Clip-on FC2 - Dyslexic.
About 10 to 12% of the population is unable to study and read properly because of light sensitivity problems.
- Dyslexia is a complicated problem because no one knows exactly.
- The "disease" ranges from the inversion of texts and figures to the inability to understand (Irlen's disease).
- There is no standardized visual and medical performance test for this problem.
- National education has always oscillated for the learning of reading between the syllabic method and the global method, it sums up the problem a little bit.
- In one case, the reading is sound, so very precise, but longer, requiring a good ametropia.
- The other method is global and uses memory, but can lead to random approximations in case of visual disturbances.
As for the optical part, what can we do to improve the comfort of dyslexics?
If the problem is visual:
- A poor focus on the retina (myopia, hyperopia or astigmatism), requires accommodation more or less energy.
- This is where the optician can really show his expertise.
- Convergence :
- A lack of convergence is often the cause of asthenopia of accommodation.
- The optician can improve this with compensation prisms.
- The orthoptist can work the eye.
- Dry eye syndrome:
- Sensitivity to light, wind, cold, smoke, etc.
- Visual fatigue.
- The ophthalmologist can prescribe medication.
- The optician can adapt a wet on-glasse chamber or so-called "Google"
- Visual deficit:
- These are all non-correctible visual pathologies.
- The ophthalmologist, optician or orthoptist may propose:
- A filter increasing the contrasts.
- A filter to reduce visual fatigue.
- A filter to attenuate or correct the source of the disorder.
- A magnifying glass rule with a line guide to converge the view on an area.
- Promote visual aids rather pinhole (decrease the visual field area and reduce the task of diffraction).
- If the problem is neurological:
- It can be reduced by cutting the wavelengths approaching red, which makes the image flatter, more relaxing.
- How a filter works: a filter cuts wavelengths to blue, red or mixed. The color of the filter is the average of the remaining rays (the integral of the curve).
- The turquoise green tones are particularly interesting because they preserve a maximum circadian cycle by cutting blue and red.
- The pink hues cut more blue and flatten the image perfectly keeping a good brightness.
- Blue hues move the spectrum toward bruises, and are best suited for more invasive
- Lifting clips, mountable.
- There are several shapes to fit different frames.
- Download the color chart by Click here
A B D A B D FC1 55 46 15 59 50 15
FC3 53 40 15 57 44 15 FC4 53 46.5 15 57 50 15.5 FC5 51 46 14 55 50 15 FC6 54 43.5 16 58 47.5 16 FC7 56 43.5 15 60 47.5 15.5
|Public Price (Taxes Included)||79.96 €|