Optometry
10 articles in this category.
What Is Vertex Distance? An Optometry Explainer
Vertex distance is the gap between your spectacle lens and the cornea — and it changes the power needed for contact lenses. Here's why it matters.
Read moreSpectacle to Contact Lens Conversion: A Step-by-Step Guide
Converting spectacle power to contact lens power isn't as simple as copying the Rx. Here's the step-by-step process with real examples.
Read moreVertex Distance and High Prescriptions: What Changes
For prescriptions above ±6.00 D, ignoring vertex distance can mean a half-dioptre error in your contact lens fitting. Here's what you need to know.
Read more7 Contact Lens Fitting Mistakes to Avoid
From skipping vertex distance conversion to ignoring tear film quality, these are the most common contact lens fitting errors — and how to avoid them.
Read moreContact Lens Power for Myopia: Why It's Weaker Than Your Glasses
Myopic contact lenses always carry less negative power than the spectacle prescription. Here's the optics behind it — with real numbers.
Read moreHyperopia and Contact Lenses: Why the Power Goes Up
Hyperopic contact lenses need more positive power than the spectacle prescription — often by 0.50D or more. Here's the reason and the numbers.
Read moreHow to Measure Vertex Distance Accurately
Most practitioners default to 12mm, but measuring the actual vertex distance matters for high prescriptions. Here's how to do it right.
Read moreFitting Toric Contact Lenses: Vertex Distance for Astigmatism
Astigmatic prescriptions need vertex distance conversion for both sphere and cylinder. Here's how to approach toric lens fitting with accurate converted powers.
Read morePresbyopia and Multifocal Contact Lenses: A Practical Guide
Presbyopic patients can wear contact lenses successfully — but multifocal fitting takes more than copying the near addition. Here's the clinical approach.
Read moreContacts vs Glasses: Why the Prescription Numbers Differ
If your glasses say −7.00D but your contact lenses say −6.50D, that's not a mistake. Vertex distance explains the difference — and it's intentional.
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