The science of modern medicine may appear as sophisticated and technologically advanced to outside observers, and some techniques and pharmacological interventions lead to unstable outcomes or are difficult to forecast. Many patients are successfully treated by them. Yet there remain those illnesses which cannot be treated at all, and a significant proportion of the latter are the result of infection by what are known as viruses. The main imperative in approaching an untreatable virus is vaccine formulation development.
Unlike other pathogens, a virus cannot be destroyed by an antibiotic, since, technically it is not alive (i. E. Biotic in nature). Also, it is a germ, so it cannot be eliminated through mechanical techniques such as surgery or ultrasound. The only effective known intervention is a vaccine.
A vaccine partially imitates the virus in the patient's body, so that the person's immune system starts to manufacture viral antibodies. The body does this in response to the detected threat of the pseudo-virus (the vaccine).
These antibodies are only manufactured by the human immune system. They entirely eliminate the viral particles. Once the infection has been destroyed, though, the antibodies remain in the system indefinitely, preventing any future recurrence of that specific virus. By using immunization, life-long immunity is therefore generated without authentic infection taking place.
The process of the immunization of infants and young kids is based on this principle. They are typically immunized against common yet serious diseases like measles and polio. Immunization has become a standard practice, yet it is necessary. Smallpox and polio, two supposedly archaic names, used to be substantial threats to public health and maimed, disfigured or killed many people.
Some of the most lethal or serious sicknesses are the result of viral activity. The hemorrhagic fever Ebola is one, as is AIDS, meningitis (in one of its forms), and, as mentioned in the preceding paragraph, polio (which paralyses the patient if left untreated). Targeting these viruses for immunization development is obviously a primary priority in modern medicine. The public recognizes this priority, and the media are not slow to report on attempts to formulate an antidote to a notorious disease, no matter how empty such attempts may turn out to be.
Over time, however, a virus may mutate and return to a medication-resistant state. It either mutates into a new genetic form (strain), or simply develops resistance against the patient's antibodies. As frightening as this may sound, it is an ongoing phenomenon, as seen, for example, in the case of the influenza virus, which presents in a new strain every year. There is no immunization process against it because it mutates too quickly.
Ultimately, people should realize that a vaccine is only part of the solution to public infection and epidemics. If they are to be safe, people should also try to exercise sound personal health habits. Many illnesses, such as AIDS, can be prevented through basic practical precautions, and relying on science to produce cures is not always an option or even sensible.
Unlike other pathogens, a virus cannot be destroyed by an antibiotic, since, technically it is not alive (i. E. Biotic in nature). Also, it is a germ, so it cannot be eliminated through mechanical techniques such as surgery or ultrasound. The only effective known intervention is a vaccine.
A vaccine partially imitates the virus in the patient's body, so that the person's immune system starts to manufacture viral antibodies. The body does this in response to the detected threat of the pseudo-virus (the vaccine).
These antibodies are only manufactured by the human immune system. They entirely eliminate the viral particles. Once the infection has been destroyed, though, the antibodies remain in the system indefinitely, preventing any future recurrence of that specific virus. By using immunization, life-long immunity is therefore generated without authentic infection taking place.
The process of the immunization of infants and young kids is based on this principle. They are typically immunized against common yet serious diseases like measles and polio. Immunization has become a standard practice, yet it is necessary. Smallpox and polio, two supposedly archaic names, used to be substantial threats to public health and maimed, disfigured or killed many people.
Some of the most lethal or serious sicknesses are the result of viral activity. The hemorrhagic fever Ebola is one, as is AIDS, meningitis (in one of its forms), and, as mentioned in the preceding paragraph, polio (which paralyses the patient if left untreated). Targeting these viruses for immunization development is obviously a primary priority in modern medicine. The public recognizes this priority, and the media are not slow to report on attempts to formulate an antidote to a notorious disease, no matter how empty such attempts may turn out to be.
Over time, however, a virus may mutate and return to a medication-resistant state. It either mutates into a new genetic form (strain), or simply develops resistance against the patient's antibodies. As frightening as this may sound, it is an ongoing phenomenon, as seen, for example, in the case of the influenza virus, which presents in a new strain every year. There is no immunization process against it because it mutates too quickly.
Ultimately, people should realize that a vaccine is only part of the solution to public infection and epidemics. If they are to be safe, people should also try to exercise sound personal health habits. Many illnesses, such as AIDS, can be prevented through basic practical precautions, and relying on science to produce cures is not always an option or even sensible.
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