As chemoresistance of Plasmodium falciparum to chloroquine has arisen, new ways of combating the infection are needed. Similarities exist between the multidrug resistance of mammalian cells and chloroquine resistance of P. falciparum, based on the occurrence of internucleosomal deoxyribonucleic acid (DNA) breakdown and the ability of some anticancer drugs and chloroquine to induce apoptosis. Using chloroquine, oligonucleosomal DNA fragmentation was observed with a sensitive strain of P. falciparum, but not with a resistant one. This suggests that apoptosis may be involved in the action of chloroquine on the parasite.
The gold standard laboratory tests used to diagnose invasive Candida infection (ICI) are based on the in vitro culture of blood or samples from other sterile sites. However, these tests have limited sensitivity (Se) and are generally not diagnostic until late in the infectious process. The Serion Candida mannan kit was evaluated for the diagnosis of ICI at Grenoble University Hospital (France) between 2007 and 2011. The results were then compared with worldwide data published between 1997 and 2011. This retrospective study was based on follow-up from the investigation of 162 patients of whom 91 had proven ICI; 13 had Candida colonization index (CCI) scores ≥0.42, positive mannan tests, with nonconcomitant infections; and 58 had no evidence of Candida infection. Candida albicans, C. glabrata, C. tropicalis, and C. parapsilosis were the etiologic agents in 104 patients. For patients with or without ICI, the 12-week mortality rates were 35/104 (33.7%) and 6/58 (10.3%), respectively. The mannan diagnostic specificity was 51% and Se was 77%. However, in the meta-analysis (n = 1,536), values were 86% and 62%, respectively. Positive mannan test results may appear early (median 6 days) in the development of candidemia and have moderate diagnostic value for ICI, with a negative predictive value of 83%. In patients at risk of ICI with negative candidemia, the combination of Candida mannan test data with a CCI score ≥0.42 may improve the diagnosis of probable ICI.
Two seroepidemiological studies were performed in an area of Burkina Faso hyperendemic for malaria to estimate the protective role of immunoglobulin M (IgM) antibodies. Six cross-sectional surveys were carried out on children (ages, <16 years) in the village of Karankasso. The evolution of antibodies to crude extracts of Plasmodiumfalciparum (IgG or IgM antisomatic and IgG antiexoantigens) were tested by IFI or enzyme-linked immunosorbent assay and were followed up according to the fluctuations of the parasite densities. Specific IgG antibodies had the same evolution as parasite densities. By contrast, specific IgM antibodies increased when IgG and parasite densities began to decrease (despite a high inoculation rate). A longitudinal survey of 77 children and adults was conducted in another village (Dafinso). In that study, clinical follow-up of the selected individuals allowed us to define three groups in the population. Children in group 1 were considered nonimmune (children with one or more malaria attacks). Group 2 was composed of semiimmune children who did not present with any malarial attack during the survey but who had high levels of parasitemia during the transmission period. Group 3 was composed of immunoprotected adults. Specific IgM and IgG antibodies to crude extracts or a recombinant antigen (glutamate-rich protein) of P. falciparum were tested. Specific IgM
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