Molecular testing of cerebrospinal fluid (CSF) using the BioFire FilmArray meningitis/encephalitis (FA-M/E) panel permits rapid, simultaneous pathogen detection. Due to the broad spectrum of targeted organisms, FA-M/E testing may be… Click to show full abstract
Molecular testing of cerebrospinal fluid (CSF) using the BioFire FilmArray meningitis/encephalitis (FA-M/E) panel permits rapid, simultaneous pathogen detection. Due to the broad spectrum of targeted organisms, FA-M/E testing may be restricted to patients with abnormal CSF findings. We sought to determine if restriction is appropriate in our previously healthy and/or immunocompromised pediatric patients. ABSTRACT Molecular testing of cerebrospinal fluid (CSF) using the BioFire FilmArray meningitis/encephalitis (FA-M/E) panel permits rapid, simultaneous pathogen detection. Due to the broad spectrum of targeted organisms, FA-M/E testing may be restricted to patients with abnormal CSF findings. We sought to determine if restriction is appropriate in our previously healthy and/or immunocompromised pediatric patients. FA-M/E was ordered on 1,025 CSF samples from 948 patients; 121 (11.8%) specimens were FA-M/E positive. Of these, 89 (73.6%) were virus positive, and 30 (24.8%) were bacterium positive. The most common targets detected were enterovirus (n = 38), human herpesvirus 6 (HHV-6) (n = 30), and Streptococcus pneumoniae (n = 14). Pleocytosis with white blood cell (WBC) levels of ≥5 cells/mm3 and ≥10 cells/mm3 were found in 33.1% and 24.3% of all specimens, respectively. Using WBC levels of ≥5 cells/mm3, 63.4% (59/93) of positive specimens exhibited pleocytosis, compared to 29.5% (233/789) of negative specimens. Among positive specimens, 54.4% (37/68) of viral and 87% (20/23) of bacterial cases had pleocytosis. The use of a pleocytosis cutoff of ≥10 cells/mm3 would have missed an additional enterovirus, one cytomegalovirus (CMV), and two HHV-6 diagnoses. CSF glucose and protein levels were normal for 83/116 (75.2%) and 51/116 (44%) positive specimens. Abnormal glucose in combination with WBC levels of ≥10 cells/mm3 showed high specificity (94.5%) and was a better predictor of FA-M/E positivity than abnormal protein. Sensitivity and positive predictive values were <90% for all biomarkers. CSF pleocytosis and abnormal glucose/protein were poor predictors of FA-M/E. Restricting FA-M/E orders based on pleocytosis or other abnormal parameters would have resulted in missed diagnostic opportunities, particularly for the detection of viruses in both previously healthy and immunocompromised patients.
               
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