RESUMEN

Poultry production faces challenges from bacterial infections, aggravated by antibiotic resistance, affecting bird welfare and the industry's economy. Bacteriophages show promise as a solution, but their use in poultry systems is still limited. This study uses scientometric analysis to investigate the incidence of bacterial infections in poultry systems and bacteriophage application trends. The Web of Science database was used, and the articles were refined by searching for keywords that included the most rep orted bacteria in the different phases of poultry farming and the application of phages. The articles were analyzed using the CiteSpace and Excel software, allowing the evaluation of publication trends, influential countries, and correlations with antimicrobial resistance and the use of bacteriophages. Results highlight Escherichia coli prevalence in poultry systems and reveal a correlation between the number of publications and poultry productivity, with the United States and China leading both aspects. Findings offer insights into bacterial control gaps in poultry systems, underscoring the need for further research and practical strategies.

RESUMEN

BACKGROUND: The COVID-19 pandemic paralyzed the world for over three years, generating unprecedented social changes in recent human history. AIMS: We aimed to scientometrically summarize a global and temporal overview of publications on COVID-19 in the two worst years of the pandemic and its progression in early 2022, after the start of vaccination. METHODS: Using the Web of Science database, this review covered the period from late 2019 to March 2022 and included all publications identified using the following terms: "SARS-CoV-2", "COVID-19", "Coronavirus Disease 19", and "2019-nCoV". We retrieved 268,904 publications, with evident global spreading, demonstrating that the pandemic triggered worldwide scientific research efforts. RESULTS: Within the dataset, 195 countries have published about Covid-19. In initial publications, a solid trend in genotyping, sequencing, and detection of the virus was evident; however, in the development of the pandemic, new knowledge and research focus gained relevance, with continental solid trends, revealed by the keywords sustainability (eastern Europe); material sciences (Asia); public and mental health (Africa); information sciences (western Europe); education (Latin America). It identified high-impact research, mainly on diagnosis and vaccines, but also equally essential topics for returning life to the new normal, such as mental health, education, and remote work. The world experienced a highly transmissible infection that proved how fragile we are regarding organization and society. CONCLUSIONS: It is necessary to learn from such an event and establish a protocol of actions and measures to be taken and avoided in a health emergency, aiming to act differently from the chaos experienced during the pandemic. Following the One Health approach, humanity must be aware of the need for more sustainable attitudes, given the inseparability of human beings from the environment.

Asunto(s)

COVID-19 , SARS-CoV-2 , Humanos , COVID-19/epidemiología , SARS-CoV-2/genética , Investigación Biomédica , Pandemias , Bibliometría , Salud Global , Vacunas contra la COVID-19

RESUMEN

Several vaccines have been produced in 2 years of the COVID-19 pandemic to control the infection outbreak. This study demonstrated the success of vaccination in controlling COVID-19 cases and deaths in a small city (41 424 people) with a low population density in Brazil. This study was based on a 1-year dataset since the application of the first dose in January 2021. The results show a reduction in positive cases and deaths as the vaccination coverage increased in the city, mainly after 15 000 inhabitants were vaccinated (35.21% of the population) in July 2021. At the time, 49.06% of administered vaccines were ChAdOx1-S recombinant, 39.80% inactivated SARS-CoV-2 virus (CZ02 strain), 9.70% Tozinameran, and 1.44% Ad26.COV2-S recombinant. From August 2021, a marked reduction in daily positive cases and deaths was observed, and incidence (≤2.49 per 1000 inhabitants) and mortality (≤0.02 per 1000 inhabitants) rates remained stabilized until January 2022, when a new outbreak occurred upon the emergence of the Omicron variant. However, the mortality rate (0.07 per 1000 inhabitants) remained low regardless of the Omicron high incidence rate (68.41 per 1000 inhabitants). These data demonstrate the COVID-19 vaccination effectiveness with a threshold of 35.21% of the population vaccinated in this city model.

Asunto(s)

Vacunas contra la COVID-19 , COVID-19 , Humanos , Brasil/epidemiología , Pandemias , SARS-CoV-2 , COVID-19/epidemiología , COVID-19/prevención & control , Vacunación , ChAdOx1 nCoV-19

RESUMEN

In this paper, we explore the applications of bacteriophages and the advantages of using these viruses to control undesirable organisms in wastewater treatment plants. Based on this, this paper reviewed the literature on the subject by performing a bibliometric and scientometric analysis of articles published in peer-reviewed journals through 2021. We obtained 806 publications, of which 40% were published in the last 5 years, demonstrating an increase in interest in the subject. These articles analyzed, bacteriophages in treatment plants were strongly linked to bacteria such as Escherichia coli and related to disinfection, inactivation, sewage, and wastewater, in addition, biocontrol studies have gained prominence in recent years, particularly due to the resistance of microorganisms to antibiotics. Studies have shown that bacteriophages have great potential for application in treatment systems to control unwanted processes and act as valuable economic and environmental tools to improve the efficiency of various treatment technologies. Although these viruses have already been studied in various applications to optimize treatment plant processes, technology transfer remains a challenge due to the limitations of the technique-such as physicochemical factors related to the environment-and the complexity of biological systems. The research focusing on application strategies in conjunction with molecular biology techniques can expand this study area, enabling the discovery of new bacteriophages.

Asunto(s)

Bacteriófagos , Aguas Residuales

RESUMEN

Os rizóbios, conhecidos por sua capacidade de fixar N2 em associação com leguminosas, também se mostram capazes de promover o crescimento de não-leguminosas, especialmente pela produção de ácido indol-acético (AIA). Neste trabalho, objetivou-se selecionar rizóbios produtores de AIA e avaliar o efeito de diferentes concentrações deste fitormônio sobre a germinação e o desenvolvimento inicial de plântulas de alface. Foram selecionados quatro isolados de Bradyrhizobium sp. e um isolado de Rhizobium leguminosarum biovar trifolii, os quais foram crescidos por quatro dias em meio levedura-manitol enriquecido com triptofano. Após esse período, avaliou-se a produção de AIA e procedeu-se à inoculação de sementes de alface com os isolados. O isolado TV-13, de R. leguminosarum biovar trifolii produziu 171,1µg mL-1 de AIA, causando prejuízos para o desenvolvimento das plântulas de alface. Por outro lado, os isolados de Bradyrhizobium sp. produziram entre 1,2 e 3,3µg mL-1 de AIA e aumentaram o vigor das plântulas em relação ao tratamento sem inoculação com rizóbios. Para verificar se essas diferenças foram decorrentes das concentrações de AIA, foram realizados mais dois experimentos, nos quais as sementes foram embebidas em culturas de TV-13 com ou sem a presença de triptofano ou em doses crescentes de AIA sintético. O isolado TV-13 crescido na presença de triptofano causou danos progressivos sobre o desenvolvimento das plântulas de alface, o que não ocorreu na ausência de triptofano. Também foi verificado um retardo na germinação das sementes quando submetidas a altas concentrações de AIA sintético. Os resultados indicam a influência do AIA sobre os parâmetros de germinação, de modo que a inoculação de sementes de alface com rizóbios que produzem baixas quantidades de AIA é uma prática recomendável.

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Rhizobia are known by their ability to fix nitrogen in symbiosis with legumes, but they are also capable of promote the growth of non-legume, mainly due to indoleacetic acid production (IAA). In this research, it was aimed to select rhizobia producers of IAA and evaluate the effect of different levels of this hormone over the germination and initial development of lettuce seedlings. Four isolates of Bradyrhizobiumsp. and one isolate of Rhizobium leguminosarum biovar trifolii were grown during four days in yeast manitol medium enriched with tryptophan. After that period, the production of IAA was evaluated and the isolates were inoculated in lettuce seeds. The isolate TV-13, of R. leguminosarum biovar trifolii, produced 171.1µg mL-1 of IAA, causing damages to lettuce seedlings. On other hand, Bradyrhizobium sp. isolates produced between 1.2 and 3.3µg mL-1 of IAA and improved seedlings vigor. In order to verify if these results were due to IAA concentrations, other two assays were carried out, in which lettuce seeds were imbibed in TV-13 cultures with or without tryptophan or in increasing dosages of synthetic IAA. The isolate TV-13 grown in the presence of tryptophan caused progressive damages to lettuce seedlings development, fact that did not occur in the absence of tryptophan. It was also verified a delay in germination of seeds exposed to high levels of synthetic IAA. The results show the influence of IAA on germination parameters, so that the inoculation of lettuce seeds with rhizobia that produce low amounts of IAA is a recommended practice.