Gradual visual disturbance partial sight and blindness
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Causes of gradual visual loss
Refractive errors
The pinhole test is a most useful test for identifying refractive
errors.
If there is a refractive error, the vision will improve
when the pinhole is used.
A patient with thick glasses should
wear them for the pinhole test. Once other causes of visual loss
have been excluded, the patient can be sent to an optometrist
for refraction and correction of refractive error (for example,
glasses).
Corneal disease
Various disorders can cause gradual loss of the corneal
endothelial cells and increasing oedema of the cornea (for
example, Fuch’s endothelial dystrophy).
This leads to a gradual
decrease in visual acuity that does not improve substantially
with a pinhole.
If the damage is advanced the cornea may
appear opaque.
A corneal graft from a donor may be required.
Cataract
This is probably the most common cause of gradual visual loss.
It can be diagnosed through testing the red reflex.
The patient
should be referred if the visual disturbance interferes
appreciably with their lifestyle.
If a patient with a cataract
cannot project light or has an afferent pupillary defect,
however, other diseases such as a retinal detachment must be
excluded. Primary open angle glaucoma
Unfortunately, the patient may not complain of visual
disturbance until late in the course of the disease; hence the
need for screening.
Primary open angle glaucoma should,
however, be excluded in any patient complaining of gradual
visual loss.
Establish whether there is any family history of
glaucoma.
The vision may still be 6/6, so the visual field should
be checked with a red pin.
Also check for cupping of, or
asymmetry between, the optic discs.
Age-related macular degeneration
This may occur gradually and is typified by loss of the central
field. There are usually pigmentary changes at the macula.
The
disease occurs in both eyes, but it may be asymmetrical, and it
is more common in shortsighted people.
The gradual
deterioration is not treatable, but if acute visual distortion
develops this may indicate a leaking area under the retina
(choroidal neovascularisation), which may respond to laser
photocoagulation or photodynamic therapy.
Macular hole
A macular hole is a full thickness absence of neural tissue at the
centre of the macula.
Between 10 and 20% of full thickness
macular holes (FTMH) will become bilateral.
Patients usually
present with painless loss of central vision or distortion of the
central visual field, although early macular holes may be
asymptomatic.
Patients with established FTMH can be treated
with vitrectomy and instillation of intraocular gas (to provide
retinal tamponade), which have a high chance of closing the
hole successfully.
Diabetic maculopathy
Diabetic retinopathy occurs in both insulin dependent and
non-insulin dependent diabetics and affects all age groups.
The
patient may or may not give a history of diabetes, although the
longer the duration of the diabetes, the more likely the patient
is to have retinopathy.
Remember that although the patient
may describe the onset of visual loss as gradual, sight
threatening diabetic retinopathy may still be present.
Non-proliferative diabetic retinopathy is typified by
microaneurysms, dot haemorrhages, and hard yellow exudates
with well defined edges.
There also may be oedema of the
macula, which is less easily identified but can lead to a fall in
visual acuity.
Non-proliferative diabetic retinopathy at the
macula (diabetic maculopathy) is the major cause of blindness
in maturity onset (type 2) diabetes, but it also occurs in
younger, insulin dependent (type 1) diabetic patients.
Some
forms of diabetic maculopathy may be amenable to focal laser
photocoagulation.
Proliferative retinopathy, typified by the
presence of new vessels, requires urgent referral for
treatment.
Hereditary degeneration of the retina
These conditions are relatively rare (for example, retinitis
pigmentosa) but should be suspected if there is a family history
of visual deterioration.
Symptoms include night blindness and
intolerance to light.
Most types of retinal degeneration are not
yet treatable, but some are associated with metabolic disorders
that can be treated.
These patients need to be referred to an
ophthalmologist, preferably with a special interest in these
conditions, for diagnosis and any possible treatments.
Patients with severe visual impairment may develop visual
hallucinations and sleep disturbance.
It is particularly
important for these patients to have an opportunity to discuss
their diagnosis and prognosis and to have genetic counselling.
Patients can be helped through psychosocial counselling.
Compressive lesions of the optic pathways
These are relatively rare, but should always be considered.
Clues in the history and examination include headaches, focal
neurological signs, or endocrinological abnormalities such as
acromegaly. There should not be an afferent pupillary defect in
most patients with cataract, macular degeneration, or refractive
error.
Therefore if an afferent defect is seen, suspect a
compressive or other lesion of the optic pathways. Testing of
the visual fields may show a bitemporal field defect due to a
pituitary tumour.
The optic discs should be checked for optic
atrophy and papilloedema.
Drugs
Several drugs may cause gradual visual loss.
In particular, a
history of excessive alcohol intake or smoking; methanol
ingestion; or the taking of chloroquine, hydroxychloroquine,
isoniazid, thioridazine, isotretinoin, tetracycline, or ethambutol
should lead to the suspicion of drug induced visual
deterioration.
Systemic, inhaled, or topical corticosteroids may
cause cataracts and glaucoma.
Management of gradual visual loss
The initial management of gradual visual loss depends on the
cause. Refractive errors usually require no more than a pair of
glasses.
Cataracts can be removed and an artificial lens
implanted. Glaucoma requires treatment to lower the
intraocular pressure.
A change in the appearance of the lens
If you shine a bright light on the eye the lens may appear
brown, or even white if the cataract is more advanced.
Causes
Many conditions are associated with cataracts, but changes
within the lens associated with ageing are the most common
cause.
Cataracts also occur more often in patients with diabetes,
uveitis, or a history of trauma to the eye.
Prolonged courses of
steroids, both oral and topical, can also give rise to cataracts.
Children with cataracts need to be investigated to exclude
treatable metabolic conditions such as galactosaemia.
Surgery
There is no effective medical treatment for established
cataracts.
The treatment is surgical.
Indications for cataract surgery
Whether or not to operate depends primarily on the effect of
the cataracts on the patient’s vision.
Many years ago surgeons
waited until the cataract was mature or “ripe” (when the
contents became liquefied) because this made aspiration of the
contents of the lens easier.
With advances in microsurgery,
however, there is now no longer any need to wait for the
cataract to mature, and cataract surgery can be performed at
any stage, with minimal risk.
There is no set level of vision for which an operation is
essential, but most patients with a vision of 6/18 or worse in
both eyes because of lens opacities benefit from cataract
extraction.
Some elderly patients, however, may be
perfectly happy with this level of vision.
Simple advice
such as the recommendation to use a good reading light that
provides illumination from above and behind, may be
adequate.
A younger patient, with more exacting visual demands, may
opt for an operation much earlier. (The minimum standard for
driving is about 6/10; equivalent to a line between 6/9 and
6/12.) With certain types of cataract, such as an opacity at the back of the lens (posterior subcapsular cataract) the vision may
be 6/6 in dim conditions when the pupil is dilated. However, in
bright sunlight the pupil constricts and most of the light
entering the eye has to pass through the opacity, causing glare
and a fall in acuity. In this case, surgery would usually be
performed even though the tested vision was 6/6.
Generally,
the surgeon’s advice is tailored to the individual patient.
Surgical techniques
“Phacoemulsification” method
Most cataract surgery in the United Kingdom is now performed
with this method.
A very small tunnel incision (about 3mm
wide) is made in the eye and a circular hole (diameter
about 5 mm) is made in the anterior capsule of the lens
(capsulorrhexis).
A fine ultrasonic probe is then used to liquefy
the hard lens nucleus (phacoemulsification) through this hole.
Any remaining soft lens fibres then are aspirated.
A folded
replacement lens is then inserted into the empty lens capsular
bag and allowed to unfold.
A high viscosity gel substance
(viscoelastic) often is used to protect the delicate endothelial
cells that line the posterior surface of the cornea during the
operation.
This is then washed out at the end of the procedure.
Sutures often are not required as the tunnel incision is self
sealing.
These advances in technique have considerably
improved the speed of recovery and visual rehabilitation after
cataract surgery.
Extracapsular method
This was, until recently, the most popular method of cataract
extraction.
An incision is made in the eye (about 10 mm in
length) and the anterior capsule is cut open with the tip of a
sharp needle.
The large nucleus is then expressed whole and
the remaining soft lens fibres aspirated.
A non-folding lens is
then inserted into the empty lens capsular bag and the incision
closed with fine sutures.
The need for a larger wound in
extracapsular surgery may lead to problems with wound
security and postoperative astigmatism in some patients.
Intracapsular method
In this method, the entire lens is removed within its capsule,
usually with a cryoprobe, after the suspensory ligaments of the
lens have been dissolved by the enzyme chymotrypsin.
As there is
no remaining lens capsule, the vitreous gel in the eye can move
forward and block the flow of aqueous through the pupil.
A hole
cut in the iris (iridectomy) allows the aqueous to bypass the
pupil. This method is now usually used only in special situations.
Anaesthesia
For most patients, cataract surgery is carried out under local
anaesthesia as a day case.
Local anaesthetic can be injected
around the eye (peribulbar anaesthesia or sub-Tenon’s
anaesthesia), or, with modern, closed system, small incision,
cataract surgery, the operation can be carried out safely in
selected patients with just topical (eyedrop) anaesthesia.
Occasionally, intraocular (intracameral) local anaesthesia is
used. In certain situations general anaesthesia may be needed
because of anticipated technical difficulties or because of
patient factors (for example, in patients with Down’s syndrome
or young patients who are not cooperative).
Intraocular lens implants
The final refractive state of the eye after operation can be
chosen by measuring the curvature of the cornea
(keratometry) and the length of the eye (ultrasound biometry)
and then implanting a lens of appropriate power.
An intraocular lens implant can be more effective in correcting
refractive error than glasses and contact lenses, as it is placed in
the eye in the same position as the natural lens.
Myopia and hypermetropia can be corrected during
cataract surgery by inserting an appropriately powered
intraocular lens.
However, patients usually still require glasses
for reading or distance, as most implanted lenses have a fixed
focus.
Multifocal intraocular lenses have two principal points of
focus and in theory enable the patient to have both good
distance and reading vision without glasses. However, some
patients experience optical aberrations and a reduction in
contrast sensitivity with this type of intraocular lens.
Most lenses implanted nowadays are posterior chamber
lenses, which are placed in the empty lens capsular bag after
the lens contents have been removed from the eye.
With this
type of lens the lens implant sits in a natural position.
These
lenses can be folded and inserted through a minute incision
(2-3 mm).
If the lens capsule is not present or cannot support a
posterior chamber lens unaided, the lens can be sutured in
place. Alternatively, an anterior chamber lens, which is
supported in the anterior chamber angle, can be used. In the
past, iris clip lenses were used, but they are not used now.
The
pupil should not be dilated if the iris clip type of lens has been
used, as the lens may dislocate.
Complications of cataract surgery
Over 200 000 cataract operations are performed annually in the
United Kingdom, and although modern surgical techniques
have exceptional levels of safety, complications still occur.
Patient expectations of cataract surgery are very high.
All patients should be made aware of the possible risks
of the surgery before they give their consent for the
operation.
Infective endophthalmitis
This devastating infection occurs very rarely (about 1 in 1000
operations) but can cause permanent severe reduction of
vision.
Most cases of postoperative infection present within two
weeks of surgery.
Typically patients present with a short history
of a reduction in their vision and a red painful eye.
This is an
ophthalmic emergency.
Low grade infection with pathogens
such as Propionibacterium species can lead patients to present
several weeks after initial surgery with a refractory uveitis.
Suprachoroidal haemorrhage
Severe intraoperative bleeding can lead to serious and
permanent reduction in vision.
Ocular perforation
Sharp needles are used for many forms of ocular anaesthesia,
and globe perforation is a rare possibility.
Modern forms of
ocular anaesthesia have replaced many sharp needle
techniques.
Retinal detachment
This serious postoperative complication is, fortunately, rare but
is more common in myopic (shortsighted) patients after
intraoperative complications.
Postoperative refractive error
Most operations aim to leave the patient emmetropic or slightly
myopic, but in rare cases biometric errors can occur or an
intraocular lens of incorrect power is used.
Despite all efforts to
produce accurate biometry, in occasional cases the desired
refractive outcome is not achieved.
Posterior capsular rupture and vitreous loss
If the very delicate capsular bag is damaged during surgery or
the fine ligaments (zonule) suspending the lens are weak (for
example, in pseudoexfoliation syndrome), then the vitreous gel
may prolapse into the anterior chamber.
This complication may
mean that an intraocular lens cannot be inserted at the time of
surgery.
Patients are also at increased risk of postoperative
retinal detachment.
Uveitis
Postoperative inflammation is more common in certain types of
eyes for example in patients with diabetes or previous ocular
inflammatory disease.
Cystoid macular oedema
Accumulation of fluid at the macula postoperatively can
reduce the vision in the first few weeks after successful cataract
surgery.
In most cases this resolves with treatment of the
post-operative inflammation.
Glaucoma
Persistently elevated intraocular pressure may need treatment
postoperatively.
Posterior capsular opacification
Scarring of the posterior part of the capsular bag, behind the
intraocular lens, occurs in up to 20% of patients.
Laser capsulotomy may be needed.
Postoperative care
Most patients are treated for several weeks with steroid drops to
reduce inflammation and with antibiotic drops to prevent
infection.
Patients have traditionally been advised to avoid
activities that may considerably raise the pressure in the eyeball,
such as strenuous exercise or heavy lifting, for a few weeks after
the operation.
However, with modern small incision surgery patients can return to normal activities within a few weeks.
If
sutures have been necessary, these often need to be taken out
before glasses can be prescribed because of the changes they
induce in the shape and refractive state of the eye.
Thickening of the lens capsule
The remaining lens capsule may thicken (usually over months
or years) and this may need to be cut open. In patients who
have had previous cataract surgery, capsular thickening is the
most common cause of gradually worsening vision.
Division of this thickened capsule (capsulotomy) is usually done with a
special laser (called the Q-switched neodymium yttriumaluminium-
garnet or Nd-YAG laser), which creates microscopic
focused explosions that dissect tissue rather than burn it.
This avoids the need to open the eye surgically, and it can be
performed painlessly (the capsule has no pain fibres) on an
outpatient basis, under topical anaesthesia, with the patient
sitting at a slit-lamp microscope.
This treatment has given rise
in part to patients’ commonly held misconception that
cataracts can be removed by laser alone.
Optical correction after surgery
Removal of the crystalline lens results in an eye with a large
hypermetropic refractive error.
This refractive error is usually
corrected with an intraocular lens implant at the time of
surgery.
If the implant results in clear vision for distance,
glasses usually will be required for reading fine print, as the
new lens has a fixed focus.
If the patient had a cataract
extraction before intraocular lenses were used commonly,
optical correction has to be achieved with glasses or a
contact lens.
Glasses
The natural lens has great refractive power and consequently
the glasses required to correct the refractive error after cataract
extraction are thick and heavy, even when they are made of
plastic.
The corrected image is about 30% larger than that seen
by the normal eye.
This means that the image from an eye that
has had a cataract removed, with subsequent glasses correction,
cannot be fused with the image from the other eye, unless the
lens in the other eye is also removed.
Objects are also perceived
to be closer than they are, often resulting in accidents for example, pouring tea into the lap rather than into the cup.
The
field of vision is restricted, and there is a “blind ring” (scotoma)
within this field because of the optical aberrations inherent in
such powerful lenses.
These optical problems do not occur with
contact lenses or an intraocular lens implant.
Contact lenses
The size of an image with a contact lens is only 10% larger than
the image in the normal eye.
The brain can fuse this disparity
and thus both an operated eye and an unoperated eye may be
used simultaneously. However, most patients with cataracts are
elderly and problems may arise in using the contact lens
because of an inadequate tear film, difficulties with handling,
and infection.
Secondary intraocular lens implantation
If the problems posed by using glasses or contact lenses are too
great, secondary implantation of an intraocular lens can be
considered.
However, this procedure has associated risks,
particularly in patients who have had intracapsular cataract
extraction.
Complications may occur, including secondary
glaucoma.
The potential advantages and disadvantages of the
various options need to be fully considered by the patient and
the ophthalmologist before a final decision is made.
