There are many medicines that relieve or relieve pain, and there are many medical and scientific names available to them together. They are called pain relievers. But how does the medicine know the location of the pain? The issue is not that easy, that is, to take medicine to relieve ear pain, for example, or migraine headaches, or pain in one of the body’s organs, so the analgesic medicine goes directly to that area.
How does the drug know its way to the place of pain in the body?
There are a lot of medicines that relieve or calm pain, and they have a lot of medical and scientific names together, but they are generally called pain relievers, pain relievers. But how does the drug know where the pain is? In fact, the subject is not very precise, in the sense that you are taking medicine to relieve middle ear pain, for example, left migraine, kidney pain, etc. And when a particular cell is damaged or injured, it releases a chemical called (prostaglandin), which is sensitive to it, and for this reason these nerve endings connect to the brain, informing it of the location and extent of the damage and thus pain.
Therefore, when you take a pill through your mouth, which goes to your stomach and then to your intestines, it is absorbed there directly into your bloodstream. The drug circulates with the blood throughout your body and cells of your body, and in its journey it encounters the prostaglandin that cells release to be chemically attracted to them, as it works to prevent cells from secreting these substances. material, and the pain stops or subsides.
There are many attempts today, but rather more than that, in light of the possibility of nanotechnology, optical or electromagnetic guidance, to be able to direct special drug doses to the place of pain directly and without dispersal and branching.
So when you take a pill through your mouth, which goes to your stomach and then to your intestines, and then it gets absorbed straight into your bloodstream, so the drug travels with the blood all over your body and your body cells, and so on its journey it encounters the prostaglandin that cells secrete to chemically attract them as it works to prevent The cells make this substance, so the pain stops or goes away. Note: There are many attempts today, but they have become more than that due to the possibility of #nanotechnology, light guidance or #electromagnetic, to be able to direct #drug_doses to the place of pain directly and without dispersal or branching.