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W2016338405 abstract "Inhalation anthrax, an often fatal infection, is initiated by endospores of the bacterium Bacillus anthracis, which are introduced into the lung. To better understand the pathogenesis of an inhalation anthrax infection, we propose a two-compartment mathematical model that takes into account the documented early events of such an infection. Anthrax spores, once inhaled, are readily taken up by alveolar phagocytes, which then migrate rather quickly out of the lung and into the thoracic/mediastinal lymph nodes. En route, these spores germinate to become vegetative bacteria. In the lymph nodes, the bacteria kill the host cells and are released into the extracellular environment where they can be disseminated into the blood stream and grow to a very high level, often resulting in the death of the infected person. Using this framework as the basis of our model, we explore the probability of survival of an infected individual. This is dependent on several factors, such as the rate of migration and germination events and treatment with antibiotics." @default.
W2016338405 created "2016-06-24" @default.
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W2016338405 date "2011-05-01" @default.
W2016338405 modified "2023-09-23" @default.
W2016338405 title "Modeling the host response to inhalation anthrax" @default.
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W2016338405 cites W1872704179 @default.
W2016338405 cites W1966964426 @default.
W2016338405 cites W1974516704 @default.
W2016338405 cites W1975648878 @default.
W2016338405 cites W1977740588 @default.
W2016338405 cites W1982343605 @default.
W2016338405 cites W1988669638 @default.
W2016338405 cites W1990574547 @default.
W2016338405 cites W1994633231 @default.
W2016338405 cites W2001301879 @default.
W2016338405 cites W2010856383 @default.
W2016338405 cites W2018494910 @default.
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W2016338405 cites W2023897270 @default.
W2016338405 cites W2026149036 @default.
W2016338405 cites W2030093389 @default.
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W2016338405 cites W2036021001 @default.
W2016338405 cites W2037492234 @default.
W2016338405 cites W2042168393 @default.
W2016338405 cites W2046923162 @default.
W2016338405 cites W2047420973 @default.
W2016338405 cites W2049236196 @default.
W2016338405 cites W2052001310 @default.
W2016338405 cites W2053168741 @default.
W2016338405 cites W2055184363 @default.
W2016338405 cites W2063847765 @default.
W2016338405 cites W2068309990 @default.
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W2016338405 cites W2073103427 @default.
W2016338405 cites W2074843227 @default.
W2016338405 cites W2075611712 @default.
W2016338405 cites W2081158751 @default.
W2016338405 cites W2084069113 @default.
W2016338405 cites W2087258282 @default.
W2016338405 cites W2087672650 @default.
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W2016338405 cites W2122992021 @default.
W2016338405 cites W2125784517 @default.
W2016338405 cites W2127122040 @default.
W2016338405 cites W2129194923 @default.
W2016338405 cites W2134573759 @default.
W2016338405 cites W2137259085 @default.
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W2016338405 cites W2139477568 @default.
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W2016338405 cites W2171740144 @default.
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W2016338405 cites W4242771440 @default.
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W2016338405 doi "https://doi.org/10.1016/j.jtbi.2011.01.054" @default.
W2016338405 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3253853" @default.
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