Pooled specimen CT and NG testing by the GeneXpert was accurate when compared with single specimen testing and has potential for screening MSM for CT and NG. The role of pooled specimen testing with the GeneXpert as a point-of-care nucleic acid test in MSM requires further investigation.
Barmah Forest virus (BFV) is a medically important mosquito-borne alphavirus endemic to Australia. Symptomatic disease can be a major cause of morbidity, associated with fever, rash, and debilitating arthralgia. BFV disease is similar to that caused by Ross River virus (RRV), the other major Australian alphavirus. Currently, just four BFV whole-genome sequences are available with no genome-scale phylogeny in existence to robustly characterise genetic diversity. Thirty novel genome sequences were derived for this study, for a final 34-taxon dataset sampled over a 44 year period. Three distinct BFV genotypes were characterised (G1–3) that have circulated in Australia and Papua New Guinea (PNG). Evidence of spatio-temporal co-circulation of G2 and G3 within regions of Australia was noted, including in the South West region of Western Australia (WA) during the first reported disease outbreaks in the state’s history. Compared with RRV, the BFV population appeared more stable with less frequent emergence of novel lineages. Preliminary in vitro assessment of RRV and BFV replication kinetics found that RRV replicates at a significantly faster rate and to a higher, more persistent titre compared with BFV, perhaps indicating mosquitoes may be infectious with RRV for longer than with BFV. This investigation resolved a greater diversity of BFV, and a greater understanding of the evolutionary dynamics and history was attained.
Rapid identification of bacteria isolated from blood cultures by direct matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) is now in widespread use in major centres but is not yet feasible in smaller hospital laboratories. A FilmArray multiplex PCR panel for blood culture isolate identification (BCID) provides an alternative approach to near point-of-care microbial identification in regional hospitals. We assessed the accuracy and time to identification of the BCID FilmArray in a consecutive series of 149 blood cultures from 143 patients in a teaching hospital and smaller regional hospitals, currently identified by direct MALDI-TOF and proprietary molecular methods. The BCID FilmArray contained 18 of 34 species and 20 of 23 species isolated from teaching and regional hospital, respectively. Overall, 85 % of the teaching hospital and 100 % of the regional hospital monomicrobial blood cultures were identified, compared with 60 and 68 %, respectively, for direct MALDI-TOF on the same cultures. There were no incorrect results from blood cultures containing Staphylococcus aureus, streptococci, Pseudomonas aeruginosa or Enterobacteriaceae. The three discrepant results were all in mixed cultures. The mean reduction in time to identification of blood culture isolates was 53 h, which did not include the time required to transport cultures from regional centres to a central laboratory. The overall performance of the BCID FilmArray is stronger in blood cultures from smaller regional hospitals that encounter a narrower range of bacterial species dominated by the commonest species. This approach is more suited to smaller clinical laboratories than the MALDI-TOF direct method.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.