BackgroundThe persistence of microbial communities and how they change in indoor environments is of immense interest to public health. Moreover, hospital acquired infections are significant contributors to morbidity and mortality. Evidence suggests that, in hospital environments agent transfer between surfaces causes healthcare associated infections in humans, and that surfaces are an important transmission route and may act as a reservoir for some of the pathogens.This study aimed to evaluate the diversity of microorganisms that persist on noncritical equipment and surfaces in a main hospital in Portugal, and are able to grow in selective media for Pseudomonas, and relate them with the presence of Pseudomonas aeruginosa.ResultsDuring 2 years, a total of 290 environmental samples were analyzed, in 3 different wards. The percentage of equipment in each ward that showed low contamination level varied between 22% and 38%, and more than 50% of the equipment sampled was highly contaminated. P. aeruginosa was repeatedly isolated from sinks (10 times), from the taps’ biofilm (16 times), and from the showers and bedside tables (two times). Two ERIC clones were isolated more than once. The contamination level of the different taps analyzed showed correlation with the contamination level of the hand gels support, soaps and sinks. Ten different bacteria genera were frequently isolated in the selective media for Pseudomonas. Organisms usually associated with nosocomial infections as Stenotrophomonas maltophilia, Enterococcus feacalis, Serratia nematodiphila were also repeatedly isolated on the same equipment.ConclusionsThe environment may act as a reservoir for at least some of the pathogens implicated in nosocomial infections. The bacterial contamination level was related to the presence of humidity on the surfaces, and tap water (biofilm) was a point of dispersion of bacterial species, including potentially pathogenic organisms. The materials of the equipment sampled could not be related to the microbial contamination level. The presence of a disinfectant in the isolation medium suggests that the number of microorganism in the environment could be higher and shows the diversity of disinfectant resistant species. The statistical analysis suggests that the presence of bacteria could increase the risk of transmission by hand manipulation.
Meloidogyne megadora infects coffee trees, an economically important crop worldwide. The accurate identification of M. megadora is essential for the development of preventive measures to avoid the dispersion of this pathogen and establishment of efficient and sustainable integrated pest management programs. One M. megadora isolate was studied by biometrical, biochemical, and molecular characteristics (random amplified polymorphic DNA [RAPD] and PCR of internal transcribed spacer [ITS] region). Biometrical characteristics of M. megadora females, males, and second-stage juveniles were similar to the original description. Biochemical studies revealed a unique enzyme pattern for M. megadora esterases (Me3) that allowed for species differentiation. Three RAPD primers (OPG-4, OPG-5, and OPG-6) produced specific bands to all Meloidogyne spp. studied: M. megadora, M. arenaria, M. incognita, and M. javanica. Molecular analysis of the ITS region resulted in an amplification product of 700 bp. The phylogenetic relationship between M. megadora and several Meloidogyne spp. sequences was analyzed, revealing that M. megadora clearly differs from the most common root-knot nematode species. Based on the studies conducted, isozyme analysis remains a useful and efficient methodology for M. megadora identification when females are available. Further studies will be needed to convert the M. megadora differential DNA fragment obtained by RAPD and develop a species-specific sequence-characterized amplified region PCR assay for its diagnosis based on second-stage juveniles.
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RESUMO A reação do maracujá amarelo ‘Afruvec’ e ‘Maguary’ aos nematóides de galhas Meloidogyne incognita raça 2, M. javanica e M. hapla foi estudada em experimentos conduzidos separadamente para cada espécie de nematóide, em casa de vegetação. As plantas foram inoculadas com 5.000 ovos e eventuais juvenis infectantes. A avaliação foi realizada 60 dias após a inoculação. Os experimentos seguiram o delineamento inteiramente ao acaso com seis repetições, sendo cada parcela constituída por uma planta em vaso de 2 litros com substrato previamente autoclavado. Os parâmetros analisados foram: índice de galhas, índice de massas de ovos, população final do nematóide no sistema radicular e massa do sistema radicular, fator de reprodução do nematóide (FR = Pf/Pi) e o número total de espécimes por grama de raiz. De acordo com os resultados obtidos tanto o maracujá ‘Afruvec’ como o ‘Maguary’ se mostraram resistentes a M. incognita raça 2, M. javanica e M. hapla.
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