Fighting antibiotic resistance in the local management of bovine mastitis

Touza-Otero, Lara; Landin, Mariana; Diaz-Rodriguez, Patricia

doi:10.1016/j.biopha.2023.115967

Cited by 13 publications

(2 citation statements)

References 112 publications

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“…While antibiotic remediation technologies are pivotal in addressing antibiotic contamination in water, pursuing more effective and sustainable methods remains a top priority. The escalating use of antibiotics in various sectors, including human medicine, veterinary medicine, and agriculture, has heightened their presence in our aquatic ecosystems, giving rise to concerns regarding their impacts on human health [30,77]. Despite observing remarkable advances in water treatment techniques, many of these approaches encounter significant challenges, such as prohibitive costs and adverse environmental repercussions.…”

Section: Biological Techniquesmentioning

confidence: 99%

Reviewing Perovskite Oxide-Based Materials for the Effective Treatment of Antibiotic-Polluted Environments: Challenges, Trends, and New Insights

da Silva Júnior,

de Oliveira,

Wolff Leal

et al. 2024

Surfaces

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Society confronts the pressing environmental challenges posed by the pervasive presence of toxic pollutants in aquatic ecosystems. The repercussions of contaminant release extend far and wide, endangering marine life and human well-being. While various techniques such as bioremediation, filtration, and adsorption have been employed for wastewater treatment, they grapple with cost effectiveness and overall efficiency issues. Advanced oxidative processes, including photocatalysis and Fenton, have emerged as viable solutions in response to the emerging contaminants. However, the efficacy of photocatalysis largely hinges on the choice of catalyst. Their distinctive attributes, such as chemical defects and exceptional stability, make perovskite oxides a promising catalyst. These materials can be synthesized through diverse methods, rendering them versatile and adaptable for widespread applications. Ongoing research endeavors are diligently focused on enhancing the performance of perovskite oxides, optimizing their integration into catalytic processes, and exploring innovative approaches for material immobilization. This comprehensive review seeks to elucidate the most pivotal advances in perovskite oxides and their composites within the wastewater treatment domain. Additionally, it sheds light on burgeoning research trends and multifaceted challenges confronting this field, which present insights into techniques for treating the antibiotic-contaminated environment, delving into innovative strategies, green technologies, challenges, and emerging trends.

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Section: Biological Techniquesmentioning

confidence: 99%

Reviewing Perovskite Oxide-Based Materials for the Effective Treatment of Antibiotic-Polluted Environments: Challenges, Trends, and New Insights

da Silva Júnior,

de Oliveira,

Wolff Leal

et al. 2024

Surfaces

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“…Over the past two decades, the development of antimicrobial resistance as a result of the use of antibiotics in agriculture has become a serious global health problem due to the mass treatment of animals with antimicrobial drugs of critical importance to humans, e.g., third-generation cephalosporins and fluoroquinolones ( Oliver et al , 2011 ; Huemer et al , 2020 , Bhardwaj et al , 2022 ). In dairy farming, mastitis is one of the important diseases, that leads to milk quality deterioration, a decrease in the dairy productivity of cows, and an increase in the culling of animals in the herd ( Sharun et al , 2021 ; Touza-Otero et al , 2024 ). Antibiotics remain the drugs of choice in mastitis treatment, but the problem of their residues in milk and the development of resistance leads to many restrictions in animal husbandry ( Krömker and Leimbach, 2017 ; Ruegg, 2018 ; El-Sayed and Kamel, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Pharmacological composition based on bacteriocin-nisin in experiments in vitro and in vivo

Isakova,

Oparina,

Belousov

et al. 2024

Open Vet J

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Background: Antibiotic resistance is a global health problem related to the transmission of bacteria and genes between human and animals. The development of new drugs with antimicrobial activity research is an urgent task of modern science. Aim: The article presents data of in vitro and in vivo experiments new pharmaceutical composition based on nisin. Methods: The antimicrobial activity was studied on the mastitis pathogens. To identify microorganisms the MALDI-TOF (mass spectrometry) method was performed using. To determine sensitivity, the serial dilution method and the diffusion method were used. On laboratory animals, biochemical, hematological and histological research methods were used. Female nonlinear white laboratory rats were used, which were divided into one control group and three experimental ones. Results: “Duration” factor was statistically significant for the following indicators: hemoglobin, hematocrit, leukocytes, lymphocytes, erythrocyte sedimentation rate (ESR) and eosinophils. The “Dose” factor did not show significance for any indicator, which means that the effect was similar regardless of the dose chosen. When analyzing the biochemical indicators, significant differences were found in the “Duration” and “Dose” factors, in the direction of a decrease in the indicators of total protein, globulins, urea and an increase in the concentration of alkaline phosphatase. When conducting histological studies in the first experimental group, it was established that there were no changes in the structural and functional units of the organs. In animals of the second experimental group, the presence of reversible pathological processes of a compensatory nature was noted. More profound changes in the structure of the studied organs were recorded in the third experimental group. Conclusion: An in vitro study on cell cultures showed that the pharmacological composition has high antimicrobial activity against isolates from the mammary gland secretion of cows with mastitis. An in vivo study on laboratory animals showed that the developed composition belongs to the IV class of substances "low-hazard substances". Histological examination made it possible to select the safest dose of the pharmacological composition of no more than 500 mg / kg.

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Amikacin-loaded selenium nanoparticles improved antibacterial and antibiofilm activity of amikacin against bovine mastitis-causing Staphylococcus aureus

Asadpour,

Mehrbakhsh Bandari,

Sojoudi Masouleh

2025

Heliyon

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Fighting antibiotic resistance in the local management of bovine mastitis

Cited by 13 publications

References 112 publications

Reviewing Perovskite Oxide-Based Materials for the Effective Treatment of Antibiotic-Polluted Environments: Challenges, Trends, and New Insights

Reviewing Perovskite Oxide-Based Materials for the Effective Treatment of Antibiotic-Polluted Environments: Challenges, Trends, and New Insights

Pharmacological composition based on bacteriocin-nisin in experiments in vitro and in vivo

Amikacin-loaded selenium nanoparticles improved antibacterial and antibiofilm activity of amikacin against bovine mastitis-causing Staphylococcus aureus

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