What is Trichromat?

If you are colorblind, you have two types of color perception

They are called primary and secondary color perception. Primary color vision is called trichromacy, or tritochromacy in scientific terminology.

Primary color vision is able to distinguish between red, blue and green, but it can only distinguish shades of gray. This is because the cones in the retina only pass light through the middle of the cone (green) and nothing but the red (red) and blue (blue) cones. As long as these cones are intact, there will be no interference between any two wavelengths. The middle of the cone is very sensitive to all three colors, but since the cells of the cone are not designed to work with tricolor wavelengths, but only the colors you can see, it cannot give the same sensitivity to other colors. For example, if you look at an object in the distance, you will see red, green, and blue.

On the other hand, secondary color vision can distinguish all shades of color. The retinal cones are the same as the cells of the primary color vision. When light hits the retina and enters the three color channels, the cones begin to function normally. Then, when the wavelength to which they are sensitive does not match the wavelengths of other colors, they will determine the missing wavelength and then send an additional response to the other color channels that compensate for the missing light.

This type of color perception does not allow for interference between any two colors. This means that you cannot see green and violet together, but you can also see purple and orange or red and yellow, as well as a lot of other shades of light.

The way to correct this type of color blindness is to have the color centers in the retina matched by the cones. As long as the cones are intact, color vision will be possible. In addition, if you have a disorder that affects the retinal pigment epithelium, your color vision will be significantly impaired, as it blocks or reduces cones.

Because of this fact, trichromats and dichromats cannot correct their color blindness, because they do not have cones in their eyes. They only have a sensitivity to red, green and blue. There are two different ways to correct this type of color blindness: either by having tritan photoreceptors that stimulate cones in the retina or by using lenses that correct the cones and eliminate photoreceptor loss.

The problem is that there are many people who are dichromats and trichromats, so it is not easy to determine which one type of color blindness is the condition you have. Since tritan photoreceptors have been used for years, they have been called trichromacies.

If your tritan photoreceptor is damaged, you may still be able to correct your trichroma through surgery, as long as the surgery does not have a lot of side effects. There is a newer technique known as "trichroma retinitis," which involves taking tribal photoreceptors from other parts of your body and inserting them into the tritan photoreceptor of the eye.

It is believed that trichroma retinitis may also be caused by an immune system problem in the retina. One of the major concerns with trichrome retinitis is that some people believe that it causes vision problems. This is not true; although, if trichroma retinitis is causing vision problems, you may want to consult your doctor about it.

The new surgery, trichroma retinitis, has been around for quite a while, but most of the research on this treatment was done only recently. There are only about a hundred patients who have been treated, all with trichrome retinitis. It is hoped that it may help more people, but, in the mean time, there is a trichrome implant available to treat trichromat's.

The procedure is quite similar to the trichrome implant, except that the trichroma retinitis is in the inner part of the eye, where it is harder to detect. The new trichroma retinitis is placed into the iris and does not require an incision. It is placed under a microscope, so that it can be seen.

Some doctors feel that trichromat implants will not help, because trichromat implants are not actually color blind, but are able to correct cone loss in both the outer and inner parts of the eye, without affecting color. However, there is research that shows that it is possible that trichromats have better eyesight with trichromat implants.