Vertex distance

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The vertex distance is the distance between the surface of your eye and the center back of your lens. As the lens moves further from the eye, the perceived strength of your lenses is altered. This is particularly important to know about when switching between contacts and eyeglasses, and for very high myopes.

Calculation

The effect of vertex distance on the perceived diopter strength of your glasses can be expressed by:

,

where is the corrected (perceived) diopter number, is the diopter strength of your lenses and is the vertex distance in meters. It is important to note here that this equation is sensitive to minus signs of your diopter strength.

Example for a vertex distance of 15mm (=0.015m):

In the above example the -4.0 dpt glasses yield the same level of correction as -3.75 dpt contact lenses. It can be seen that vertex distance increases the strength of Plus Lenses and decreases the strength of Minus Lenses. The effect is noticeable above 4.0 dpt and is mostly negligible for Low Myopia.


The expression looks less intimidating when you remember that (by definition) the Diopter is the reciprocal of the focal length. So it's really just:

where and

Conceptually, the focus length is reduced (power is increased) because it has moved closer to the source of the image.

Practical Guidelines

  • I have High Myopia. How does Vertex Distance affect me?

If you wore contact lenses before EndMyopia (EM) and continue to use contact lenses throughout your EM journey - Then vertex distance doesn't affect you.

If you wore glasses before EM and continue to wear glasses during EM then it is recommended to invest in a Lens Kit and choose your reduced lenses based on testing your visual acuity - Then vertex distance doesn't affect you. If you do not have access to a lens kit and you want to reduce in pre-defined diopter steps - Then vertex distance can affect you: For example, reducing from -14.0 dpt to -13.75 dpt at a vertex distance of 15mm results in an effective perceived diopter drop of only 0.17 dpt, further reducing to -13.5 dpt would result in an effective diopter drop of 0.34 dpt.

If you switch from glasses to contact lenses at high myopia or vice-versa you definitely will need to account for vertex distance before buying new corrections.

No. Your differential correction will not undercorrect you by a diopter margin where vertex distance plays a role.

  • How do I measure my vertex distance?

Ask a second person to measure the distance from your closed eye to your glasses while you wear them. Or, as a literal "rule of thumb", try placing different fingers between your closed eye and the back of your glasses, then measure the thickness of your finger - This is an estimate for your vertex distance.

  • I use the endmyopia.org Diopter Calculator App and my results differ from my manual centimeter measurements, why?

The Diopter Calculator App for Android (as for the June 2020) measures the distance from the screen to the tip of your nose. Since the distance from the nose to your eyeball is not taken into account, your focal length seems smaller (and your diopters higher) than with a manual measurement. You can however correct these values by applying the same formula as for the vertex distance, inserting the distance from the tip of your nose to your eyeball for .

References