It depends on the person and just how weak the immune system is. Antitoxidants are excellent to boost the immune system. Natural antitoxidants are Pomegranate juice (I drink 1 8 oz glass a day) Cranberries, etc. Go to a health food store and find out more about antitoxidants or go onto the internet.
Not very long. Usually when the germs first get into the body is when your immune system reacts to it. Any outbreak, and the immune system will be quick to get on it.
After being sick for so long, he had a weakened immune system.
Langerhans cells are a subset of dendritic cells that reside in the epidermis (Part of the immune system). They have long dendrites (like arms) that capture antigen in the skin, and when they find an antigen, they migrate to lymph nodes and present to T cells allowing the adaptive immune system to respond.
Langerhans cells are a subset of dendritic cells that reside in the epidermis (Part of the immune system). They have long dendrites (like arms) that capture antigen in the skin, and when they find an antigen, they migrate to lymph nodes and present to T cells allowing the adaptive immune system to respond.
The immune system is a system that protects your body from invaders such as bacteria viruses flu and other things without this we would all of died a long time ago.
Langerhans cells are a subset of dendritic cells that reside in the epidermis (Part of the immune system). They have long dendrites (like arms) that capture antigen in the skin, and when they find an antigen, they migrate to lymph nodes and present to T cells allowing the adaptive immune system to respond.
Langerhans cells are a subset of dendritic cells that reside in the epidermis (Part of the immune system). They have long dendrites (like arms) that capture antigen in the skin, and when they find an antigen, they migrate to lymph nodes and present to T cells allowing the adaptive immune system to respond.
Langerhans cells are a subset of dendritic cells that reside in the epidermis (Part of the immune system). They have long dendrites (like arms) that capture antigen in the skin, and when they find an antigen they migrate to lymph nodes and present to T cells allowing the adaptive immune system to respond.
Immunity to a disease is achieved through the presence of antibodies to that disease in a person's system. Antibodies are proteins produced by the body to neutralize or destroy toxins or disease-carrying organisms. Antibodies are disease-specific. For example, measles antibody will protect a person who is exposed to measles disease, but will have no effect if he or she is exposed to mumps. There are two types of immunity: active and passive. Active Immunity Active immunity results when exposure to a disease organism triggers the immune system to produce antibodies to that disease. Exposure to the disease organism can occur through infection with the actual disease (resulting in natural immunity), or introduction of a killed or weakened form of the disease organism through vaccination (vaccine-induced immunity). Either way, if an immune person comes into contact with that disease in the future, their immune system will recognize it and immediately produce the antibodies needed to fight it. Active immunity is long-lasting, and sometimes life-long.
Exposure to asbestos will likely compromise the immune system because of the long-term stress to the body. The test for asbestos exposure does not affect the immune system.
It depends upon the disease or abnormality one have, sometime it is possible that one did not need any medicine at all and get cure by own immune system.
A person can become immune by being vaccinatedwhich helps the body to develop long-term immunity against a disease.
Without an immune system you are unable to fight off the most minor infections which will only get worse. That is essentially the reason people die from AIDS, they are so immunosuppressed that they succumb to infections that a healthy immune system could handle with ease.