Background: Diagnosis of tuberculous (TB) pleuritis is difficult and better diagnostic tools are needed. New blood based interferon-gamma (IFN-γ) tests are promising, but sensitivity could be low in HIV positive patients. The IFN-γ tests have not yet been validated for use in pleural fluid, a compartment with higher level of immune activation than in blood.
The prevalence of type 2 diabetes (T2D) is low in populations with a high fish intake; however prospective studies with fish intake have shown positive, negative or no association between fish intake and the risk for T2D. The aim of this study was to investigate the effects of high intake of lean or fatty fish on glucose tolerance, leucocyte membrane fatty acid composition and leucocyte function in overweight/obese adults. In this randomised clinical trial, sixty-eight healthy overweight/obese participants consumed 750 g/week of either lean or fatty fish as dinners, or were instructed to continue their normal eating habits but to avoid fish intake (control group), for 8 weeks. Energy and macronutrient intake and physical activity were not changed within the groups during the study period. High intake of fatty fish, but not of lean fish, significantly improved glucose regulation 120 min postprandially (P=0·012), but did not affect fasting glucose concentration. A smaller increase in fasting to 120 min postprandial insulin C-peptide concentration was seen after fatty fish intake (P=0·012). Lean fish increased the DHA content in leucocyte membranes (P=0·010), and fatty fish increased the total content of n-3 PUFA (P=0·00016) and reduced the content of n-6 PUFA (P=0·00057) in leucocyte membranes. Lean and fatty fish intake did not affect phagocytosis of bacteria ex vivo. The findings suggest that high intake of fatty fish, but not of lean fish, beneficially affected postprandial glucose regulation in overweight/obese adults, and may therefore prevent or delay the development of T2D in this population.
؉ EM T cells, as well as that of cells simultaneously producing both IL-17A and TNF-␣, to be significantly elevated in the Giardia-exposed individuals after 24 h of antigen stimulation. In supernatants of PBMCs stimulated with Giardia antigens for 6 days, we found inflammation-associated cytokines, including 1L-17A, as well as CD4 ؉ T cell activation and proliferation, to be significantly elevated in the Giardia-exposed individuals. We conclude that symptomatic Giardia infection in humans induces a CD4 ؉ EM T cell response of which IL-17A production seems to be an important component.
Interleukin 10 (IL-10) suppresses the production of proinflammatory cytokines in vitro and in murine models of endotoxemia and has been suggested as a candidate for treatment of bacterial septicemia. To investigate the role of IL-10 in meningococcal disease, a sandwich IL-10 enzyme-amplified sensitivity immunoassay was used to quantitate IL-10 in serum and cerebrospinal fluid samples from 41 patients with meningococcal bacteremia or meningitis with or without septic shock. High levels of IL-10 were demonstrated in sera from patients with meningococcal septic shock (mean, 21,221 pg/ml; range, 25 to 64,500 pg/ml). All cases involving fatalities had IL-10 levels in serum of Ն1,000 pg/ml (mean, 23,058 pg/ml; range, 1,000 to 64,500 pg/ml). Patients with meningococcal meningitis without septic shock had comparably low concentrations of IL-10 in serum (mean, 119 pg/ml; range, 0 to 1,050 pg/ml) but exhibited compartmentalized release of IL-10 in cerebrospinal fluid. Concentrations of IL-10 in serum were positively correlated with the previously reported concentrations of tumor necrosis factor alpha, IL-6, and IL-8 in serum in the same patients. We conclude that IL-10 is extensively activated along with the proinflammatory cytokines during the initial phase of meningococcal septic shock and that IL-10 is associated with fatality in meningococcal disease.
G. lamblia infection induces long-term, albeit variable, cellular immune responses that are not assemblage specific and that are largely driven by CD4 T-cell activation.
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