Gout drugs are widely used for the treatment of chronic pain, but a new drug that can treat gout-related symptoms and symptoms of fatigue and anxiety could be on the market within a year.
The drug, Ganoderm Adaptogen (GA), is based on an extract of the ginseng plant and is produced in an experimental facility.
It is designed to mimic the natural immune response that takes place when ginsenosides, a type of immune protein, enter the body.
But unlike ginsulin, which is a protein that is produced by the pancreas and is necessary for normal metabolism, GAA is produced naturally by the immune system.
The result is that it’s less likely to cause side effects than ginsen and is much more potent.
Its potential is huge: it could help people with chronic pain manage their chronic illnesses and boost their immune system, while potentially providing relief from fatigue and other symptoms of gout.
“If you have chronic pain and your immune system is damaged, it can become very problematic, and you need to use medication to manage it,” says Dr. Steven G. Sankoff, chief of the Division of Endocrinology and Metabolism at the Mayo Clinic.
GAA was developed to treat the autoimmune disease, rheumatoid arthritis.
It also is being used to treat anxiety, depression, chronic fatigue, and chronic pain.
“GAA was created as a way to treat a condition that’s been linked to a lot of the autoimmune diseases that people have, and we were able to create a drug that could be very effective in treating that condition,” says Sankhoff.
The first clinical trial of GAA in humans is expected to be completed next year.
GA has been developed in a collaboration between GlaxoSmithKline and Regeneron Pharmaceuticals.
The company hopes to launch a generic version of the drug next year, and the drug could eventually be available in the U.S. for $80 a pill.
GA is a unique combination of two compounds that are being developed in parallel, GAG, a natural compound that has been shown to have significant anti-inflammatory properties, and GABA, a chemical compound that is important for inflammation and inflammation-related disorders.
Both compounds are derived from the ganoid species, which are related to the plants that produce ginsens.
The ginsene in ganoids is produced from the plant by the enzyme hydroxypropanediol.
When the enzyme is broken down by the digestive system, the resulting ginsin is converted to a different molecule, called ganodeoxyglucoside, which then enters the body, where it is then metabolized by the body’s immune system and released into the bloodstream.
GABA was found to be a natural inhibitor of GAG and, when administered in combination with GAG to patients with inflammatory arthritis, reduced the risk of developing the disease.
“When you combine these two drugs, you create a molecule that can be used as an alternative to GAG,” Sankowitz says.
GGA and GAA work by targeting different types of receptors in the immune systems of the body and can work together to reduce inflammation.
Both drugs act as natural antagonists to GGA, but the ability to inhibit GAG has been the greatest drawback of the two.
GAG is an enzyme that is present in the body but does not exist in ginsenes.
GDA is produced when GAG interacts with receptors in cells and has an anti-cancer effect.
“GABA is a natural enzyme, and it is very active in cells,” Sinkoff says.
“We thought, ‘Why would it be that the GGA compound is not active in GGA?'”
The scientists found that the gansens were able, when injected into the skin, to reduce GGA activity by about 20% and reduced GAG activity by 25%.
“This combination, in combination, is able to reduce the inflammation in the inflammation-associated arthritis,” Sattenberg says.
Sattenburg says this is an important finding because it indicates that the drugs might be able to treat arthritis that is triggered by GGA activation.
The researchers also found that when patients with arthritis received a GGA infusion for six months, the number of new infections and relapses dropped significantly.
“It is very interesting to see that it was a combination of both,” Satten said.
“I think there’s more to it than just the GAG-GA combo.
GAD is another type of autoimmune disease that we know a lot about, and there’s been a lot to be done to understand the mechanisms involved in this.”
Researchers are continuing to investigate the mechanism behind the drugs’ anti-inflammation properties and the mechanisms by which GAA and