another
Rinse and dry with blower, not cloth
Instruments
No instrument milk on irrigating
cannulas to prevent damage to eye
Do routine maintenance to sharpen,
realign, and adjust
Tonometer- instrument used for
measuring IOP
Instruments
Fixation forceps – hold tissue or
provide traction before incision
Angled tooth that overlaps for secure
fixation
Suturing forceps single toothed at right
angle
Tying forceps with flat platform to hold
suture
Suture
4-0 to 10-0
Handle as little as possible – prevent
weakening and fraying
Gut and collagen should be rinsed
before use
Needles are delicate, check for burrs
and handle carefully
Drugs
Alex- 669, 670 & 671
“Medications Used During Opthalmic
Surgery”
Table 18-1
Dressings
Prevent palpebral movements
Protect wound from contaminants
Absorb blood and tears
Area cleansed with saline sponges
Antibiotic ointment may be spread over
plastic repairs, lids and lashes to
prevent sticking to dressing
Dressings
Dressing
Sterile eye pad with tape
After intraocular – perforated aluminum plate
/ shield prevents external pressure on eyes
Pressure dressing – pad with roller gauze
around head prevents eye globe movement
Cataract – may use collage corneal shields –
rehydrated with anti-infective- antiinflammatory solution for dressing
May have no dressing
Surgical Interventions
Removal of Chalazion
Incision and curettage of a chronic
granulomatous tumor or cyst of one or
more of the meibomian glands in the
tarsal plate of the eyelid
Performed under local anesthesia
Surgical Interventions
Repair of Entropion
Perform a blepharoplasty to correct
Entropion- turning inward of the lower lid
margin
In-turned lashes and skin rub and irritate
the cornea
Seldom occurs in people under age 40
Performed under local anesthesia
Surgical Interventions
Repair of Ectropion
Lateral canthal sling repositions and
tightens the lower lid in a horizontal
direction
Ectropion- sagging and eversion of the lower
lid
Usually bilateral, and usually in older persons
Symptoms include tearing, conjunctival
infection and irritation, and inadequate
corneal protection leading to corneal injury
Surgical Interventions
Surgery for Ptosis
Correction of drooping of the upper lid,
commonly by a levator apponeurosis
repair
Incision is made in the upper lid apponeurosis
is dissected, divided, and reattached
proximally with interrupted 6-0 n.a.
Performed under local anesthetic- awake
patient is asked to look forward so the sutures
may be adjusted
Surgical Interventions
Dacryocystorhinostomy
Establishment of a new tear passageway
for drainage into the nasal cavity
Performed for chronic dacryocystitis (infection
of the lacrimal sac) causing resistant
obstruction of the nasolacrimal duct
Performed under general anesthesia
Surgical Interventions
Evisceration
Removal of the contents of the eye,
leaving intact the sclera and the attached
muscles
Implant may be placed within the empty shell
Surgical Interventions
Enucleation
Removal of the entire eyeball, usually with
insertion of a round implant into the
socket to replace the globe
May use donor sclera to reattach the muscles
to the globe for movement
Surgical Interventions
Exenteration
Removal of the entire orbital contents,
including the periosteum
Performed for certain malignancies of the
globe or orbit
Procedure may or may not include removal of
the eyelids
Surgical Interventions
Stabismus
Inability to direct the
two eyes on the
same object
because of lack of
coordination of the
extraocular
muscles
Surgical Interventions
Stabismus
Deviation commonly
corrected by:
Resection- removal of
a portion of the muscle
and attachment of the
cut ends- strengthens
the muscle
Surgical Interventions
Stabismus
Deviation commonly
corrected by:
Recession- severs the
muscle from its original
insertion with
reattachment more
posteriorly on the
sclera- weakens the
muscle
Surgical Interventions
Pterygium excision
Excision of a fleshy, triangular encroachment of
conjunctiva onto the peripheral area of the
cornea
Tend to be recurrent, so surgery is delayed until
vision is affected by encroachment on the visual
axis
Surgical Interventions
Keratoplasty (aka- corneal transplant)
Graft of tissue from one human eye to
another
Performed when the patients cornea is
thickened and opacified by disease or
degeneration, or if the transparency of the
cornea is impaired as the result of scars,
infections, or burns
Trephine
A cutting instrument used to make a circular cut
of the cornea
Pathology
Keratoplasty (aka- corneal transplant)
Surgical Interventions
Radial Keratotomy
Refractive procedure to correct myopia,
hyperopia, astigmatism, and aphakia
Series of precise, partial-thickness radial
incisions in the cornea
Results in a flattening of the cornea, which
reduces the refractive error
First performed in 1978
Surgical Interventions
Radial Keratotomy
Surgical Interventions
LASIK Surgery
Refractive procedure to correct myopia,
hyperopia, astigmatism, and aphakia
Laser-assisted in-situ keratomileusis
Curvature of the cornea is modified using a
excimer laser
Surgical Interventions
Cataract extraction
Surgical Interventions
Cataract extraction- removal of the
opaque lens from the interior of the eye
ICCE- intracapsular cataract extraction
Removes the lens within its capsule
Rarely performed today
Requires breaking the zonules
Cryoprobe “frozen” to the lens
Surgical Interventions
Cataract extraction
ECCE- extracapsular cataract
extraction
Anterior capsule is ruptured and removed,
and the lens is expressed from the eye,
generally using phaecoemulsification
(ultrasonic energy with irrigation and
aspiration, aka cavitron unit)
Surgical Interventions
Cataract extraction
IOL- intraocular lens
Optics- clear round portion
Haptics- springs on either side- hold lens in
position
Surgical Interventions
Iridectomy
Removal of a section of iris tissue
Performed to reestablish communication
between the posterior and anterior chambers
Performed to treat glaucoma
Surgical Interventions
Scleral buckling
Performed to treat retinal detachment
Causes an intrusion or push into the eye at the site
Performed under general anesthesia
May use cryosurgery (cold) or diathermy (use of
high frequency current to generate heat for
electrocoagulation)
Surgical Interventions
Vitrectomy
Removal of all or
a part of the
vitreous body
(gel)
May also include
coagulation of
retinal vessels for
bleeding, which
causes the fluid to
become opaque
You made it through
Eyes!
Have a GREAT day!!!