1 / 16

Color Blindness

Color Blindness. How the Eye Works. R ods , located in the peripheral retina, give us our night vision , but can not distinguish color. Cones , located in the center of the retina (called the macula), are not much good at night but do let us perceive color during daylight conditions .

agallagher
Download Presentation

Color Blindness

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Color Blindness

  2. How the Eye Works Rods, located in the peripheral retina, give us our night vision, but can not distinguish color. Cones, located in the center of the retina (called the macula), are not much good at night but do let us perceive color during daylight conditions. Each cone contains a light sensitive pigment which is sensitive over a range of wavelengths (each visible color is a different wavelength). http://colorvisiontesting.com/color2.htm

  3. What is color Blindness? Genes contain the coding instructions for pigments in the cones, if the coding instructions are wrong, then the wrong pigments will be produced, and the cones will be sensitive to different wavelengths of light (resulting in a color deficiency). The colors that we see are completely dependent on the sensitivity ranges of those pigments. A mild color deficiency is present when one or more of the three cones light sensitive pigments are not quite right and their peak sensitivity is shifted A more severe color deficiency is present when one or more of the cones light sensitive pigments is really wrong 8% of men and 0.5% of women have a color vision deficiency. Inherited as a gene from the mother, presents on the X chromosome.

  4. Acquired Color Vision Defects Chronic illnesses which can lead to color blindness include Alzheimer’s disease, diabetes mellitus, glaucoma, leukaemia, liver disease, chronic alcoholism, macular degeneration, multiple sclerosis, Parkinson’s disease, sickle cell anaemia and retinitis pigmentosa. Accidents or strokes that damage the retina or affect particular areas of the brain/eye can lead to color blindness. Medications such as antibiotics, barbiturates, anti-tuberculosis drugs, high blood pressure medications and several medications to treat nervous disorders may cause color blindness. Industrial or environmental chemicals such as carbon monoxide, carbon disulphide and some containing lead can also cause color blindness. Age – in people over 60 years of age physical changes can occur which might affect a person’s capacity to see colors. http://www.colourblindawareness.org/colour-blindness/acquired-colour-vision-defects/

  5. Color Deficiency http://www.allaboutvision.com/conditions/colordeficiency.htm

  6. Types of Color Blindnessor Vision Deficiencies Trichromacy- Normal color vision uses all three types of light cones correctly. People with normal color vision are known as trichromats. Monochromasy - complete absence of any color sensation. Protanomaly- a reduced sensitivity to red light Deuteranomaly- a reduced sensitivity to green light and is the most common form of color blindness Tritanomaly- a reduced sensitivity to blue light and is extremely rare.

  7. Normal Vision Deuteranopia reduced sensitivity to green light Deuteranopes are more likely to confuse: Mid-reds with mid-greens Blue-greens with grey and mid-pinks Bright greens with yellows Pale pinks with light grey Mid-reds with mid-brown Light blues with lilac

  8. Normal Vision Protanopia reduced sensitivity to red light Protanopes are more likely to confuse: Black with many shades of red Dark brown with dark green, dark orange and dark red Some blues with some reds, purples and dark pinks Mid-greens with some oranges

  9. Normal Vision Tritanopia reduced sensitivity to blue light The most common color confusions for tritanopes are light blues with greys, dark purples with black, mid-greens with blues and oranges with reds.

  10. Normal Vision Monochromacy No visible color only shades of grey http://www.colourblindawareness.org/colour-blindness/types-of-colour-blindness/

  11. Ishihara color blindness test only test for red and green color deficiencies http://www.color-blindness.com http://www.color-blindness.com/ishihara-38-plates-cvd-test/#prettyPhoto/0/ Testing for Color Blindness

  12. https://www.youtube.com/watch?v=o6QuYiY1EJg http://www.enchroma.com/

  13. Tetrachromacy • Four cones. • Ability to view more colors. • Can be function or non-functioning. • Hypothysis: 2-3% of female population.Tetrachromacy

  14. 16 color cones: Mantis Shrimp

  15. How other animals see…

More Related