Finding macular degeneration treatment s. Vision problems due to the onset of macular degeneration are quite prevalent, especially in the elderly. Macular degeneration occurs when the macula, located in the central portion of the retina in the eye, becomes weakened or damaged. The result is a loss of central vision. Central vision is used to read and drive, so it is crucial to save as much of a patient’s vision as possible as soon as possible. Although this medical condition has no cure at this time, there are some promising new macular degeneration treatments that have shown to alleviate and slow down some of the symptoms of age-related macular degeneration.
There is a range of vision loss that can occur depending on the severity and type of age-related macular degeneration a patient has. Because it affects the macula located in the center of the retina, a patient’s peripheral vision is usually not adversely affected by the condition. With the onset of the condition, a patient’s vision might still be quite good, but the situation can worsen over time. There are two different types of age-related macular degeneration that often result in the greatest loss of central vision, and they are called wet and dry. The dry form of advanced macular degeneration is caused by the reduction of the rods and cones located in the retina, while wet advanced macular degeneration occurs due to leakage of excessive blood vessels and the resulting scarring under the macula.
One thing that retinal specialists might tell their patients with macular degeneration is to take certain vitamins as part of a spectrum of macular degeneration treatment s. Patients in the initial onset stages of this condition sometimes benefit from taking vitamins C, E, zinc, lutein, zeaxanthin and eating foods that are high in beta-carotenes, such as dark green leafy vegetables, corn and peas.
Another macular degeneration treatment can be found in cholesterol reducing drugs. People in the early stages of this medical condition often develop drusen, or yellow deposits, in the macula. The development and increase in the number of drusen seems to be related to the patient’s cholesterol level, with drusen more prevalent in those with higher cholesterol. Medications, such as statins, which reduce cholesterol, and aspirin, which reduces inflammation, may have a significant impact on reducing the size and number of drusen in the macula and thus lessen the chances of someone developing age-related macular degeneration.
A couple of wet advanced macular degeneration treatments, Macugen and Lucentis, have been approved by the FDA. Macugen is useful because it helps to reduce the number of excessive blood vessels that can grow under the retina. These can become inflamed and eventually burst, causing vision problems. Lucentis also reduces the growth of too many blood vessels. Lucentis is administered as an injection under the eye, and offers a great new treatment option for some patients with these kinds of vision problems.
The future is looking brighter with these emerging new macular degeneration treatments.
Susan Slobac has had a parent diagnosed with macular degeneration. She has had experience in macular degeneration treatment. In this article, she discusses macular degeneration risk factors.
For more information follow us at www.maculardegenerationassociation.org
Wednesday, June 30, 2010
Thursday, June 10, 2010
Wider access to drug to prevent and reverse eye damage
By: Staff Writer
Manitobans now have wider access to a drug to prevent and reverse eye damage, Health Minister Theresa Oswald said Wednesday.
The drug Lucentis is now available through doctors' offices to treat wet macular degeneration.
Last March the province said Manitoba Health would cover Lucentis treatment though the Misericordia Eye Centre of Excellence as of June 1.
At that time the province said it wanted to expand patient access to Lucentis through other retinal specialists' offices.
Oswald said Lucentis is now accessible through doctors' offices ahead of schedule.
Wet macular degeneration is a disease that can impair vision and cause blindness.
Lucentis has been available at no cost to Manitobans with wet macular degeneration since June 1 through the Misericordia and Manitoba retinal specialists.
Manitoba Health says up to 1,000 patients could benefit from this new program annually.
Manitobans now have wider access to a drug to prevent and reverse eye damage, Health Minister Theresa Oswald said Wednesday.
The drug Lucentis is now available through doctors' offices to treat wet macular degeneration.
Last March the province said Manitoba Health would cover Lucentis treatment though the Misericordia Eye Centre of Excellence as of June 1.
At that time the province said it wanted to expand patient access to Lucentis through other retinal specialists' offices.
Oswald said Lucentis is now accessible through doctors' offices ahead of schedule.
Wet macular degeneration is a disease that can impair vision and cause blindness.
Lucentis has been available at no cost to Manitobans with wet macular degeneration since June 1 through the Misericordia and Manitoba retinal specialists.
Manitoba Health says up to 1,000 patients could benefit from this new program annually.
Wednesday, June 2, 2010
Dampening a light-sensing reaction in the eye might slow a common cause of blindness
MIT Technology Review, by Emily Singer - Molecules designed to slow the production of toxic byproducts in the eye by making it less sensitive to light are now being tested in patients with macular degeneration, the leading cause of blindness in people age 50 and older. If successful, the compounds would provide a much needed therapy for the disease, which affects more than 15 million people in the United States.
In macular degeneration, cells in the center of the eye, called the macula, deteriorate. A handful of new treatments for the more severe form of the disease, known as wet AMD, have been approved in recent years. But no treatments are yet available for the dry form, which accounts for about 90 percent of cases. Some dry cases ultimately progress to the wet form, which accounts for a large part of AMD-related blindness. “If you can treat dry AMD, you can kill two birds with one stone,” both reducing early symptoms and preventing progression to the wet form, says Paul Sieving, director of the National Eye Institute, in Bethesda, MD.
While scientists are still trying to understand the causes of AMD–age is the biggest risk factor, with genetics and lifestyle factors also playing a role–a growing pool of evidence suggests that the build up of specific compounds in the eye can hasten the cellular damage that underlies the disease. These compounds accumulate in the photoreceptors–cells in the retina that detect light–during normal eye function as the light-sensitive pigments in these cells change conformation in response to photons.
One form of the photopigment, a derivative of vitamin A, is highly reactive and leaks into nearby tissue called the retinal pigment epithelium. “Over time we think these compounds are a burden for the retinal pigment epithelium, which is essential for the healthy function of the photoreceptors,” says Janet Sparrow, director of the Retinal Cell Biology Laboratory at Columbia University, in New York. “In age-related macular degeneration, particularly the dry form, these cells die, and the photoreceptors follow.”
While this reaction is vital for sight, researchers believe that slowing the cycle in the subset of photoreceptors responsible for night vision, known as rods, could slow damage without having a large impact on daytime vision. (Preliminary results suggest it can affect dark-adaptation–when our eyes adjust to low-light conditions.) “During the daytime, the rods are spinning like crazy, wasting vitamin A for no good use,” says Ryo Kubota, an ophthalmologist and founder of Acucela, a Seattle-based startup that is developing treatments for macular degeneration. “It’s like a CCD camera pointed at the sun.”
One compound developed by Acucela that is in clinical trials inhibits the enzyme that converts the photopigment in photoreceptors from one form to another. This process happens only in the eye, allowing the drug to be administered systemically without affecting other tissue, says Kubota. The company has finished initial safety testing in humans and plans to begin a clinical trial assessing the compound’s effectiveness in patients with late-stage dry macular degeneration in a few weeks. Kubota also aims to test the compound in diabetic retinopathy and Stargardt disease, a rare, genetically inherited form of macular degeneration.
A second drug that acts by a slightly different mechanism is being evaluated for macular degeneration by Sirion Therapeutics, a Florida-based pharmaceutical company. The compound is a synthetic vitamin A derivative that is thought to reduce toxin buildup by binding to one of the proteins involved in the reaction. According to preliminary results from tests of the drug in patients with late-stage dry macular degeneration, it can slow the scarring that is characteristic of the disease by 45 percent. However, scientists won’t know if the results are statistically significant until completion of the study next year. Because no treatments had been approved for dry AMD, in 2009, the U.S. Food and Drug Administration fast-tracked the drug, speeding the review process.
In macular degeneration, cells in the center of the eye, called the macula, deteriorate. A handful of new treatments for the more severe form of the disease, known as wet AMD, have been approved in recent years. But no treatments are yet available for the dry form, which accounts for about 90 percent of cases. Some dry cases ultimately progress to the wet form, which accounts for a large part of AMD-related blindness. “If you can treat dry AMD, you can kill two birds with one stone,” both reducing early symptoms and preventing progression to the wet form, says Paul Sieving, director of the National Eye Institute, in Bethesda, MD.
While scientists are still trying to understand the causes of AMD–age is the biggest risk factor, with genetics and lifestyle factors also playing a role–a growing pool of evidence suggests that the build up of specific compounds in the eye can hasten the cellular damage that underlies the disease. These compounds accumulate in the photoreceptors–cells in the retina that detect light–during normal eye function as the light-sensitive pigments in these cells change conformation in response to photons.
One form of the photopigment, a derivative of vitamin A, is highly reactive and leaks into nearby tissue called the retinal pigment epithelium. “Over time we think these compounds are a burden for the retinal pigment epithelium, which is essential for the healthy function of the photoreceptors,” says Janet Sparrow, director of the Retinal Cell Biology Laboratory at Columbia University, in New York. “In age-related macular degeneration, particularly the dry form, these cells die, and the photoreceptors follow.”
While this reaction is vital for sight, researchers believe that slowing the cycle in the subset of photoreceptors responsible for night vision, known as rods, could slow damage without having a large impact on daytime vision. (Preliminary results suggest it can affect dark-adaptation–when our eyes adjust to low-light conditions.) “During the daytime, the rods are spinning like crazy, wasting vitamin A for no good use,” says Ryo Kubota, an ophthalmologist and founder of Acucela, a Seattle-based startup that is developing treatments for macular degeneration. “It’s like a CCD camera pointed at the sun.”
One compound developed by Acucela that is in clinical trials inhibits the enzyme that converts the photopigment in photoreceptors from one form to another. This process happens only in the eye, allowing the drug to be administered systemically without affecting other tissue, says Kubota. The company has finished initial safety testing in humans and plans to begin a clinical trial assessing the compound’s effectiveness in patients with late-stage dry macular degeneration in a few weeks. Kubota also aims to test the compound in diabetic retinopathy and Stargardt disease, a rare, genetically inherited form of macular degeneration.
A second drug that acts by a slightly different mechanism is being evaluated for macular degeneration by Sirion Therapeutics, a Florida-based pharmaceutical company. The compound is a synthetic vitamin A derivative that is thought to reduce toxin buildup by binding to one of the proteins involved in the reaction. According to preliminary results from tests of the drug in patients with late-stage dry macular degeneration, it can slow the scarring that is characteristic of the disease by 45 percent. However, scientists won’t know if the results are statistically significant until completion of the study next year. Because no treatments had been approved for dry AMD, in 2009, the U.S. Food and Drug Administration fast-tracked the drug, speeding the review process.
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