Example research essay topic: The Eye And Laser Surgery - 1,567 words

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A Functioning Eye (Emmetropia) The eye is the organ of sight. It is used in almost everything we do, from playing sport to reading. A normal and well functioning eye can focus objects and images, both near and far, perceive depth and adapt to changes in light. The perception of depth is due to having two separate eyes creating two separate images, while the ability to adapt to light change is attributed to the iris and the dilator muscles. However these two aspects of the eye are not involved in laser eye surgery and will not be discussed in reference. The focusing of objects and images is very much part of laser eye surgery.

In order for a clear visual image to be formed the image must come to a point on the retina. Light rays do not normally travel toward each other, usually the light rays either travel outwards or almost parallel, for this reason the light rays must be refracted. The cornea is the primary place of refraction, the bent light rays then travel through the aqueous humor and the pupil to the lens. Here the light is one again refracted even closer together, the light then goes through the vitreous humor and is projected onto the retina. The focus of the lens should be aimed at the fovea central (a tiny pit in the middle of the macula).

It is in this region that vision is most sharp. For this reason, instead of simply staring at one point the eye must constantly scan the area to focus the whole object or image. In order to accommodate the changing distances of the object or image the lens in the eye has to adjust, becoming thinner to focus distant objects and fatter to focus near by objects. This process, of changing the lens thickness is known as accommodation. In order for this to occur the ciliary muscles contract and relax.

The contraction fattens the lens and the relaxation stretches the lens. The eye functions on much the same principle as a camera. The iris, or coloured portion of the eye, acts as a shutter to regulate the amount of light admitted to the eye. The cornea (the clear window at the front of the eye) and the lens (located behind the pupil) serve to focus light rays from the object viewed onto the retina at the back of the eye.

The retina then transmits the "picture" of the object viewed to the brain where the object is "seen." Clear vision is the result of light rays passing through the cornea, pupil and lens and focusing directly upon the retina. If the cornea is not round or it is too steep or too flat in relation to the length of the eye, light rays focus either in front of or behind the retina resulting in "refractive errors" such as nearsightedness (myopia), farsightedness (hyperopia) and astigmatism. Refractive surgery is a term for several procedures designed to treat these vision abnormalities. Eye Defects Myopia - is the refractive condition where the farthest point of focus is located at a point near to the observer, and not at infinity. When one is nearsighted, distance vision is blurred at all times while near vision is often excellent within a certain range. There are a number of explanations for this optical condition.

The eyeball may be too long, causing the image to be focused short of the retina at the back of the eye. Or, the focusing lenses of the eye are too strong. The primary focusing lens is the cornea, the clear window at the very front of your eye. The internal lens, called the crystalline lens, is adjustable and alters your focus from distance to near.

Sometimes, one of these two lenses may have a radius of curvature that is too steep. In myopia, it is often the cornea that is too highly curved. It is this curvature which is altered in laser eye surgery. Shortening the eyeball has been tried, but it has not been without the potential of serious and permanent damage.

Often in situations where the crystalline lens is forced into an excessive plus power curvature, myopia can result. This may occur from near vision stress, a spasm of the ciliary muscle, diet, medications, and even emotional fatigue. Hyperopia - The cornea and the lens work together to focus images from the visual world on the back of the eye (the retina). If an image is out of focus, it is typically because the overall shape of the eye is incorrect or the cornea does not have the proper curvature. Farsightedness or hyperopia occurs when the eye is too small or the cornea is too flat. When this happens, visual images are focused behind the retina.

A person with hyperopia is able to see objects at a distance, but has trouble with objects up close. Many people are not diagnosed with hyperopia without a complete eye exam. Astigmatism - is a vision condition that occurs when the front surface of your eye, the cornea, is slightly irregular in shape. This irregular shape prevents light from focusing properly on the back of your eye, the retina. The light becomes unevenly refracted and falls short of the retina.

As a result, your vision may be blurred at all distances. People with severe astigmatism will usually have blurred or distorted vision, while those with mild astigmatism may experience headaches, eyestrain, fatigue or blurred vision at certain distances. Most people have some degree of astigmatism. A comprehensive optometric examination will include testing to diagnose astigmatism and determine the degree. Presbyopia - is a vision condition in which the crystalline lens of your eye loses its flexibility, which makes it difficult to focus on close up objects. Presbyopia may seem to occur suddenly, but the actual loss of flexibility takes place over a number of years.

Presbyopia usually becomes noticeable in the early to mid-forties. Presbyopia is a natural part of the aging process of the eye. It is not a disease and it cannot be prevented. Some signs of presbyopia include the tendency to hold reading materials at arm's length, blurred vision at normal reading distance and eye fatigue along with headaches when doing close work. A comprehensive optometric examination will include testing for presbyopia. What is Laser Eye Surgery?

Laser surgery reshapes the cornea, the clear window in front of the eye, which provides two-thirds of the focussing or refractive power of the eye (the lens located behind the iris and pupil provides one third). Shortsightedness is corrected by making the cornea flatter. Long-sightedness is corrected by making the corneal curve steeper while astigmatism is corrected by returning the cornea to a spherical shape. Excimer lasers were first developed by the computer industry for precisely etching microchips, are used. The same cold ultraviolet beam with the assistance of computer technology accurately removes corneal tissue, altering its shape. To correct most vision problems the amount of corneal tissue removed is less than a third of the thickness of a human hair.

History of the Excimer Laser This recent development in the application of lasers to ophthalmology was the reshaping of the cornea in a procedure known as photo refractive keratectomy. The excimer laser itself, a device that often uses a mixture of argon and fluorine gases (other gases such as Xenon and Chlorine can also be used), was developed in the mid- 1970 s. A number of researchers were involved in early work with the excimer laser and its application to ophthalmology. In the late 1970 s and early 1980 s, John Taboada found that corneal epithelium is extremely sensitive to the excimer's 193 -nanometer wavelength light. Also in the early 1980 s, R. Srinivasan, an IBM researcher, was using an excimer laser to etch microscopic circuits in computer chips and discovered that it could also be used to cut and remove biological tissue, with extreme precision and most importantly without substantial thermal damage.

Stephen Travel, of Columbia University, worked with Srinivasan and in 1983 published his work on applying this precision to create linear "excisions" in the cornea. How the Excimer Laser Works In the development of laser technology, excimer lasers operating in the ultra-violet may be considered as the third generation of industrial lasers. The short wavelength, or, in other words, the high photon energy of excimer lasers, leads to a wide range of new applications. Excimer stands for excited dimer, a diatomic molecule usually of an inert (noble) gas atom and a halide atom, which are bound in excited states only. These diatomic molecules have very short lifetimes and separate releasing the exception energy through UV photons.

The Excimer Laser used is an Ultraviolet Light Laser. This light has a high degree of energy associated to it. This energy does not produce appreciable heat but is capable of breaking the bonds between the complex molecules that make up the corneal tissue. A powerful computer guides the Laser beam during the procedure to obtain the degree of accuracy required to remodel the cornea. An electrical discharge is used to bring energy into the laser. The current required for laser operation is very high, so the discharge becomes inherently unstable after a certain time.

The laser can therefore only operate in pulses. With a sophisticated electrical circuit the discharge can be kept stable for 400 ns (nano-seconds). The corresponding o...

Research essay sample on The Eye And Laser Surgery