Congenital stationary night blindness
(Redirected from X-linked congenital stationary night blindness)
A genetic disorder affecting night vision
| Congenital stationary night blindness | |
|---|---|
| |
| Synonyms | CSNB |
| Pronounce | /ˌkɒn.dʒəˈnɪ.təl ˈsteɪ.ʃə.ner.i ˈnaɪt ˌblaɪnd.nəs/ |
| Field | Ophthalmology, Genetics |
| Symptoms | Difficulty seeing in low light or darkness, nystagmus, reduced visual acuity |
| Complications | Impaired night vision, educational or occupational limitations |
| Onset | Birth or early infancy |
| Duration | Lifelong |
| Types | Complete (type 1), Incomplete (type 2) |
| Causes | Genetic mutations (e.g., in the NYX, GRM6, TRPM1, or CACNA1F genes) |
| Risks | Family history of CSNB or consanguineous parents |
| Diagnosis | Electroretinography (ERG), genetic testing, clinical examination |
| Differential diagnosis | Retinitis pigmentosa, vitamin A deficiency, other forms of night blindness |
| Prevention | None |
| Treatment | Supportive; visual aids and low-vision services |
| Medication | None specific; vitamin A not effective |
| Prognosis | Stable; non-progressive with relatively good daytime vision |
| Frequency | Rare; estimated 1 in 100,000–1,000,000 |
| Deaths | Not life-threatening |
Congenital stationary night blindness (CSNB) is a group of rare, non-progressive genetic disorders that primarily affect an individual's ability to see in low-light conditions. This condition is present from birth and remains stable throughout life, distinguishing it from other forms of night blindness that may worsen over time.
Pathophysiology[edit | edit source]
CSNB is caused by mutations in genes that are crucial for the normal functioning of the retina, the light-sensitive layer of tissue at the back of the eye. These mutations disrupt the normal transmission of visual signals from the photoreceptor cells to the bipolar cells in the retina, leading to impaired night vision. The condition is typically inherited in an X-linked, autosomal dominant, or autosomal recessive manner, depending on the specific genetic mutation involved.
Types[edit | edit source]
There are several types of CSNB, which are classified based on the genetic mutations and the specific retinal pathways affected:
- CSNB1: Also known as complete CSNB, this type is characterized by a lack of rod function, leading to severe night blindness. It is often associated with mutations in the NYX gene.
- CSNB2: Known as incomplete CSNB, this type involves partial rod function and is often linked to mutations in the CACNA1F gene. Individuals with CSNB2 may have better night vision than those with CSNB1.
- Oguchi disease: A rare form of CSNB characterized by a unique golden or grayish discoloration of the retina, which disappears after prolonged dark adaptation.
Symptoms[edit | edit source]
The primary symptom of CSNB is difficulty seeing in low-light or dark environments, a condition known as nyctalopia. Other symptoms may include:
- Reduced visual acuity
- Nystagmus, or involuntary eye movements
- Myopia, or nearsightedness
- Strabismus, or misalignment of the eyes
Diagnosis[edit | edit source]
Diagnosis of CSNB typically involves a combination of clinical evaluation, family history, and specialized tests such as:
- Electroretinography (ERG): This test measures the electrical responses of the retina to light stimuli and can help differentiate between complete and incomplete forms of CSNB.
- Genetic testing: Identifying specific genetic mutations can confirm the diagnosis and help determine the inheritance pattern.
Management[edit | edit source]
There is currently no cure for CSNB, and management focuses on optimizing visual function and quality of life. Strategies may include:
- Use of low-vision aids and adaptive devices
- Regular monitoring by an ophthalmologist
- Genetic counseling for affected individuals and their families
Prognosis[edit | edit source]
The prognosis for individuals with CSNB is generally good, as the condition is non-progressive and does not lead to complete blindness. However, the degree of visual impairment can vary, and some individuals may experience significant challenges in low-light environments.
Related pages[edit | edit source]
External links[edit | edit source]
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