Method and apparatus of treatment of symptoms of the Irlen syndrom

1. A method for the treatment of perceptual impairments caused by scotopic sensitivity, comprising the steps of:

identifying and characterizing symptomatic indicia of said perceptual impairments;

sequentially interposing one or more optical filters between the eye of a patient having said perceptual impairments and an object perceived with said impairments, each said optical filter having a percentage attenuation of at least 60% at selected wavelengths within the range above 425 and below 575 nanometers and having a substantially higher transmittance at wavelengths above 575 nanometers and below 425 nanometers, with the transmittance at 575 nanometers being greater by at least a factor of 2 than the minimum transmittance in the range between 425 and 575 nanometers, said filters being graduated with respect to each other in their spectral characteristics;

comparing the symptomatic indicia of said perceptual impairments when viewing through each optical filter with said symptomatic indicia when not viewing through the optical filter to determine if said symptomatic indicia have been ameliorated; and

identifying the filter or combination of filters that minimizes said symptomatic indicia to generate a prescription for the optimum filter for the patient.

2. The method of claim 1 wherein said step of interposing said optical filters between said eye of said patient and said object perceived with said perceptual impairments includes interposing graduated optical filters.

3. The method of claim 1 where said steps of interposing said optical filters includes interposing optical filters having graduated optical densities and substantially the same transmission spectrum.

4. The method of claim 1, where said step of interposing said optical filters includes interposing optical filters having graduated spectral characteristics with substantially constant optical densities.

5. The method of claim 1 where said steps of interposing and continually interposing said optical filters includes interposing optical filters having a tint selected from the group of pink and peach.

6. The method of claim 1 where said steps of interposing and continually interposing said optical filters includes interposing optical filters having a gray tint.

7. The method of claim 1 where said steps of interposing and continually interposing said optical filters includes interposing optical filters having a yellow tint.

8. The method of claim 1 where said steps of interposing and continually interposing said optical filters includes interposing optical filters having a purple tint.

9. The method of claim 1 where said steps of interposing and continually interposing said optical filters includes interposing optical filters having a goldenrod tint.

10. The method of claim 1 where said steps of interposing and continually interposing said optical filters includes interposing optical filters having a green tint.

11. The method of claim 1 where said step of interposing said optical filters includes interposing filters selected from the group of pink, blue, gray, peach, purple goldenrod and yellow tints.

12. The method of claim 1 where said step of interposing said optical filters includes interposing optical filters having a tint selected from the group of pink and peach, and in addition thereto, a superimposing optical filter selected from a group having blue, green, gray, purple goldenrod and yellow tints.

13. The method of claim 1 where said step of interposing said optical filters includes superimposing a plurality of optical filters having different transmission spectrums.

14. The method of claim 13 where said step of superimposing optical filters of differing color spectrums includes superimposing a plurality of optical filters selected from a group having pink, gray, peach, purple, goldenrod and yellow tints.

15. A method for reducing visual impairment caused by the sensitivity of a patient to one or more bands of wavelengths within the range of 425 to 575 nanometers comprising:

providing a plurality of filters each having an attenuation of at least 60% at a selected band of wavelengths within the range of 425-575 nanometers and a substantially higher transmittance above and below said selected band, with the transmittance at 575 nanometers being greater by at least a factor of 2 than the transmittance at the selected band of wavelengths, the selected band of wavelengths being different for various ones of said plurality of filters;

sequentially interposing selected ones of said filters between an eye of the patient and an object being viewed by the patient;

determining which filter or combination of filters most reduces the visual impairment of the patient when the object is viewed therethrough; and

identifying the spectral characteristics of the filter or combination of filters that most reduces the visual impairment.

16. The method recited in claim 15 wherein the step of providing the plurality of filters includes providing a plurality of filters of different density for various ones of said selected bands.

17. The method recited in claim 1 further including the step of fabricating a single filter having the spectral characteristics defined by the prescription.

18. The method recited in claim 15 further including the step of fabricating a single filter having the spectral characteristics of the filter or combination of filters that most reduces the visual impairment.