Keratectasia

Keratectasia (Keratectasid) is a pathological condition of the eye, which is characterized by protrusion of the cornea at the site of scar tissue formation. The scar tissue that forms on the cornea is thinner than normal corneal tissue, causing it to become deformed and bulge.

Keratectasia usually develops slowly and can cause vision impairment. This condition can be caused by various factors, such as genetic disorders, eye trauma, corneal surgical procedures, and long-term contact lens use.

Symptoms of keratectasia may include distortion of the visual field, decreased quality of vision, increased sensitivity to light, and the appearance of double vision. In some cases, patients may experience eye pain and headaches.

Various fundus examinations, such as corneal topography and pentacamera, may be performed to diagnose keratectasia. These procedures can determine the degree of corneal deformation and can be used to select the optimal treatment method.

Treatment for keratectasia may include observation, contact correction, scleroplasty (surgery that involves injecting a special solution into the eye that holds the cornea in place), and corneal transplantation. The choice of treatment method depends on the degree of corneal deformation and other factors such as the age and general health of the patient.

Overall, keratectasia is a serious eye condition that can cause significant vision impairment. It is important to consult an ophthalmologist at the first signs of this condition to receive qualified help and prevent further deterioration of vision.



Keratecthesia is a dangerous eye condition in which a bulge of the cornea in an area of ​​scar tissue temporarily interferes with the normal functioning of the eye. What is important to know about keratecthesia and what risks it may pose?

Keratectasia is called bittern



Keratectosia is a condition of the cornea where it begins to bulge. This can occur with various diseases of the cornea or injuries to the eyeball. During this disease, the cornea pushes out and increases in width due to its thinning, which leads to a decrease in its transparency. As a result, the cornea stops