Am I a candidate for laser vision correction?

 

The only way to ascertain whether you are a good laser vision correction candidate is to undergo a refractive consultation. We find that about 15% of patients we meet are not good candidates by our strict standards. Here are some conditions that may contraindicate laser vision correction:

 

  • Age below 18 years
  • Pregnancy or breastfeeding
  • Certain eye conditions, such as glaucoma, cataracts, herpes virus eye infections, keratoconus, or severe dry eye
  • Unstable glasses prescription over the past year
  • Certain collagen vascular diseases, such as rheumatoid arthritis, Sjögren's syndrome, and lupus
  • Unrealistic expectations

 

Schedule a consultation with Dr. Mandava >

DRY EYES

 

Dry Eye is most often defined based on the quantity or quality of your tears. Millions suffer from Dry Eye, a chronic disease that can worsen over time.

 

 

There are two forms of Dry Eye – Evaporative Dry Eye and Aqueous Dry Eye. 9 out of 10 individuals (86%)2 suffer from the evaporative form of Dry Eye.

 

LipiFlow® is a revolutionary treatment that allows your doctor to directly treat the cause of your Evaporative Dry Eye. Greenwich Ophthalmology is the only practice that now offers this FDA-cleared treatment.

 

Please click on the link below to learn more about LipiFlow.

 

 

 

REFRACTIVE DISORDERS

 

The majority of people that require glasses for distance vision are candidates for refractive surgery.
If you look at your prescription, it is written something like this:

 

OD -8.50 -3.25 x 180
OS -12.25 -0.75 x 175

 

OD means right eye, and OS means left eye.

 

The first number is the "sphere," the second number is the "cylinder," and the third is the "axis." Generally, if the sphere is negative, then you are myopic, and if the sphere is positive, then you are hyperopic. If there is a cylinder correction, than you have astigmatism. It is very common to have some degree of astigmatism combined with myopia or hyperopia.

 

 

 

Myopia

What is myopia or near-sightedness?

Myopia affects over 60 million Americans and causes blurry distance vision. Since near vision is clearer in this condition, another term for myopia is "near-sightedness". In myopia, light rays are focused too powerfully within the eye, leading to a blurry image that is in front of the retina. This can occur because the eye is too long or the front surface of the eye, known as the cornea, is too steeply curved. The excimer laser has been used to treat myopia since about 1986.

 

Myopia Diagram

 

Hyperopia

What is hyperopia or far-sightedness?

Hyperopia causes blurry vision more at near, but eventually vision becomes blurry at all distances. In this condition, images are focused too weakly within the eye. This can occur when the eye is to short, or when the cornea is not curved enough. The widespread availability of the excimer laser for treatment of hyperopia began in 1998.

 

 


Astigmatism

What is astigmatism?

A perfect cornea is spherical in the center. Astigmatism occurs when the central cornea is ovoid. Light is focused differently in one axis from another, causing blurring at all distances. It is very common to have some degree of astigmatism combined with myopia or hyperopia. Most astigmatism can be treated with the excimer laser.

 

 


Presbyopia

What is presbyopia?
Presbyopia is often confused with hyperopia. With advancing age, the human eye loses the ability to focus on near objects. Between the ages of about 40 and 50 years, everyone requires a new prescription for reading. This can be achieved by reading glasses, bifocals, or by removing distance glasses in certain cases of myopia.

 

Presbyopia cannot be directly treated with the excimer laser, but treatments can be adjusted to decrease dependence on reading glasses. People who only require glasses for reading are usually not good candidates for laser vision correction. Conductive Keratoplasty (CK) is a non-laser procedure approved for the treatment of presbyopia. Laser treatments for presbyopia are under development.