Maria Luisa Modolo scite author profile

The rapid detection of pathogens in blood is critical for a favorable outcome of patients with suspected sepsis. Although blood culture (BC) is considered the criterion standard for diagnosis of bloodstream infection, it often takes several days to detect the causative organism. In this study, we compared BC with a commercially available multiplex real-time polymerase chain reaction (PCR) assay to detect bacteria and fungi in blood samples from 144 patients admitted to the emergency department with suspected sepsis. Of 144 blood samples examined, 91 (63%) were negative by both methods and 53 (37%) were positive by at least one of the two methods. In 30 among all positive cases (56.6%),both methods identified the same organisms, in 13 cases (24.5%), BC identified organisms not detected by real-time PCR,and in 10 cases (18.9%), SeptiFast PCR assay gave positive results, whereas the BC was negative. In this study, we wished to compare SeptiFast results obtained by standard procedures, but future clinical studies are necessary to define SeptiFast PCR as support for BC in the early diagnosis of severe bloodstream infections.

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Phenotypic profile and functional characteristics of human gamma and delta T cells during acute toxoplasmosis

Paoli¹,

Basaglia²,

Gennari³

et al. 1992

J Clin Microbiol

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Gamma and delta ('y8) T-cell receptor lymphocytes are increased during acute toxoplasmosis. These cells are BB3+ CD45RO+ CD8-. Purified 'y8 T cells failed to proliferate in response to Toxoplasma gondii antigen (stimulation index, 1.4 + 0.6) but were responsive to phytohemagglutinin stimulation (stimulation index, 20.8 + 1.9). Natural-killer-like cytotoxicity was strongly acquired only after in vitro culture of purified lyb T cells with recombinant interleukin 2 (40%o 7% specific lysis). Our data show that-yb T-cell receptor T cells with a peculiar phenotype are increased during human acute T. gondii infection.

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Direct Molecular Detection of Pathogens in Blood as Specific Rule-In Diagnostic Biomarker in Patients With Presumed Sepsis

Avolio

Diamante²,

Modolo³

et al. 2014

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The practical value of blood cultures in the diagnosis of sepsis is impaired by a delay in the turnaround time to result and by the fact that blood culture positive can be found for only about 30% of these patients. Conventional laboratory signs of sepsis and acute phase protein biomarkers are sensitive and easy to use, but often also very nonspecific. Molecular diagnostic reflects currently the most promising avenue to decrease time to result and to influence decision making for antibiotic therapy in the septic host. In this study, we wish to highlight the impact of the LightCycler SeptiFast, a multipathogen probe-based real-time polymerase chain reaction, in the rapid etiological diagnosis of sepsis in patients with clinical and laboratory signs of bloodstream infections. We have evaluated prospectively 830 adult patients with suspected bloodstream infection and at least two criteria of systemic inflammatory response syndrome. In more than 50% of critically ill patients strongly suspected of having sepsis, we arrived to an etiological diagnosis only by the molecular method in a median time of 15 h, with specificity and predictive positive values of 96% and 94%, respectively. We highlight the role of DNAemia as time-critical, high-specificity, etiological, non-culture-based rule-in diagnostic biomarker in patients with presumed sepsis.

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