Tuberculosis risk factors: Difference between revisions
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Tuberculosis, or TB is a bacterial infection that kills 3 million people worldwide, more people than any other infection in the world. Approximately one-third of the world is infected, and 15 million people in the US. Active tuberculosis kills 60% of the time if not treated, but treatment cures 90% of patients. Most people are infected with TB have latent TB. This means that the bacteria is controlled by the body's immune system. People with latent TB do not have symptoms and cannot transmit TB to other people. However, later if the infected person has a weakened immune system (AIDS, young children, elderly, sick with other diseases, etc.), the bacteria can break out leading to active TB, or TB disease. | Tuberculosis, or TB is a bacterial infection that kills 3 million people worldwide, more people than any other infection in the world. Approximately one-third of the world is infected, and 15 million people in the US. Active tuberculosis kills 60% of the time if not treated, but treatment cures 90% of patients. Most people are infected with TB have latent TB. This means that the bacteria is controlled by the body's immune system. People with latent TB do not have symptoms and cannot transmit TB to other people. However, later if the infected person has a weakened immune system (AIDS, young children, elderly, sick with other diseases, etc.), the bacteria can break out leading to active TB, or TB disease. | ||
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Progression from TB infection to TB disease occurs when the TB bacilli overcome the immune system defenses and begin to multiply. In primary TB disease—1 to 5% of cases—this occurs soon after infection. However, in the majority of cases, a latent infection occurs that has no obvious symptoms. These dormant bacilli can produce tuberculosis in 2 to 23% of these latent cases, often many years after infection.<ref name=Parrish_1998>{{cite journal |author=Parrish N, Dick J, Bishai W |title=Mechanisms of latency in Mycobacterium tuberculosis |journal=Trends Microbiol |volume=6 |issue=3 |pages=107-12 |year=1998 | pmid = 9582936}}</ref> The risk of reactivation increases with immunosuppression, such as that caused by infection with HIV. In patients co-infected with ''M. tuberculosis'' and HIV, the risk of reactivation increases to 10% per year. | Progression from TB infection to TB disease occurs when the TB bacilli overcome the immune system defenses and begin to multiply. In primary TB disease—1 to 5% of cases—this occurs soon after infection. However, in the majority of cases, a latent infection occurs that has no obvious symptoms. These dormant bacilli can produce tuberculosis in 2 to 23% of these latent cases, often many years after infection.<ref name=Parrish_1998>{{cite journal |author=Parrish N, Dick J, Bishai W |title=Mechanisms of latency in Mycobacterium tuberculosis |journal=Trends Microbiol |volume=6 |issue=3 |pages=107-12 |year=1998 | pmid = 9582936}}</ref> The risk of reactivation increases with immunosuppression, such as that caused by infection with HIV. In patients co-infected with ''M. tuberculosis'' and HIV, the risk of reactivation increases to 10% per year. | ||
Other conditions that increase risk include drug injection, mainly due to the lifestyle of IV drug users; recent TB infection or a history of inadequately treated TB; chest X-ray suggestive of previous TB, showing fibrotic lesions and nodules; [[diabetes mellitus]]; [[silicosis]]; prolonged [[corticosteroid]] therapy and other immunosuppressive therapy; head and neck cancers; [[hematology|hematologic]] and [[Reticuloendothelial system|reticuloendothelial]] diseases, such as [[leukemia]] and [[Hodgkin's lymphoma|Hodgkin's disease;]] end-stage kidney disease; intestinal bypass or [[gastrectomy]]; chronic [[malabsorption]] syndromes; or low body weight. | Other conditions that increase risk include drug injection, mainly due to the lifestyle of IV drug users; recent TB infection or a history of inadequately treated TB; chest X-ray suggestive of previous TB, showing fibrotic lesions and nodules; [[diabetes mellitus]]; [[silicosis]]; prolonged [[corticosteroid]] therapy and other immunosuppressive therapy; head and neck cancers; [[hematology|hematologic]] and [[Reticuloendothelial system|reticuloendothelial]] diseases, such as [[leukemia]] and [[Hodgkin's lymphoma|Hodgkin's disease;]] end-stage kidney disease; intestinal bypass or [[gastrectomy]]; chronic [[malabsorption]] syndromes; or low body weight. | ||
Revision as of 20:08, 3 July 2012
Tuberculosis, or TB is a bacterial infection that kills 3 million people worldwide, more people than any other infection in the world. Approximately one-third of the world is infected, and 15 million people in the US. Active tuberculosis kills 60% of the time if not treated, but treatment cures 90% of patients. Most people are infected with TB have latent TB. This means that the bacteria is controlled by the body's immune system. People with latent TB do not have symptoms and cannot transmit TB to other people. However, later if the infected person has a weakened immune system (AIDS, young children, elderly, sick with other diseases, etc.), the bacteria can break out leading to active TB, or TB disease.
Other conditions that increase risk include drug injection, mainly due to the lifestyle of IV drug users; recent TB infection or a history of inadequately treated TB; chest X-ray suggestive of previous TB, showing fibrotic lesions and nodules; diabetes mellitus; silicosis; prolonged corticosteroid therapy and other immunosuppressive therapy; head and neck cancers; hematologic and reticuloendothelial diseases, such as leukemia and Hodgkin's disease; end-stage kidney disease; intestinal bypass or gastrectomy; chronic malabsorption syndromes; or low body weight.
Twin studies in the 1950's showed that the course of TB infection was highly dependent on the genetics of the patient. At that time, it was rare that one identical twin would die and the other live.[2]
Some drugs, including rheumatoid arthritis drugs that work by blocking tumor necrosis factor-alpha (an inflammation-causing cytokine), raise the risk of activating a latent infection due to the importance of this cytokine in the immune defense against TB.[3]
References
- ↑ Parrish N, Dick J, Bishai W (1998). "Mechanisms of latency in Mycobacterium tuberculosis". Trends Microbiol. 6 (3): 107–12. PMID 9582936.
- ↑ New Scientist, 16 June 2007 [1]
- ↑ Mutlu G, Mutlu E, Bellmeyer A, Rubinstein I (2006). "Pulmonary adverse events of anti-tumor necrosis factor-alpha antibody therapy". Am J Med. 119 (8): 639–46. PMID 16887405.