What are the different types of anesthetic gases?
General anesthetics that cause unconsciousness, while painful or unpleasant medical procedures are carried out in different chemical conditions. One type, anesthetic gases, are often used because they provide benefits such as easy administration that other medicines used for the same purpose may not have. In most individuals, they can quickly cause a rapid loss of consciousness that is reversible when the gas flow is stopped. As with most of the drugs used for sedation, these gases can carry the possibility of side effects that may vary based on which drug is used.
Nitrous oxide is one of the more well -known anesthetic gases and has been used for about 200 years. Unlike some other anesthetics, this compound can be used both to induce unconsciousness and for pain control. This compound only works for a short time, which means that most people safely regain consciousness shortly after the flow of this gas. One of the disadvantages, however, is thg relief from painThese drugs are usually relatively weak, so they must usually be combined with other substances to reduce pain during surgery. Mixing strong narcotics with anesthetics can increase the chances of dangerous side effects, so this gas is usually used only in a controlled environment.
Halogenated Ethers are another class of anesthetic gases that have found use in modern medicine. Compounds in this category include ISOFLUran, Sevofluran and Desflurane. In general, these drugs can quickly produce unconsciousness and their doses can be carefully controlled, which reduces the chances of unnecessary exposure. However, they do not reduce pain to a large extent, so they must usually be administered with narcotics. The prolonged use of these anesthetic gases may sometimes cause the risk of damage to several types of tissues, including nerve and kidney cells.
xenon is also among the anesthetic gasNY that have been used in use, usually in a surgical environment. Its ability to place the individual in unconscious state is stronger than the ability of nitrous oxide, so that almost as much oxygen is not to be combined to be used safely. Human tissue seems to tolerate this substance somewhat better than some other medicines, which may reduce the likelihood of cell damage when used in the medical environment. However, this gas is expensive because of its rarity, so it must be issued by anesthetic devices that can recycle it to make Xenon an available option.