ABSTRACT
BACKGROUND: The 2017 American Thoracic Society/European Respiratory Society (ATS/ERS) diffusing capacity of the lung for carbon monoxide (DLCO) standards specify a control rule for assessing biologic quality control (BioQC) but have limited guidance on how to establish expected values for control rule variables. This study aimed to determine expected values for DLCO BioQC using coefficient of variation (CV) and compare that the mean ± 2 SD control rule yields the same precision as mean ± 12% of the mean. METHODS: DLCO BioQC data were collected from a multi-center inhaled medication study. This descriptive study spanned 42 months ending in 2018. The annual DLCO CV was based upon 10 DLCO values separated by at least 5 d. The root mean square CV (RMSCV) was computed for each year and Friedman test evaluated within subject annual CV changes. Ninetieth percentile values were computed for annual control rule limits/mean DLCO. RESULTS: Of 217 BioQCs, the study's first year had 168 subjects with fewer in subsequent years. Annual CV values from RMSCV were 5.3, 4.5, and 4.6% in years 1, 2, and 3, respectively. No change was seen in the CV for those subjects with data for all 3 years, n = 24, P = .07. The 90th percentile of measurements 2 SD/mean DLCO were 15, 12.4, and 11% in years 1, 2, and 3, respectively. CONCLUSIONS: A DLCO BioQC CV ≤ 6% is achievable across multiple sites, technologists, and brands of equipment. This CV value assures that measurements for control rule variables emerge from an expected range. A control rule of mean ± 2 SD appeared to yield similar results as the mean ± 12% of the mean rule reported in the 2017 ATS/ERS DLCO standards.
Subject(s)
Biological Products , Pulmonary Diffusing Capacity , Humans , Lung , Quality Control , Carbon MonoxideABSTRACT
Aedes aegypti is one of the vectors responsible for transmitting the viruses that cause dengue, Zika and chikungunya in the human population. Mosquitoes have bacterial communities in different organs, mainly in the midgut, but to a lesser extent in their reproductive organs, such as the ovaries, where replication and vertical transmission is decisive for dengue virus. These bacteria also influence metabolic and physiological processes such as ingestion and digestion of blood. In this study, aerobic bacterial communities associated with ovaries of A. aegypti Rockefeller strain were determined, describing their potential function during ovocitary development. The groups of mosquitoes were separated into three treatments: diet with 10% sugar solution, diet with blood supply, and blood feeding combined with tetracycline. The ovaries were extracted from the mosquitoes, and then put in enriched culture media (blood and nutritive agar) by direct inoculation, for subsequent isolation and macroscopic and microscopic characterization of the colonies. The taxonomic determination of bacterial isolates was achieved by sequence analysis of the 16S rRNA gene. A higher bacterial load was observed in the sugar feeding group (6 × 10³ CFU/ml) in contrast to the group fed only with blood, with and without an antibiotic (4.03-4.04 × 10³CFU/ml; 4.85-5.04 × 10³CFU/ml). As a result, a total of 35 colonies were isolated, of which 80% were gram-negative and 20% gram-positive; 72% were lactose negative and 8% lactose positive. Of the total bacteria, 83% had gamma hemolysis, 17% alpha hemolysis, and none presented beta hemolysis. After phenotypic and biochemical characterization, 17 isolates were selected for molecular identification. Only phyla Actinobacteria and Proteobacteria were found. Bacteria associated with ovaries of A. aegypti were mainly identified as belonging to the Serratia and Klebsiella genera. Some bacteria (Serratia marcescens, Pantoea dispersa and Klebsiella oxytoca) have wide biotechnological potential due to their entomopathogenic power and their bioactivity against different pathogens.
Subject(s)
Aedes/microbiology , Bacteria/isolation & purification , Microbiota/genetics , Mosquito Vectors/microbiology , Animals , Bacteria/genetics , Female , Ovary/microbiology , RNA, Ribosomal, 16S/geneticsABSTRACT
Basal stem rot (BSR) disease caused by Ganoderma boninense basidiomycetous fungus is the most economically important disease in oil palms in South East Asia. Unfortunately, there is no single most effective control measure available. Tremendous efforts have been directed in incorporation of environmentally friendly biocontrol approaches in minimizing BSR disease. This study investigated the performance of two potential biocontrol agents (BCAs), AAT0115 and AAB0114 strains recovered from oil palm on suppression of BSR in planta, and also assessed their plant-growth-promoting (PGP) performance. ITS rRNA-sequence phylogeny discriminated the two ascomycetous Talaromyces apiculatus (Ta) AT0115 and Clonostachys rosea (Cr) AAB0114 biocontrol species with PGP characteristics. In vitro studies have demonstrated both Ta and Cr are capable of reducing linear mycelial growth of G. boninense. Inoculation of individual Cr and Ta-as well as Cr+Ta consortium-induced a significant increment in leaf area and bole girth of oil-palm seedlings five months post-inoculation (MPI) under nursery conditions. At five months post-inoculation, shoot and root biomass, and nutrient contents (nitrogen, phosphorus, potassium, calcium, magnesium and boron) were significantly higher in Ta-inoculated seedlings compared to control treated with non-Ta-inoculated maize. Chlorophyll and carotenoids contents in rapidly growing oil-palm seedlings challenged with Cr, Ta or a combination of both were not negatively affected. Cr, Ta and Cr+Ta consortium treated seedlings had 4.9-60% BSR disease reduction compared to the untreated control. Co-inoculation of Cr and Ta resulted in increased BSR control efficiencies by 18-26% (compared with Cr only) and 48-55% (compared with Ta only). Collectively, Cr and Ta, either individually or in consortium showed potential as BSR biocontrol agents while also possess PGP traits in oil palm.
ABSTRACT
Entomopathogenic fungi (EPF) are distributed in natural and agricultural soils worldwide. To investigate EPF occurrence in different botanical habitats and soil-ecoregions, we surveyed 50 georeferenced localities in the spring of 2016 across the Algarve region (South Portugal). Additionally, we compared three EPF isolation methods: insect baiting in untreated or pre-dried-soil and soil dilution plating on a selective medium. We hypothesized that forest habitats (oak and pine semi-natural areas) and the acidic soil ecoregion may favor EPF occurrence. Overall, EPF species were present in 68% of sites, widely distributed throughout the Algarve. The use of selective media resulted in higher recovery of EPF than did either soil-baiting method. Contrary to our hypothesis, neither vegetation type nor ecoregion appeared to influence EPF occurrence. Traditional and molecular methods confirmed the presence of five EPF species. Beauveria bassiana (34% of sites), was the most frequently detected EPF, using pre-dried soil baiting and soil dilution methods. However, baiting untreated soil recovered Fusarium solani more frequently (26% of sites), demonstrating the utility of using multiple isolation methods. We also found Fusarium oxysporum, Purpureocillium lilacinum and Metarhizium anisopliae in 14%, 8% and 2% of the sites, respectively. Three abiotic variables (pH, soil organic matter and Mg) explained 96% of the variability of the entomopathogen community (EPF and entomopathogenic nematodes) in a canonical correspondence analysis, confirming the congruence of the soil properties that drive the assemblage of both entomopathogens. This study expands the knowledge of EPF distribution in natural and cultivated Mediterranean habitats.
ABSTRACT
Mosquitoes can act as vectors of important diseases such as malaria, dengue, Zika virus, yellow fever, Chikungunya and Mayaro fever, in addition to filariasis. The use of insecticides, larvicides, bed nets and repellents, besides the use of drugs as chemoprevention and the treatment of the sick are currently the pillars of the control of these vectors. We studied the biological control against of Anopheles darlingi, Aedes aegypti and Culex quinquefasciatus larvae using shrimps of the species M. pantanalense, M. amazonicum, M. brasiliense and M. jelskii. Larvae of mosquitoes were collected from the breeding environment and placed in a 500 and 1000 l tank containing 60 shrimps/m2. The predatory activity was evaluated for 30 days and, in all groups it was observed that 100% of the larvae were consumed in few minutes. In the environment, these same species of crustaceans were released in water bodies with the presence of larvae of these insects. In just 72 h there was a marked reduction of the larvae in the release sites of shrimps. Similarly, there was a reduction in the number of adult mosquitoes caught near the breeding sites, allowing to infer that, in places where the crustaceans were released, the predatory activity on the larvae of mosquitoes was sufficient to reduce the number of adult mosquitoes p ≤ 0,05. This is the first description of the predatory activity of M. pantanalense, M. amazonicum, M. brasiliense and M. jelskii on An. darlingi, A. aegypti and C. quinquefasciatus larvae, constituting an important tool of biological control of these parasites-vectors.
ABSTRACT
A importância econômica, epidemiologia e controle das intoxicações por plantas em animais domésticos no Brasil são revisadas. Com os dados dos laboratórios de diagnóstico de diferentes regiões do país, as perdas anuais por mortes de animais foram estimadas em 820.761 a 1.755.763 bovinos, 399.800 a 445.309 ovinos, 52.675 a 63.292 caprinos e 38.559 equinos. No Brasil, atualmente, o número de plantas tóxicas é de 131 espécies e 79 gêneros e aumenta permanentemente. No entanto, a maioria das perdas são causadas por poucas plantas, incluindo Palicourea marcgravii, Amorimia spp., Senecio spp., Pteridium aquilinum, Ateleia glazioviana e Cestrum laevigatum em bovinos, Brachiaria spp em bovinos e ovinos, Nierembergia veitchii, Mimosa tenuiflora e Ipomoea asarifolia em ovinos, plantas que contêm swainsonina (Ipomoea carnea, Turbina cordata e Sida carpinifolia) em caprinos e Brachiaria humidicola e Crotalaria retusa em equinos. Os principais fatores epidemiológicos relacionados às intoxicações por plantas incluem palatabilidade, fome, sede, facilitação social, desconhecimento da planta, acesso a plantas tóxicas, dose tóxica, período de ingestão, variações de toxicidade e resistência/susceptibilidade dos animais às intoxicações. Quanto aos métodos de controle e profilaxia descrevem-se os resultados obtidos no Brasil com métodos recentemente desenvolvidos, incluindo controle biológico, aversão alimentar condicionada, utilização de variedades não tóxicas de forrageiras, utilização de animais resistentes às intoxicações e técnicas de indução de resistência.
The economic impact, epidemiology and control of plant poisonings in Brazil are reviewed. With the data obtained from diagnostic laboratories from different Brazilian regions, annual losses due to animal deaths are estimated in approximately 820.761 to 1.755.763 cattle, 399.800 to 445.309 sheep, 52.675 to 63.292 goats, and 38.559 horses. In Brazil toxic plants include 131 species within 79 genera, but this number is increasing continuously. However, most economic losses are caused by few plants including Palicourea marcgravii, Amorimia spp., Senecio spp., Pteridium aquilinum, Ateleia glazioviana and Cestrum laevigatum in cattle, Brachiaria spp. in cattle and sheep, Nierembergia veitchii, Mimosa tenuiflora and Ipomoea asarifolia in sheep, swainsonine-containing plants (Ipomoea carnea, Turbina cordata and Sida carpinifolia) in goats, and Brachiaria humidicola and Crotalaria retusa in horses. The main factors that determine the occurrence and frequency of plant poisoning include palatability, hunger, thirst, social facilitation, unawareness of the plant, access to toxic plants, toxic dose, ingestion period, variations in toxicity, and animal resistance/susceptibility. The results obtained in Brazil with the use of biological control, conditioned food aversion, selection of non-toxic varieties of forages, use of resistant animals to poisoning, and techniques to induce resistance are described.
Subject(s)
Animals , Economics/statistics & numerical data , Epidemiology/economics , Plants, Toxic , Brachiaria/toxicity , Cestrum/toxicity , Pteridium/toxicity , Rubiaceae/toxicity , Senecio/toxicityABSTRACT
Por ser um díptero hematófago, a mosca Stomoxys calcitrans (Linnaeus, 1758) ocasiona grandes perdas na pecuária brasileira. Atualmente, pesquisas têm sido direcionadas para métodos de controle que reduzam a utilização de inseticidas químicos e que preservem o meio ambiente. Este estudo avaliou o potencial entomopatogênico dos isolados CG 138 e CG 228 de Beauveria bassiana sobre ovos, larvas e pupas de S. calcitrans em condições ambientais e o isolado ESALQ 986 de B. bassiana em ovos, nas mesmas condições. Para cada isolado fúngico, foram utilizadas as concentrações de 2x10(6), 2x10(7) e 2x10(8) conídios ml-1. Os resultados sugerem que os isolados CG 138, CG 228 e ESALQ 986 apresentaram efeito saprofítico, pois não afetaram significativamente o desenvolvimento dos estágios imaturos da mosca dos estábulos, comprometendo dessa forma sua utilização como agente entomopatogênico.
Because it is a hemathofagic diptera, the Stomoxys calcitrans (Linnaeus, 1758) inflicts great losses in the Brazilian cattle. Nowadays, researches have been directed to the control methods that reduce the use of chemical insecticides and preserve the environment. This study evaluated the entomopathogenic potential of the isolated CG 138 and CG 228 of Beauveria bassiana on eggs, larvae and pupae of S. calcitrans in environmental conditions and the isolated ESALQ 986 of B. bassiana in eggs. For each fungal isolated were used concentrations of 2x10(6), 2x10(7) and 2x10(8) conidia ml-1. The results suggest that the isolated CG 138, CG 228, ESALQ 986 present a saprophytic effect, because they did not affect significantly the development of immature stages of the stable flies, affecting this way its use as entomopathogenic agent.
ABSTRACT
Studies have shown that ticks are susceptible to infection by entomopathogenic nematodes. These studies indicate different susceptibilities of ticks to infection by these fungi, depending on the tick species, development phase, entomopathogenic nematodes species and strains and the time the ticks are exposed to them. Usually this period ranges from 24 to 72 hours. The aim of this study was to evaluate the infection times in vitro of engorged Rhipicephalus (Boophilus) microplus females by the entomopathogenic nematodes Steinernema glaseri CCA strain, by analysis of the ticks' biological parameters. The results show that a 2-hour exposure time was sufficient for the engorged R. microplus females to be infected by S. glaseri CCA, but that a minimum exposure time of 24 hours was necessary to generate treatment efficacy above 90 percent.
Os carrapatos são susceptíveis à infecção por nematoides entomopatogênicos. Essa susceptibilidade diverge quanto às espécies de carrapato estudadas, à fase evolutiva, às espécies e estirpes dos nematoides e ao tempo ao qual os carrapatos ficam expostos a estes. O presente trabalho teve como objetivo avaliar os tempos de infecção in vitro de fêmeas ingurgitadas de Rhipicephalus (Boophilus) microplus pelo nematoide entomopatogênico Steinernema glaseri estirpe CCA, pela análise dos parâmetros biológicos do carrapato. Os resultados obtidos demonstraram que um período de duas horas de exposição foi suficiente para que fêmeas ingurgitadas de R. microplus fossem infectadas por S. glaseri CCA e que um período de exposição mínimo de 24h foi necessário para que houvesse infecção de fêmeas ingurgitadas de R. microplus por S. glaseri estirpe CCA, capaz de gerar, in vitro, eficácia no tratamento superior a 90 por cento.
ABSTRACT
Objetivou-se a observação in vitro da ação dos fungos nematófagos Duddingtonia flagrans (AC001), Monacrosporium thaumasium (NF 34) e Pochonia chlamydosporia (VC1 e VC4) sobre ovos de Eurytrema coelomaticum. Os ovos foram vertidos em superfície de ágar-água 2 por cento contendo os isolados fúngicos e em AA 2 por cento sem fungo como controle. Ao completarem sete, 10 e 14 dias, aproximadamente os ovos foram removidos e classificados de acordo com os seguintes parâmetros: efeito tipo 1, efeito lítico sem prejuízo morfológico a casca do ovo; tipo 2, efeito lítico com alteração morfológica da casca e embrião e tipo 3, efeito lítico com alteração morfológica do embrião e da casca, além de penetração de hifas e colonização interna do ovo. Os isolados AC001 e NF34 não demonstraram percentuais para o efeito do tipo 3, contudo o isolado VC1 apresentou resultados percentuais para o efeitodo tipo 3 que determinam a atividade ovicida de um fungo: 27,2 por cento aos sete dias, 23,1 por cento aos 10dias e 25,0 por cento aos 14 dias. Da mesma forma que isolado VC4 apresentou: 15,0 por cento aos sete dias, 25,4 por cento aos 10 dias e 21,8 por cento aos 14 dias respectivamente. Pochonia chlamydosporia é um fungo promissor que pode ser usado no controle biológico de E. coelomaticum.
The present study assessed in vitro action of nematophagous fungi species Duddingtonia flagrans (AC 001), Monacrosporium thaumasium (NF 34) and Pochonia chlamydosporia (VC1 and VC4) on eggs of Eurytrema coelomaticum. Eggs were placed on Petri dishes with fungus isolate grown in water- agar 2 percent and in the control (no fungus). After seven, 10 and 14 days, the eggs were removed and classified according to the following parameters: type 1, lytic effect without morphological damage to eggshell; type 2, lytic effect with morphological alteration of embryo and eggshell; and type 3, lytic effect with morphological alteration of embryo and eggshell, besides hyphal penetration and internal egg colonization. The isolate AC001 andNF34 had not demonstrated percentages to type 3 effects, however isolated VC1 presented results percentages for the type 3 effect that it determines the ovicida activity of one fungus: 27.2 percent to the seven days, 23.1 percent to the 10 days and 25.0 percent to the 14 days. The isolated VC4 presented: 15.0 percent to the seven days, 25.4 percent to the 10 days and, 21.8 percentto the 14 days. P. chlamydosporia is a promising fungus can be used in the biological control of E. coelomaticum.
