Cover test

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A cover test or cover-uncover test is an objective determination of the presence and amount of ocular deviation. It is typically performed by orthoptists, ophthalmologists and optometrists during eye examinations.

Contents

The two primary types of cover tests are:

The test involves having the patient focusing on both a distance as well as near object at different times during the examination. A cover is placed over an eye for a short moment then removed while observing both eyes for movement. The misaligned eye will deviate inwards or outwards. The process is repeated on both eyes and then with the child focusing on a distant object.

The cover test is used to determine both the type of ocular deviation and measure the amount of deviation. The two primary types of ocular deviations are the tropia and the phoria. A tropia is a misalignment of the two eyes when a patient is looking with both eyes uncovered. A phoria (or latent deviation) only appears when binocular viewing is broken and the two eyes are no longer looking at the same object.

The unilateral cover test is performed by having the patient focus on an object then covering the fixating eye and observing the movement of the other eye. If the eye was exotropic, covering the fixating eye will cause an inwards movement; and if esotropic, covering the fixating eye will cause an outwards movement. The alternating cover test, or cross cover test is used to detect total deviation (tropia + phoria).

Medical use

The cover test is regarded as an essential examination in investigating strabismus. It is simple to undertake, does not require great amounts of skill by the examiner and is objective in nature. To ensure that the test is executed accurately and that the maximal amount of information is obtained, it is paramount that the appropriate fixation targets are used for near (approximately 33 cm (13 in)), distance (3 m (10 ft)) and far distance (>3 m (10 ft)) and also that a cover consisting of a black 'paddle' is used. A translucent occluder paddle may also be used. This enables the examiner to see the eye's position behind the occluder. [1]

Many characteristics of a strabismus can be gained from performing the cover test.

Strabismus

Latent deviation

Fixation Targets

Fixation targets are required for both the near (33 cm) and far (6m) components of the cover test.

Near Targets (33 cm)

Light source – A penlight/light from retinoscope or ophthalmoscope could be used at the start of the near cover test assessment to observe the patient's corneal reflections, and to see whether their fixation is steady, central and maintained. Assessing the patient's fixation is especially important in those patients who have amblyopia. [1]

Detailed target – Any small object that has the ability to stimulate Accommodation (eye) and allow the examiner to assess the patient's fixation. For children, very small pictures like those seen on a Lang stick can be used. Whereas for adults a small Snellen chart letter or number can be used. [1]

Distance Targets (6m)

Spotlight – In those patients with amblyopia a spotlight could be used. (Same as near targets). [1]

Snellen chart – This is the most commonly used target when assessing a patient's far component of a cover test. [1]

Small landmark – Any fixed landmark at eye level, which can be seen through a window. [1]

Stationary Toy – Fixed, talking toys are often used in children when their fixation is difficult to obtain when assessing the far component of the cover test. [1]

Note: That when using any of the targets above (near or far), it is vital that they are placed as close to the patient's eye level as possible. This will eliminate any inaccurate results. Also during the cover test, the examiner must make sure that the patient is clearly seeing the fixation targets to confirm their Accommodation (eye) is controlled. [1]

Method

There are 2 parts to the Cover Test (CT), which include the cover and uncover component and the alternate cover test.

Prior to proceeding, ensure that there is sufficient light in the room so that the examiner can clearly see the patient's eyes. Sit approximately 30 cm away from the patient to ensure you are able to observe their eye movement. Explain the purpose of the test to the patient, for example: "I am going to check how well your eye muscles are working together." [3]

The cover/uncover part includes 1 eye being covered. Instruction to the patient: "I would like you to look at this letter at near (examiner holds up the fixation target) or the clearest letter you can see at the other end of the room on the Snellen chart for distance testing. Keep watching the letter while I cover your eye." [3]

The examiner observes:

The alternate CT has to ensure that one eye is dissociated at all times:

Note: The cover/uncover component of the test is less dissociating than the alternate CT. The alternate CT can't distinguish between manifest and latent deviations. When measuring in the distance ensure you are not blocking the patient's view of the fixation target. [1]

Practical Application

Stages in the detection of a manifest deviation

When a patient has a manifest strabismus the uncovered eye will take up fixation when the fixing eye is covered. The cover/ uncover test is performed at near using a flashlight as a target. Shining a light in the patient's eye allows the orthoptist to observe their corneal reflection. When the eyes are straight the corneal reflections will be located centrally in each pupil. When the patient has a deviation one corneal reflection will be in the centre of the pupil and the other reflection will be on or close to the iris. When detecting a manifest deviation the Orthoptist covers the straight eye if a deviation is apparent or the eye with the better VA. Observe the behaviour of the uncovered eye. [4]

This procedure is now repeated with an accommodative target. Ask the patient to look at a fixation stick that has a picture or a letter and observe the deviation at near and distance. [1]

An alternate cover test is performed to ensure full dissociation, observe any changes in the amount and type of movement. [1]

Lastly, repeat the cover/uncover test and note whether the eye remains deviated or returns to its original position. [1]

Stages in the detection of a latent deviation

When searching for a latent deviation our attention is directed to the covered eye. When performing the cover/uncover test the uncovered eye does not move; however the eye that is under the cover will deviate and return to a straight position when the cover is removed.

The uncover/cover test is also performed at near and distance with an accommodative target. Once a cover/uncover test has been performed to confirm the presence of a manifest deviation our attention is turned to the behavior of the covered eye. It is important that when observing the covered eye look at the speed and recovery of the eye when the cover is removed. [1]

An alternate cover test is also performed and this provides information about the maximum deviation. The speed that the eye recovers indicates the patient's control over the deviation. The faster the recovery the better control the patient has over the deviation. [1]

Finally, a cover/uncover test must be performed again to ensure the deviation has remained latent and recovery is the same. [1]

Precautions

Cautions to be noted in avoidance of misdiagnoses /contamination of results

It is important to avoid prolonged periods of dissociation of the eyes until a diagnosis can be made regarding the strabismus. Hence, the importance to note that although the eyes require dissociation for a minimum of three seconds, that dissociation is kept minimal whilst fixation is maintained. The cover test should be considered prior to testing VA patients with strabismus, for occlusion during testing may dissociate an unstable ocular deviation. In the case of intermittent or latent deviations, for dissociative complications leading to misdiagnosis, it is also advised that binocular vision is tested prior, along with stereo testing. [1]

Frequently, during testing, the cover can be removed prematurely; therefore, as mentioned earlier, dissociation of at least three seconds is needed for the patient to take up fixation during cover testing. This time allows for patients to recover from dissociation post cover removal.

A penlight should be used to observe the steadiness and positioning of the deviated eye.

Ensure to assist the patient in maintaining fixation on accommodative or distance targets at all times - if testing on children or adults, request specific details pertaining to the accommodative target (to assure accommodation is utilized) for near testing. Use of a detailed target for near fixation in both adults and children will identify the effects of accommodation on the deviation. Observing pupillary constriction should also be indicative of accommodation. Cover-Uncover testing and alternate cover testing should be performed on the deviating eye even when a constant heterotropia is observed. This practice ensures the detection of a consistent increase in deviation and DVD isn't neglected. [1]

The presence of orthophoria in uncommon when assessing both near and far fixation. VA must be considered when there is no deviation seen upon cover testing given amblyopic eyes may not take up fixation (VA too poor to see target or eccentric fixation). Microtropia may be present when a small unequal VA is recorded. [1]

Recording

The cover test results must be recorded in a clear and brief manner. The information included should include the following:

Examples of a cover test recording: [1]

CT: cc sml LXT/XT' nhf
CT: sc mod E/E' c r.r
CT: cc RET holds fixation
RE(T)' holds fixation

See also

Related Research Articles

Saccade Eye movement

A saccade is a quick, simultaneous movement of both eyes between two or more phases of fixation in the same direction. In contrast, in smooth pursuit movements, the eyes move smoothly instead of in jumps. The phenomenon can be associated with a shift in frequency of an emitted signal or a movement of a body part or device. Controlled cortically by the frontal eye fields (FEF), or subcortically by the superior colliculus, saccades serve as a mechanism for fixation, rapid eye movement, and the fast phase of optokinetic nystagmus. The word appears to have been coined in the 1880s by French ophthalmologist Émile Javal, who used a mirror on one side of a page to observe eye movement in silent reading, and found that it involves a succession of discontinuous individual movements.

Esotropia Form of strabismus

Esotropia is a form of strabismus in which one or both eyes turns inward. The condition can be constantly present, or occur intermittently, and can give the affected individual a "cross-eyed" appearance. It is the opposite of exotropia and usually involves more severe axis deviation than esophoria. Esotropia is sometimes erroneously called "lazy eye", which describes the condition of amblyopia; a reduction in vision of one or both eyes that is not the result of any pathology of the eye and cannot be resolved by the use of corrective lenses. Amblyopia can, however, arise as a result of esotropia occurring in childhood: In order to relieve symptoms of diplopia or double vision, the child's brain will ignore or "suppress" the image from the esotropic eye, which when allowed to continue untreated will lead to the development of amblyopia. Treatment options for esotropia include glasses to correct refractive errors, the use of prisms and/or orthoptic exercises and/or eye muscle surgery. The term is from Greek eso meaning "inward" and trope meaning "a turning".

Binocular vision Ability to perceive a single three-dimensional image of surroundings with two eyes

In biology, binocular vision is a type of vision in which an animal has two eyes capable of facing the same direction to perceive a single three-dimensional image of its surroundings. Neurological researcher Manfred Fahle has stated six specific advantages of having two eyes rather than just one:

  1. It gives a creature a "spare eye" in case one is damaged.
  2. It gives a wider field of view. For example, humans have a maximum horizontal field of view of approximately 190 degrees with two eyes, approximately 120 degrees of which makes up the binocular field of view flanked by two uniocular fields of approximately 40 degrees.
  3. It can give stereopsis in which binocular disparity provided by the two eyes' different positions on the head gives precise depth perception. This also allows a creature to break the camouflage of another creature.
  4. It allows the angles of the eyes' lines of sight, relative to each other (vergence), and those lines relative to a particular object to be determined from the images in the two eyes. These properties are necessary for the third advantage.
  5. It allows a creature to see more of, or all of, an object behind an obstacle. This advantage was pointed out by Leonardo da Vinci, who noted that a vertical column closer to the eyes than an object at which a creature is looking might block some of the object from the left eye but that part of the object might be visible to the right eye.
  6. It gives binocular summation in which the ability to detect faint objects is enhanced.
<span class="mw-page-title-main">Strabismus</span> Eyes not aligning when looking at something

Strabismus is a vision disorder in which the eyes do not properly align with each other when looking at an object. The eye that is focused on an object can alternate. The condition may be present occasionally or constantly. If present during a large part of childhood, it may result in amblyopia, or lazy eyes, and loss of depth perception. If onset is during adulthood, it is more likely to result in double vision.

Eye examination A series of tests assessing vision and pertaining to the eyes

An eye examination is a series of tests performed to assess vision and ability to focus on and discern objects. It also includes other tests and examinations pertaining to the eyes. Eye examinations are primarily performed by an optometrist, ophthalmologist, or an orthoptist. Health care professionals often recommend that all people should have periodic and thorough eye examinations as part of routine primary care, especially since many eye diseases are asymptomatic.

Retinoscopy Technique to measure refractive error in eyes

Retinoscopy (Ret) is a technique to obtain an objective measurement of the refractive error of a patient's eyes. The examiner uses a retinoscope to shine light into the patient's eye and observes the reflection (reflex) off the patient's retina. While moving the streak or spot of light across the pupil the examiner observes the relative movement of the reflex or manually places lenses over the eye to "neutralize" the reflex.

Exotropia Visual disorder where eyes work independently

Exotropia is a form of strabismus where the eyes are deviated outward. It is the opposite of esotropia and usually involves more severe axis deviation than exophoria. People with exotropia often experience crossed diplopia. Intermittent exotropia is a fairly common condition. "Sensory exotropia" occurs in the presence of poor vision in one eye. Infantile exotropia is seen during the first year of life, and is less common than "essential exotropia" which usually becomes apparent several years later.

Sixth nerve palsy Medical condition

Sixth nerve palsy, or abducens nerve palsy, is a disorder associated with dysfunction of cranial nerve VI, which is responsible for causing contraction of the lateral rectus muscle to abduct the eye. The inability of an eye to turn outward, results in a convergent strabismus or esotropia of which the primary symptom is diplopia in which the two images appear side-by-side. Thus, the diplopia is horizontal and worse in the distance. Diplopia is also increased on looking to the affected side and is partly caused by overaction of the medial rectus on the unaffected side as it tries to provide the extra innervation to the affected lateral rectus. These two muscles are synergists or "yoke muscles" as both attempt to move the eye over to the left or right. The condition is commonly unilateral but can also occur bilaterally.

Worth 4 dot test

The Worth Four Light Test, also known as the Worth's Four Dot test or W4LT, is a clinical test mainly used for assessing a patient's degree of binocular vision and binocular single vision. Binocular vision involves an image being projected by each eye simultaneously into an area in space and being fused into a single image. The Worth Four Light Test is also used in detection of suppression of either the right or left eye. Suppression occurs during binocular vision when the brain does not process the information received from either of the eyes. This is a common adaptation to strabismus, amblyopia and aniseikonia.

Fixation disparity

Fixation disparity is a tendency of the eyes to drift in the direction of the heterophoria. While the heterophoria refers to a fusion-free vergence state, the fixation disparity refers to a small misalignment of the visual axes when both eyes are open in an observer with normal fusion and binocular vision. The misalignment may be vertical, horizontal or both. The misalignment is much smaller than that of strabismus. While strabismus prevents binocular vision, fixation disparity keeps binocular vision, however it may reduce a patient's level of stereopsis. A patient may or may not have fixation disparity and a patient may have a different fixation disparity at distance than near. Observers with a fixation disparity are more likely to report eye strain in demanding visual tasks; therefore, tests of fixation disparity belong to the diagnostic tools used by eye care professionals: remediation includes vision therapy, prism eye glasses, or visual ergonomics at the workplace.

In the fields of optometry and ophthalmology, the Hirschberg test, also Hirschberg corneal reflex test, is a screening test that can be used to assess whether a person has strabismus.

Heterophoria is an eye condition in which the directions that the eyes are pointing at rest position, when not performing binocular fusion, are not the same as each other, or, "not straight". This condition can be esophoria, where the eyes tend to cross inward in the absence of fusion; exophoria, in which they diverge; or hyperphoria, in which one eye points up or down relative to the other. Phorias are known as 'latent squint' because the tendency of the eyes to deviate is kept latent by fusion. A person with two normal eyes has single vision (usually) because of the combined use of the sensory and motor systems. The motor system acts to point both eyes at the target of interest; any offset is detected visually. Heterophoria only occurs during dissociation of the left eye and right eye, when fusion of the eyes is absent. If you cover one eye you remove the sensory information about the eye's position in the orbit. Without this, there is no stimulus to binocular fusion, and the eye will move to a position of "rest". The difference between this position, and where it would be were the eye uncovered, is the heterophoria. The opposite of heterophoria, where the eyes are straight when relaxed and not fusing, is called orthophoria.

Infantile esotropia is an ocular condition of early onset in which one or either eye turns inward. It is a specific sub-type of esotropia and has been a subject of much debate amongst ophthalmologists with regard to its naming, diagnostic features, and treatment.

Dissociated vertical deviation (DVD) is an eye condition which occurs in association with a squint, typically infantile esotropia. The exact cause is unknown, although it is logical to assume it is from faulty innervation of eye muscles.

Maddox rod

The Maddox rod test can be used to subjectively detect and measure a latent, manifest, horizontal or vertical strabismus for near and distance. The test is based on the principle of diplopic projection. Dissociation of the deviation is brought about by presenting a red line image to one eye and a white light to the other, while prisms are used to superimpose these and effectively measure the angle of deviation. The strength of the prism is increased until the streak of the light passes through the centre of the prism, as the strength of the prism indicates the amount of deviation present. The Maddox rod is a handheld instrument composed of red parallel plano convex cylinder lens, which refracts light rays so that a point source of light is seen as a line or streak of light. Due to the optical properties, the streak of light is seen perpendicular to the axis of the cylinder.

<span class="mw-page-title-main">Prism cover test</span>

The prism cover test (PCT) is an objective measurement and the gold standard in measuring strabismus, i.e. ocular misalignment, or a deviation of the eye. It is used by ophthalmologists and orthoptists in order to measure the vertical and horizontal deviation and includes both manifest and latent components. Manifest is defined by the eye deviating constantly or intermittently, whereas latent is where the deviation is normally controlled but becomes present when the eyes are dissociated. A PCT reveals the total deviation and cannot distinguish between latent and manifest strabismus as you are using an alternate cover test.

Bagolini striated glasses test, or BSGT, is a subjective clinical test to detect the presence or extent of binocular functions and is generally performed by an optometrist or orthoptist or ophthalmologist. It is mainly used in strabismus clinics. Through this test, suppression, microtropia, diplopia and manifest deviations can be noted. However this test should always be used in conjunction with other clinical tests, such as Worth 4 dot test, Cover test, Prism cover test and Maddox rod to come to a diagnosis.

Prism fusion range

The prism fusion range (PFR) or fusional vergence amplitude is a clinical eye test performed by orthoptists, optometrists, and ophthalmologists to assess motor fusion, specifically the extent to which a patient can maintain binocular single vision (BSV) in the presence of increasing vergence demands. Motor fusion is largely accounted to amplitudes of fusional vergences and relative fusional vergences. Fusional vergence is the maximum vergence movement enabling BSV and the limit is at the point of diplopia. Relative fusional vergence is the maximum vergence movement enabling a patient to see a comfortable clear image and the limit is represented by the first point of blur. These motor fusion functions should fall within average values so that BSV can be comfortably achieved. Excessive stress on the vergence system or inability to converge or diverge adequately can lead to asthenopic symptoms, which generally result from decompensation of latent deviations (heterophoria) or loss of control of ocular misalignments. Motor anomalies can be managed in various ways, however, in order to commence treatment, motor fusion testing such as the PFR is required.

Maddox wing

The Maddox Wing is an instrument utilized by ophthalmologists, orthoptists and optometrists in the measurement of strabismus. It is a quantitative and subjective method of measuring the size of a strabismic deviation by dissociation of the eyes brought about by two septa which are placed in such a way as to present fields to either eye separated by a diaphragm at the centre. The right eye sees a red and white arrow, each of which point to a scale with numbers seen by the left eye; the red arrow points to the vertical red scale and the white arrow points to the horizontal white scale. A third arrow located to the right and below the horizontal white scale is used to measure torsion

The FourPrism Dioptre Reflex Test is an objective, non-dissociative test used to prove the alignment of both eyes by assessing motor fusion. Through the use of a 4 dioptre base out prism, diplopia is induced which is the driving force for the eyes to change fixation and therefore re-gain bifoveal fixation meaning, they overcome that amount of power.

References

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  2. 1 2 Rowe, Fiona. J (2012). Clinical Orthoptics (3rd ed.). Wiley. p. 64. ISBN   9781444339345.[ permanent dead link ]
  3. 1 2 3 4 David B.Elliott. (2013). Clinical Procedures in Primary Eye Care. Retrieved from https://www.inkling.com/read/elliott-clinical-procedures-primary-eye-care-4th/chapter-6/6-2-the-cover-test
  4. Helveston, Eugene (2010). "Understanding, detecting, and managing strabismus". Community Eye Health/International Centre for Eye Health. 23 (72): 12–14. PMC   2873668 . PMID   20523857.