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1 the priming of splenic T-cell responses to a blood-borne pathogen.
2 ercent of men tested positive for at least 1 blood-borne pathogen.
3 ons requiring rapid and reliable testing for blood-borne pathogens.
4 sk for allergic reactions and infection with blood-borne pathogens.
5 ific procedure days were offered testing for blood-borne pathogens.
6 hus restricting their capacity to respond to blood-borne pathogens.
7 independent humoral immune responses against blood-borne pathogens.
8 role of the complement system in response to blood-borne pathogens.
9 ) (P < 0.01) were most often associated with blood-borne pathogens.
10 ted and implemented to protect surgeons from blood-borne pathogens.
11 potentially interfering substances or other blood-borne pathogens.
12 ut concerns remain regarding transmission of blood-borne pathogens.
13 ow a very high potential for transmission of blood-borne pathogens.
14 ompartments plays a central role in clearing blood-borne pathogens.
15 e world's largest iatrogenic transmission of blood-borne pathogens.
16 ide a safety advantage in terms of risk from blood-borne pathogens.
17 Therefore, they are at risk of exposure to blood-borne pathogens.
18 in the treatment of diseases associated with blood-borne pathogens.
19 B cells, providing early immune responses to blood-borne pathogens.
20 leen is an important site for the capture of blood-borne pathogens and a gateway for lymphocytes ente
21 een play an important role in the capture of blood-borne pathogens and are viewed as an essential com
23 an aberrant MZ that may affect responses to blood-borne pathogens and peripheral B-cell tolerance.
24 idly generate Ag-specific IgM in response to blood-borne pathogens and play an important role in the
25 ism and the phagocytosis of erythrocytes and blood-borne pathogens are significantly reduced prior to
26 o facilitate the safe and rapid clearance of blood-borne pathogens as a potential treatment for infec
27 ining the risk of iatrogenic transmission of blood-borne pathogens by less invasive routes, such as s
30 tutes an interesting approach to investigate blood-borne pathogen diversity in wild vertebrates and c
31 3 to 4 days, and are critical for preventing blood-borne pathogens from evolving into life-threatenin
34 require the rapid and accurate detection of blood-borne pathogens, including human immunodeficiency
36 nsidered to be important for TI responses to blood-borne pathogens, MZ B cells were not responsible f
37 y, 380 000-400 000 occupational exposures to blood-borne pathogens occur annually in the United State
38 rne Zika virus (ZIKV) is now recognized as a blood-borne pathogen, raising an important question abou
39 ings, risks of occupational infection with 3 blood-borne pathogens remain in the health care workplac
40 nfected fibrin clot-and show that the common blood-borne pathogen Staphylococcus epidermidis influenc
41 say for the multiplexed identification of 20 blood-borne pathogens (Staphylococcus epidermidis, Staph
45 erences in transmission of the 3 most common blood-borne pathogens, the natural history of early HCV
46 re part of the first line of defense against blood-borne pathogens, their increase following a breach
47 prevention by creating a program to prevent blood-borne pathogen transmission; by encouraging infect
49 operations (142/373) were found to involve a blood-borne pathogen when tested: HIV (26%), hepatitis B
50 ify, in a multiplexed fashion, a panel of 20 blood-borne pathogens with high sensitivity and specific
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