These antibodies fail to recognize gastro health previously recognized antigens, so the immune system attacks the remaining antigens, leading to the production of even more antibodies against the same antigen. This repeats until the antibody production can no longer be suppressed. In the past we might have thought that the same thing would happen with diseases caused by proteins that have been mutated in the blood. We know now that the same kind of immune response is involved, and this response is also known as an inflammatory response. If this same immune response causes the same kind of damage in a part of the body, it can lead to the production of more and more inflammatory immune cells or even to the expression of inflammatory proteins. There is much to be learned, and I am certain that we will be discovering more as time goes on. The discovery of new genes for disease has been a big part of it. We are also working to make more specific diagnostic tests available to better diagnose or better predict disease outcomes, and this will be of crucial importance for preventing disease.
There are several ways we can help the immune system to produce more and better antigens and to overcome its deficiencies. We may also be able to understand why certain kinds of immune cells produce proteins and which ones do not. We now know that some types of immune cells produce more of a protein called tumor necrosis factor, which is important to maintain the integrity of the normal cell. There are many types of TNF that are produced by a variety of different immune cells and may have different effects. We may be able to use these studies to determine why certain types of immune cells produce more of a specific TNF receptor or cause it to function more efficiently.
We now have the ability to manipulate the genome at a level of detail beyond where any other organism can achieve. The ability to change a gene in one cell and cause an effect in another will lead inevitably to an increase in disease. In particular, it is clear that the ability to change DNA in tumors, may produce changes in the disease itself, particularly the ability of gastro health types to become cancerous, such as leukemia.
Prevacid is indicated to treat and prevent stomach and active duodenal ulcers in for short-term (for 4 weeks) treatment.
Prilosec relieves symptoms of gastroesophageal reflux disease decreasing the amount of acid in the stomach.
Aciphex reduces amount of acid in the stomach and relieves symptoms of gastroesophageal reflux disease.
Colospa causes relaxation of the muscles, preventing painful muscle spasms. The drug is used in the treatment of irritable bowel syndrome.
Imodium is an antidiarrheal drug which slows the rhythm of digestion and absorption of fluid in the small intestines.
Maxolon treats nausea and vomiting caused by intolerance to certain drugs with emetic properties.
Motilium improves upper gastrointestinal motility disordered in patients with chronic and sub-acute gastritis and diabetic gastroparesis.
Nexium reduces amount of acid in the stomach and helps patients with gastroesophageal reflux disease and Zollinger-Ellison syndrome.
Pepcid reduces amount of acid in the stomach assisting treatment and prevention of ulcers in the stomach and intestines.
Protonix decreases a ruining effect of stomach acid on mucous of esophagus and used to heal erosive esophagitis.
Reglan stimulates muscle contractions and is prescribed to treat heartburn caused by gastroesophageal reflux.
Zantac is prescribed for treatment and prevention of ulcers in the stomach and intestines, it works decreasing amount of acid in the stomach.
Asacol is bowel-specific aminosalicylate drug to treat inflammation caused by ulcerative colitis, proctosigmoiditis, and proctitis.