Prisms Flashcards

1
Q

Reason for needing Prisms

A
  • rotation of the eye is brought about by the 6 EOM attached to the globe of the eye
  • defects will bring about imabalanced rotation bet the eyes
  • if innervation of EOM is disrupted then you’ll have a binocular vision problems
  • pathology is also a cause eg diabetes
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2
Q

What happens to the image in the eye?

A

Image in either eye doesnt fall in the same place on the retina, hence you get double vision, eye strain and headaches

  • causes a failure in the fusion of the two images and result in diplopia for the patient and the appearance of strabismus
  • we need a lens which is going to deviate the light, displacing the image and allowing binocular vision
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3
Q

Prism

A
  • point where the surfaces meet is the apex
  • apex will be the thinnest edge of the prism
  • opp the apex is the base
  • the base will be the thickest edge of the prism
  • image is displaced on the direction of the apex
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4
Q

Prism Lens

A
  • May be with/without focal power
  • deviates the light from its original path
  • prism may be incorporated into an opthalmic lens by surfacing or induced by decentration
  • when surfacing prism, tools are tilted during manufacture to produce a specified amount of prismatic effect
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5
Q

Prism Units

A
  • 1 prism dioptre displaces and image 1 unit when viewed at a distance of 100 units
    eg 1 prism dioptre displaces an image 1cm when viewed at 100cm
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6
Q

Compounding and Resolving Prisms

A
  • if the prism base directions are the same or parallel in one lens then they can be added together
  • if the base directions are not parallel it is necessary to find the single resultant prismatic power and oblique base direction
  • this would be the case if the oblique prism is expressed in vertical and horizontal components
  • compounding prism is required if prism is given in horizontal and vertical from into a resultant prism in 360 degree rotation
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7
Q

Resolving Prism

A

required if prism is given as a single oblique resultant prism in 360 degree notation and it is required in horizontal and vertical component form

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8
Q

Centration

A

Positionin of the optical centre of the lens directly in front of the patients pupil
- want the px to look through the oc

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9
Q

Optical Centre

A
  • where vision is best, where rx is most accurate and where px receives the least amount of distortion or aberrations
  • also where theres no prismatic effect
  • if no prism is prescribed, you want oc to be in front of the pupil
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10
Q

Incorrect Centration and Prism

A
  • if the eye isnt positioned at the oc then prism will be experienced - eye has been moved
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11
Q

Prentice’s rule

A

P=cF
c= decentration (cm) and f= power
- relationship bet the power of the lens, the distance of the eye from the oc and the prismatic effect is derived from this rule

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12
Q

Prism by Decentration

A
  • for positive lenses the direction of the oc movement to induce prism is the same as the direction the prism is required
  • for negative lenses the direction of the oc movement to induce prism is the opposite to the direction of the prism base required
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13
Q

Unprescribed Prism

A
  • if px isnt looking through the oc then they will experience unwanted prism
  • if prism encountered by each eye is diff then the patient will experience differential prismatic effect - more problematic
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14
Q

Anisometropia

A

A diff in prescription between the two eyes of more than 1.50D

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15
Q

Splitting Prisms

A
  • as prism is described to allow the two eyes to work together, the prism can be shared bet the 2 eyes to balance these effects - results in thinner lenses
  • as long as the resulting difference bet the 2 eyes is still the amount of prism that is prescribed, the correct prism will be induced and the effect on the image displacement will still be the same
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16
Q

Vertical Prisms

A

can add opp bases together

- up and down are additive

17
Q

Horizontal Prisms

A
  • in and in are additive

- out and out are additive