LV - Near Low Vision Aids II - Week 5 Flashcards
Briefly describe how to prescribe near magnfication and considerations you will take into account (6).
Establish patient’s reading goals
Define print size and reading rate
Determine goal near acuity
-2 lines spare
Decide on importance of lighting
Determine magnification required
-can also use equivalent viewing distance
Demonstrate that magnifiers are appropriate for your patient
Do stand magnifiers provide illumination?
There is an illuminated option alongside non-illuminated
List two advantages and one disadvantage of stand magnifiers.
Advantages
-greater magnification
-stable
Disadvantages
-shorter working distance
Describe stand magnifiers. Is the focus variable or fixed? What is generally required for stand magnifiers?
Convex lens mounted at a fixed distance from reading material, supported on a stand
Variable or fixed focus
Add/accommodation usually required
What is the usual distance from the reading material to the lens?
Slightly less than fm
What age populations are visolettes for?
Children
List three advantages and one disadvantage of visolettes.
Advantages
-stable
-good light gathering properties
-simple
Disadvantages
-low magnification
What magnification can visolettes provide up to?
Only up to 2x
Describe how visolettes are used. What kind of lens is it?
It is a simple magnifier placed onto the page directly
-planoconvex lens
Must patients wear their prescription in order to use stand magnifiers?
Yes
List the instructions for using stand magnifiers (5).
Rest stand on reading material
Line of sight perpendicular to magnifier
Move eyes and magnifier as a unit
Use appropriate lighting
Maintain good posture
Patients with what kind of disorders particularly benefit from stand magnifiers?
Tremors/poor motor control
Describe the condition required for apparent magnification. When raytraced, where does the chief ray travel through and does it deviate? How do all other rays from the object travel relative to this chief ray and what does this mean for how the object is seen?
The object is at the focal plane of the lens
-image is formed at infinity
Chief ray from the object passes through the lens optical centre and passes through without deviating
All other emerging rays will be parallel to the chief ray
-therefore the image is seen at optical infinity
Consider the optics behind apparent magnification. Is the angular subtense of the image dependent or independent to the distance between the lens and the eye? Explain why this is the case.
It is independent
-all emerging rays are parallel to the chief ray, which passes through the optical centre with no deviation
-if the distance changes, the angular subtense is the same
Consider the optics behind apparent magnification. What happens as the eye moves back away from the lens and what happens to the image as a result? What happens to field of view and the magnifier’s resolving capacity?
The angular dimension of the lens becomes smaller
The image appears to be enlarging
-hence ‘apparent’ magnification, patients will coment on it
-image size actually remains constant, but field of view becomes smaller
-resolving capacity is unaltered
-image size will only appear larger to the patient, it remains the same