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Strabismus

Strabismus, also known as "heterotropia", "squint", "crossed eye", "wandering eye", or "wall eyed", is a disorder in which the eyes do not point in the same direction. It typically involves a lack of coordination between the extraocular muscles which prevents bringing the gaze of each eye to the same point in space, preventing proper binocular vision, which may adversely affect depth perception. The cause of strabismus can be a disorder in one or both of the eyes; for example, nearsightedness or farsightedness, making it impossible for the brain to fuse two different images. more...

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When strabismus is congenital or develops in infancy, it can cause amblyopia, in which the brain ignores input from the deviated eye although it is capable of normal sight. Since strabismus can cause amblyopia, which is sometimes referred to as lazy eye, it is sometimes itself inaccurately referred to as lazy eye.

In addition to the visual problem, strabismus can be considered a cosmetic problem owing to the appearance of the deviated eye. One study reported that 85% of adult strabismus patients "reported that they had problems with work, school and sports because of their strabismus". The same study also reported that 70% said strabismus "had a negative effect on their self-image" .

Types

Strabismus may be concomitant or incomitant. Concomitant strabismus means that the strabismus is equal regardless of which direction the gaze is targeted. This indicates that the individual extraocular muscles function individually, but that they may simply not be aimed at the same target. Concomitant strabismus in a child under the age of 6 rarely indicates serious neurologic disorder. Blindness in one eye usually causes concomitant strabismus, with the eye of a child turning inward, and that of an adult turning outward.

Incomitant strabismus occurs when the degree of misalignment varies with the direction of gaze. This indicates that one or more of the extraocular muscles may not be functioning normally. Types of strabismus include:

  • esotropia, or one eye turning inward;
  • exotropia, or one eye turning outward;
  • hypertropia, or one eye turning upward.
  • hypotropia, or one eye turning downward.

Medial strabismus manifests as the inability to abduct (move laterally) one's eye. This is usually caused by damage to the abducens nerve or abducens nucleus. The result is that the eye in its normal resting state deviates medially, as the movements of the medial rectus muscle are less opposed by the denervated lateral rectus muscle.

Pseudostrabismus is the false appearance of strabismus. It generally occurs in infants and toddlers whose bridge of their nose is wide and flat. This causes the appearance of strabismus. With age the child's bridge of their nose will narrow and the folds in the corner of the eyes will go away. To detect the difference between pseudostrabismus and strabismus use a flashlight and shine it in the child's eyes. When the child is looking at the light a reflection can be seen on the front surface of the pupil. If the eyes are properly aligned with one another then the reflection will be in the same spot of each eye. If strabismus is present, then the reflection from the light will not be in the same spot of each eye.

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AAP clinical report on diabetic retinopathy
From American Family Physician, 10/1/05 by Laura Coughlin

The American Academy of Pediatrics (AAP), in conjunction with the American Association for Pediatric Ophthalmology and Strabismus, released a clinical report reviewing the risk factors and screening guidelines for diabetic retinopathy in children. "Screening for Retinopathy in the Pediatric Patient with Type 1 Diabetes mellitus" can be found in the July 2005 issue of Pediatrics and is available online at http://www.pediatrics.org.

Diabetic retinopathy is the number one cause of blindness in young adults in the United States. According to the report, the strategy for minimizing the risk for diabetic retinopathy should have three parts: (1) treating the underlying metabolic disorder and related comorbidities, (2) developing treatment options for patients with ocular disease, and (3) identifying the risk factors for ocular disease and implementing screening programs.

In one study, patients who received intensive treatment (i.e., insulin pump or at least three insulin injections per day, frequent phone calls and office visits, self-management education materials) had a substantially decreased risk of onset and progression of retinopathy compared with patients treated with conventional therapy.

Studies of diabetic macular edema and proliferative diabetic retinopathy showed that laser therapy improved outcomes in patients at high risk for ocular disease. The risk of moderate vision loss caused by diabetic macular edema was reduced by 50 percent. Risk of severe vision loss caused by proliferative diabetic retinopathy was reduced to less than 2 percent.

Early nonproliferative diabetic retinopathy is characterized by microvascular changes that may lead to ischemia, small retinal hemorrhages, and leakage of exudative fluid in the retina. more severe nonproliferative diabetic retinopathy is characterized by microvascular abnormalities in the retina, more extensive hemorrhages or microaneurysms, and changes in venous caliber and tortuosity caused by capillary closure and ischemia. Proliferative diabetic retinopathy can cause vision loss because of vitreous hemorrhage or retinal detachment. The report suggests that laser surgery is indicated when a patient's eye approaches or reaches high-risk proliferative diabetic retinopathy, which is characterized by one or more of the following lesions:

* New vessels on the optic disc that are at least one fourth of the disc area in size

* New vessels on the optic disc that are less than one fourth of the disc area in size when fresh hemorrhage is present

* New vessels on other parts of the retina that are at least one half of the disc area in size when fresh hemorrhage is present

Risk factors for the development of diabetic retinopathy include:

* Duration of disease (98 percent of patients who have had diabetes for 15 or more years have diabetic retinopathy)

* Age (children younger than 10 years with type 1 diabetes mellitus have a very small risk of diabetic retinopathy)

* Puberty (hormonal changes during puberty increase the risk of diabetic retinopathy regardless of age)

* Pregnancy

The American Academy of Ophthalmology recommends yearly screening beginning five years after the diagnosis of diabetes. The American Diabetes Association recommends yearly screening three to five years after diagnosis of diabetes after the patient reaches 10 years of age. The AAP recommends yearly screening three to five years after the diagnosis of diabetes in patients older than nine years.

COPYRIGHT 2005 American Academy of Family Physicians
COPYRIGHT 2005 Gale Group

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