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Approach to a patient with diplopia

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Approach to a patient with diplopia Dr. R.R.Battu Narayana Nethralaya * * * * * What does the faculty of BSV require? Perfect ( or near perfect ) alignment of the ... – PowerPoint PPT presentation

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Title: Approach to a patient with diplopia


1
Approach to a patient with diplopia
  • Dr. R.R.Battu
  • Narayana Nethralaya

2
What does the faculty of BSV require?
  • Perfect ( or near perfect ) alignment of the
    visual axes simultaneously on the object of
    regard
  • Perfect ( or near perfect ) retinal
    correspondence
  • Perfect central ( or paracentral ) fusional
    capability.
  • Perfect ( or near perfect ) alignment of the
    retinal receptors
  • Perfect ( or near perfect ) optics to allow only
    one image to be formed on the retina and the same
    single image to be formed on the other

3
What is Diplopia ?
  • It is when more than one image ( two ) of the
    object of regard are seen simultaneously
  • This occurs when.(Mechanisms)
  • More than one image of the object of regard is
    formed in the retinae of one or both eyes (
    monocular diplopia)
  • The eyes lose their simultaneous alignment with
    the object of regard in one or more directions (
    or distances ) of gaze (incomitance of ocular
    alignment binocular diplopia)
  • The eyes although aligned, send images to the
    brain which disallow fusion ( aniseikonia )
  • Local retinocerebral adaptations to misalignments
    in early life go askew (paradoxical diplopia,
    loss of suppression)
  • Rarely, purely cerebral mechanisms

4
Monocular vs Binocular Diplopia
  • Key question
  • Is the double vision present even on monocular
    eye closure?

5
Monocular diplopia
  • More than one image of the object of regard is
    formed in the retinae of one or both eyes..
  • Irregular astigmatism ( nebular scars, haze,
    corneal distortion)
  • Subluxated clear lenses
  • Poorly fitting contact lenses
  • Early cataract
  • Iridodialysis, polycoria, large iridotomies
  • Macular disorders edema, CNVM etc

6
Binocular Diplopia
  • The eyes lose their simultaneous alignment with
    the object of regard in one or more directions (
    or distances ) of gaze (incomitance of ocular
    alignment binocular diplopia)
  • Key clues
  • Anomalous Head Position
  • Vision Blurry in one gaze position, better in
    another
  • Vestibular signs
  • Long tract signs
  • Obviously misaligned eyes, proptosis
  • Presence of partial ptosis
  • Nystagmus

7
Questions to be asked
  • Is there a mis alignment?
  • If so, in which directions ( or distances ) of
    gaze?
  • Which are the hypofunctioning ( and
    hyperfunctioning ) muscles?
  • Do they have a neurogenic pattern, or a
    restrictive pattern or a neuromuscular pattern
    or a myogenic pattern?

8
Identifying muscle/s involved
  • AHP
  • Predominant face turn horizontal recti
  • Predominant chin elev/dep vertical recti,
    pattern strabismus
  • Predominant tilt Obliques

9
Diplopia -
  • Key questions
  • Is the diplopia more for distance or near?
  • Is the diplopia predominantly horizontal or
    vertical?
  • In which direction of gaze are the images
    maximally separated?
  • To which eye does the outer image belong?
  • Is there a predominant tilt?
  • In which position of gaze does the tilt increase
    maximally?

10
Diplopia charting
  • Diplopia is maximum ( separation of images) in
    the field of action of the paralysed muscle.
  • The false image ( the image belonging to the eye
    with the hypofunctioning muscle ) is always
    peripherally situated
  • Higher in upgaze, lower in downgaze, on the right
    in right gaze and on the left in left gaze

11
Hess Charting
  • Based on the principle of confusion
  • Allows for identifying the position of one eye,
    while the other eye fixes in different positions
    of gaze.
  • Effectively demonstrates Sherringtons and
    Herings laws
  • Allows for more objective follow up also.

12
The cover-uncover and alternate cover tests
  • Probably the most important objective tests to
    evaluate muscle palsies
  • Measurements with a prism bar allow for
    measurement
  • Measure in the 9 cardinal gaze positions
  • Distance and near

13
Versions Ductions
  • Allow to assess actual rotation limits
  • Allow assessment of underactions and overactions
    of synergists

14
Saccadic Velocity
  • Floating saccades are suggestive of a nerve
    palsy or paresis
  • Indirectly oblique saccade testing can be done.
  • Normal saccadic velocity with limitation
    indicates a restricted muscle

15
Forced Duction Testing
  • Allows to assess forced movement in direction of
    restriction
  • Important in Blow out fractures, TED, long
    standing strabismus with contractures
  • Important to lift the globe and rotate

16
Force Generation Testing
  • Allows to identify residual power in a suspected
    paretic muscle. Usually done to direct management
  • 6th N palsy
  • Recess resect or muscle transposition

17
Pointers to primary orbital disease
  • Restrictive muscle hypofunction
  • Proptosis
  • Signs of orbital inflammation
  • Signs of anterior segment, lid and adnexal
    hyperemia or inflammation

18
Neurological disease
  • Look for supranuclear, nuclear and infranuclear
    patterns
  • Look for sensory ( visual ) abnormalities
  • Look for nystagmus
  • Look for vestibular auditory symptoms
  • Look for other cranial nerve involvement
  • Look for long tract signs

19
CNS and orbital imaging
  • Done for obvious neurological patterns
  • Orbital inflammatory disease, proptosis
  • Occasionally may avoid or delay
  • Pupil sparing 3rd in a diabetic
  • 6th Nerve in a hypertensive, image if no
    spontaneous recovery in a few weeks

20
Imaging
  • CT
  • MRI
  • Fat suppression
  • Stir sequences
  • MRA vs CT angio

21
Ancillary tests
  • Tests for myasthenia
  • Tests of thyroid function
  • X- ray chest
  • Bloods

22
Aniseikonia
  • Occurs when image size disparity exceeds 5
  • Previously seen in monocular aphakia
  • May occur following keratorefractive surgery

23
Convergence insufficiency
  • Classically for near
  • Could be primary or secondary

24
Others
  • Suppression scotomas
  • Decompensated squints with Anomalous Retinal
    Correspondence
  • Paradoxical diplopia
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