Color blindness
Related Terms
ACHM, achromatopia, acquired achromatopsia, autosomal recessive, color blindness, cone cells, congenital achromatopsia, nystagmus, photophobia, retina, rod monochromacy, vision disorder.
Background
Achromatopsia is a condition that leads to the inability to see color. About one in 30,000 people in the United States are affected with achromatopsia. This condition is much rarer than other forms of color blindness, such as red-green color blindness and X-linked color blindness.
Achromatopsia may either be acquired due to damage to the cerebral cortex of the brain (acquired achromatopsia), or it may be inherited due to mutations in specific genes (congenital achromatopsia).
Normally, color is sensed by cone cells in the retina of the eye. In congenital achromatopsia (a form of achromatopsia that is present at birth), the cone cells no longer function properly, resulting in color blindness. In cases of acquired achromatopsia, the cone cells typically are functional, and the color blindness results from other brain damage. Rod cells, another type of photoreceptor cell in the eye that function in less intense light than cone cells, are usually unaffected in patients with achromatopsia.
The severity of achromatopsia can vary among patients. Besides being unable to discriminate colors, patients may have blurred vision, nystagmus (involuntary eye movements, such as shaking or wobbling), or a heightened sensitivity to light that may cause discomfort or pain.
Signs and symptoms
Achromatopsia is the inability to see color. In the most severe form of the disease, called complete achromatopsia, the patient cannot see any color at all. Incomplete achromatopsia is a milder form of the disease where the patient has impaired ability to see color rather than a complete loss of color vision.
Other vision problems may also occur, and these can vary in severity among patients, depending on whether the patient has complete achromatopsia or incomplete achromatopsia. These symptoms may include blurred vision, nystagmus (involuntary eye movements, such as shaking or wobbling), or photophobia, which is a heightened sensitivity to light that may cause discomfort or pain.
Achromatopsia is considered a non-progressive disorder, meaning symptoms do not become more severe over time.
Diagnosis
Congenital achromatopsia is usually present from birth. Excessive quivering or squinting of the eyes may be signs that a child has achromatopsia.
Electroretinogram (ERG): A test called an electroretinogram may be used to measure the function of the cells in the eye. In this test, electrodes are placed on the cornea and near the skin of the eye, and the electrical activity in the eye cells is measured as a patient is shown different visual stimuli. This test can determine if the cone cells are functioning properly. This test may be used to confirm a diagnosis, especially in cases where a patient is too young to take other vision tests.
Vision tests: Achromatopsia may be diagnosed in older patients through the use of color vision tests.
Genetic testing: Genetic testing can be used to detect mutations in genes known to cause achromatopsia. These tests may be used to confirm a diagnosis if there is a family history of achromatopsia, or if symptoms of achromatopsia are present.
Complications
The vision problems experienced by patients with achromatopsia can be very disruptive to everyday activities, such as reading or driving. Also, simply being outside during the day can be difficult for patients due to the bright light. Patients with achromatopsia may make certain lifestyle decisions to increase their comfort. For example, some patients may avoid working, driving, or playing in daylight.
Treatment
There is no known cure for achromatopsia. Several treatments do exist to help reduce the severity of some of the symptoms.
Eyewear: The heightened sensitivity to light that some individuals with achromatopsia experience may be alleviated through the use of visors or sunglasses with special filters or tinted lenses.
Red-tinted contact lenses have been developed that allow patients with incomplete achromatopsia to better detect red lights, such as stop lights.
Microscopic eyewear has been developed that could help patients with decreased clearness of vision read small print, such as in newspapers.
Head positions: If a patient displays nystagmus, the involuntary eye movements could be reduced by adjusting specific head or eye positions.
Integrative therapies
Currently, there is a lack of scientific data on the use of integrative therapies for the treatment or prevention of achromatopsia.
Prevention
There are currently no known ways to prevent congenital achromatopsia. However, acquired achromatopsia may be prevented by following routine safety measures to protect against brain damage, such as wearing a bicycle helmet or a seatbelt.
Author information
This information has been edited and peer-reviewed by contributors to the Natural Standard Research Collaboration (www.naturalstandard.com).
Bibliography
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Chang B, Dacey MS, Hawes NL, et al. Cone photoreceptor function loss-3, a novel mouse model of achromatopsia due to a mutation in Gnat2. Invest Ophthalmol Vis Sci. 2006 Nov;47(11):5017-21.
Genetics Home Reference at the National Library of Medicine. .
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Kohl S, Varsanyi B, Antunes GA, et al. CNGB3 mutations account for 50% of all cases with autosomal recessive achromatopsia. Eur J Hum Genet. 2005 Mar;13(3):302-8.
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Causes
Congenital achromatopsia: Achromatopsia may result from a mutation, or error, within specific genes. This type of achromatopsia is inherited and is sometimes called congenital achromatopsia. Several genes have been linked to achromatopsia, and it has been shown that mutations in these genes may lead to the development of the disease. These genes include ACHM2 (CNGA3) and ACHM3 (CNGB3), which are ion channels found in cone cells (ion channels allow small electrically charged molecules, called ions, to enter or exit a cell), and ACHM4 (GNAT2), which is expressed in photoreceptors. All three of these genes are involved in transmitting the signal of light to the brain. Congenital achromatopsia is a recessive condition, meaning that both copies of a gene need to be defective for the disease to develop.
In congenital achromatopsia, the cone cells in the retina, which normally sense color, no longer function properly. In general, this defect results in an inability of the cone cells to properly respond to or detect light.
Acquired achromatopsia: Acquired achromatopsia is not inherited, but is due to damage in the brain, frequently in a region called the ventral occipital lobe. Individuals with acquired achromatopsia usually have properly functioning cone cells, but the color cannot be perceived by the brain.
Risk factors
The congenital form of achromatopsia is a recessive inherited genetic condition. Individuals have two copies of most genes (one inherited from the father and one from the mother). In a recessive genetic disorder, both copies of a certain gene need to be defective for the condition to manifest itself. Several genes have been linked to achromatopsia, and it has been shown that mutations in these genes may lead to development of the disease. People who only have one mutated gene are called "carriers." If only one parent is a carrier, none of the children will have achromatopsia, but 50% of the children will also be carriers; if both parents are carriers, then there is a 50% chance that a child will be a carrier and a 25% chance that a child will have achromatopsia.