Prophylaxis after Exposure to Coxiella burnetii - CDC
Recommend Documents
We are grateful to Marie-Laure Birg and Jean-Yves Patrice for their technical assistance in ... In: Mandel GL, Douglas RGJ, Bennett JE, editors. Coxiella burnetii.
Mar 25, 2008 - Q fever is a zoonosis caused by Coxiella burnetii, a bacterium largely carried by ruminants and shed into milk, vaginal mucus, and feces.
1, Namibia; lane 2, R1140; lane 3, Schperling; lane 4, Ouaret; lane 5, Campoy; ... marker); lane 10, Nine Mile; lane 11, Priscilla; lane 12, Scurry Q217; lane 13,.
Dec 21, 2010 - transformation of the bacteria to a spore-like form. Unexpectedly ... by the periplasmic space. However ... conditions, while the test group corresponded to the Nine Mile ..... Table S1 List of differentially expressed genes. (XLS).
Oct 27, 2011 - history, support the hypothesis that these farms can pose a risk for the ... abortion history, farms with a bulk milk-positive status only, and.
Prophylaxis after Exposure to Coxiella burnetii - CDC
Equation 1: (in the main text), the inputs (on the right side of equation) are calculated as follows. For each outcome (i.e., branch of treeâsee Figures 1â3 in text):.
Prophylaxis after Exposure to Coxiella burnetii Technical Appendix Equation 1: (in the main text), the inputs (on the right side of equation) are calculated as follows. For each outcome (i.e., branch of tree–see Figures 1–3 in text): Equation 2: Number of a given adverse health outcome without PEP = Number persons exposed × probability of given outcome Equation 3: Number of a given adverse health outcome after PEP = Number persons exposed × probability of outcome × effectiveness of PEP against given outcome For each type of PEP-related adverse health outcome (see Table 2 in text). Equation 4: Number of given PEP-related adverse events = number administered PEP × probability of given adverse event
