glaucoma & cataract
DESCRIPTION
Glaucoma & Cataract. Dr Ibraheem Bashayreh, RN, PhD. Glaucoma. Glaucoma is optic nerve damage (often, but not always, associated with increased eye pressure) that leads to progressive, irreversible loss of vision. Glaucoma. - PowerPoint PPT PresentationTRANSCRIPT
Glaucoma & Cataract
Dr Ibraheem Bashayreh, RN, PhD
Glaucoma
Glaucoma is optic nerve damage (often, but not always, associated with increased eye pressure) that leads to progressive, irreversible loss of vision.
Glaucoma
Damage to the optic nerve can occur when pressure within the eye increases.
The vision loss occurs so slowly that it may not be noticed for a long time.
People at risk should have a complete eye examination, including measurement of eye pressures and testing of side (peripheral) vision.
Eye pressure needs to be controlled throughout life, usually with eye drops but sometimes with eye surgery
Epidemiology Almost 3 million people in the United States and
14 million people worldwide have glaucoma. Glaucoma is the third leading cause of blindness
worldwide and the second leading cause of blindness in the United States, where it is the leading cause of blindness among blacks and Hispanics.
In the United States, about one third of glaucoma occurs with eye pressures within the average range, a condition called low-tension glaucoma.
Risk Factors Age older than 40 Family members who have (or had) the disease Farsightedness or nearsightedness Diabetes Long-term use of corticosteroid drugs Previous eye injury Congenital
Mechanism Glaucoma occurs when an imbalance in production
and drainage of fluid in the eye (aqueous humor) increases eye pressure to unhealthy levels.
Normally the aqueous fluid, which nourishes the eye, is produced by the ciliary body behind the iris (in the posterior chamber) and flows through the pupil to the front of the eye (anterior chamber), where it exits into drainage canals between the iris and cornea (the “angle”). When functioning properly, the system works like a faucet (ciliary body) and sink (drainage canals).
Balance between fluid production and drainage—between an open faucet and a properly draining sink—keeps the fluid flowing freely and prevents pressure in the eye from building up.
Mechanism In glaucoma, the drainage canals become clogged,
blocked, or covered. Fluid cannot leave the eye even though new fluid is being produced in the posterior chamber.
In other words, the sink “backs up” while the faucet is still running. Because there is nowhere in the eye for the fluid to go, pressure in the eye increases.
When the pressure becomes higher than the optic nerve can tolerate, damage to the optic nerve occurs. This damage is called glaucoma. Sometimes eye pressure increases within the range of normal but is nonetheless too high for the optic nerve to tolerate (called low tension glaucoma).
Classification
Open-angle glaucoma Closed-angle glaucoma
Etiology In most people, the cause of glaucoma is not
known, Although both open-angle and closed-angle
glaucomas tend to run in families. In others, damage to the eye caused by infection, tumour, inflammation, large cataracts or surgery for cataracts, or other conditions keeps the fluid from draining freely and leads to increased eye pressure and optic nerve damage (secondary glaucoma).
Open-angle glaucoma:
• is more common • the drainage canals in the eyes become
clogged gradually over months or years. • Pressure in the eye rises slowly because
fluid is produced at a normal rate but drains sluggishly.
Symptoms Open-Angle Glaucoma: painless and causes no early symptoms. The most important symptom is the development of
blind spots, or patches of vision loss, over months to years.
The blind spots slowly grow larger. Peripheral vision is usually lost first. Vision loss occurs so gradually that it is often not
noticed until much of it is lost. Because central vision is generally lost last, many
people develop tunnel vision: they see straight ahead perfectly but become blind in all other directions.
If glaucoma is left untreated, eventually even tunnel vision is lost, and a person becomes totally blind.
Closed-angle Glaucoma is less common than open-angle glaucoma. The drainage canals in the eyes become blocked or
covered because the angle between the iris and cornea is too narrow.
The blockage can occur suddenly or slowly. If the blockage occurs suddenly, pressure in the eye rises rapidly. If the blockage occurs slowly, the pressure in the eye rises slowly like in open-angle glaucoma.
Symptoms Closed-Angle Glaucoma
If eye pressure rises rapidly in closed-angle glaucoma (acute closed-angle glaucoma), people typically notice an abrupt onset of severe eye pain and headache, redness, blurred vision, rainbow-colored halos around lights, and sudden loss of vision.
They may also have nausea and vomiting as a response to the increase in eye pressure.
Acute closed-angle glaucoma is considered a medical emergency, because people can lose their vision as quickly as 2 to 3 hours after the appearance of symptoms if the condition is not treated.
People who have had open-angle or closed-angle glaucoma in one eye are likely to develop it in the other.
Screening and Diagnosis An early detection of the disease is extremely important. All people at high risk of glaucoma should have a
comprehensive eye examination every 1 to 2 years There are four parts to a comprehensive eye examination for
glaucoma• Monitoring eye pressure (20-22 mm Hg)• Ophthalmoscope and a slit lamp to look for changes in the
optic nerve • Visual field (peripheral vision) testing allows a doctor to
detect blind spots • Doctors may also use a special lens to examine the drainage
channels in the eye
Treatment The goal of glaucoma treatment is to prevent the
onset of vision loss or stop its progression. Treatment of glaucoma is lifelong. It involves
decreasing eye pressure by increasing fluid drainage out of the eyeball or by reducing the amount of fluid produced inside the eyeball.
Some people with high eye pressure who do not have signs of optic nerve damage (known as glaucoma “suspects”) can be monitored closely without treatment.
Treatment Eye drops and surgery are the main
treatments for open-angle and closed-angle glaucomas.
Eye drops containing beta-blockers, prostaglandin-like compounds, alpha-adrenergic agonists, carbonic anhydrase inhibitors, or cholinergic drugs are commonly used to treat glaucoma.
Laser surgery can be used to increase drainage
Cataract
A cataract is a clouding (opacity) of the lens of the eye that causes a progressive, painless loss of vision.
Epidemiology Cataracts are the leading cause of blindness
worldwide. Cataracts are common in the United States, where
they affect mostly older adults. Almost one in five people between the ages of 65
and 74 develop cataracts severe enough to reduce vision, and almost one in two people older than 75 have them.
Etiology Cataracts usually develop without any apparent cause; however,
contributing factors include the following: Injury to the eye Prolonged use of certain drugs (such as corticosteroids) Prolonged exposure to x-rays (such as with radiation therapy to the
eye) Inflammatory and infectious eye diseases Diseases such as diabetes Dark eyes Prolonged exposure to direct sunlight Poor nutrition Smoking Alcohol use Heat from infrared exposure
Mechanism On the left, a normal lens receives light and focuses it
on the retina. On the right, a cataract blocks some light from reaching the lens and distorts the light being focused on the retina.
Types of Cataract
The lens consists of three layers
The outer layer is a thin, clear membrane
It surrounds a soft, clear material (cortex)
The hard center of the lens is the nucleus
A cataract can form in any part of the lens
Nuclear Cataract Occurs in the center of the lens In its early stages, the patient may become
more nearsighted or even experience a temporary improvement in reading vision
This so-called “second sight” disappears as the lens gradually turns yellow and begins to cloud the vision
Seeing in dim light and driving at night may be especially troublesome
Cortical Cataract Begins as whitish, wedge-shaped streaks on
the outer edge of the lens cortex As it slowly progresses, the streaks extend to
the center and interfere with light passing through the nucleus
Both distance and near vision can be impaired Patients also have problems with glare and
loss of contrast
Subcapsular Cataract Starts as a small, opaque area just under the
capsule shell, usually at the back of the lens, right in the path of light on its way to the retina
This type of cataract may occur in both eyes but tends to be more advanced in one eye than the other
Often interferes with reading vision, reduces your vision in bright light and causes glare or halos around lights at night
Symptoms Blurred vision Increasing difficulty with vision at night Glare, especially at night Halos around lights The need for brighter light for reading Double vision in a single eye Fading or yellowing of colors
The lens appears cloudy
Diagnosis A doctor can usually detect a cataract while
examining the eye with an ophthalmoscope. A doctor can identify the exact location of the cataract and the extent to which it blocks light by using an instrument called a slit lamp, which allows examination of the lens and other parts of the eye in more detail.
Prevention Consistent use of sunglasses with a coating to filter ultraviolet
(UV) light Not smoking is useful and has other health advantages. People with diabetes should work with their doctor to be sure the
level of sugar in their blood is well controlled. A diet high in vitamin C, vitamin A , and substances known as
carotenoids (contained in vegetables such as spinach and kale) may protect against cataracts.
Estrogen use by women after menopause may also be protective, but estrogen should not be used solely for this purpose.
Finally, people who are taking corticosteroids for extended periods might discuss with their doctor the possibility of using a different drug.
Treatment Until vision is significantly impaired, eyeglasses and
contact lenses may improve a person's vision. Wearing sunglasses in bright light and using lamps that
provide over-the-shoulder lighting may decrease glare and aid vision.
Occasionally, drugs that keep the pupil dilated may be used to help vision if the cataract is small and located in the center of the lens.
The only treatment that provides a cure for cataracts is surgery.
MACULAR DEGENERATION
MECHANISM– (The area next to optic disc that defines fine
details at the center of visual field = macula)* not enough blood supply to area (disappearance of central vision due to deterioration of pigment layer of retina)
ETIOLOGY– * age – * atherosclerosis
* hemorrhage
SYMPTOMS AND SIGNS– * Fine detailed vision is impaired
* Sharp vision deterioration (reading)* peripheral vision is not affected* loss of central vision
DIAGNOSIS– * Ophthalmoscopy
* fluorescein angiography* patient history
TREATMENT– * no known cure
* laser photocoagulation* increase zinc in diet* strong magnifying glasses
DIABETIC RETINOPATHY MECHANISM
– * constriction of ocular blood vessels & leakage of blood into retina (microaneurysms, neovascularization = new blood vessels)* leakage of blood into vitreous humor* scar tissue
ETIOLOGY– diabetics with uncontrolled glucose levels
SYMPTOMS AND SIGNS– * impaired sharp vision
* blurred vision* could lead to permanent blindness
DIAGNOSIS– * Ophthalmoscopy
TREATMENT– * Laser photocoagulation
* vitrectomy
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