The prevalence of amphenicol resistance in Escherichia coli isolated from pigs in mainland China from 2000 to 2018: A systematic review and meta-analysis

Du, Zhe; Wang, Mengya; Cui, Guanyi; Zu, Xiangyang; Zhao, Zhanqin; Xue, Yue

doi:10.1371/journal.pone.0228388

Cited by 16 publications

(7 citation statements)

References 25 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Amphenicols present a broad-spectrum inhibitory effect on both gram-positive and -negative bacteria but are particularly effective against the latter. The severe levels of resistance to amphiphenicles may be attributable to spread or abuse in the animal industry, which may have increased selective pressure on E. coli [ 52 ]. The antibiotic resistance profiles observed for the two EPEC strains showed high variability, confirming the importance of the considerable polymorphism of genes encoding for this virulence factor.…”

Section: Discussionmentioning

confidence: 99%

The Wide Range of Antibiotic Resistance and Variability of Genotypic Profiles in Escherichia coli from Domestic Animals in Eastern Sicily

et al. 2020

View full text Add to dashboard Cite

The emergence of multidrug resistance among Enterobacteriaceae in livestock poses a serious public health threat. Escherichia coli, a usual host of intestinal microbiota, is recognized also as etiological agent of numerous infections widespread in both humans and animals. The colibacillosis is one of the most reported zoonoses worldwide, typically treated with antibiotics in the primary stages. This strategy has promoted the onset of antibiotic-resistant serotypes of E. coli, reducing the effectiveness of therapeutic treatments and contributing to antibiotic resistance spread. The current study focused on biodiversity, pathogenicity, and antibiotic resistance profile of 104 E. coli strains isolated from domestic animals in Eastern Sicily. The strains were isolated from sick animals and carcasses of six different animal species and screened for resistance against 16 antibiotic molecules, as recommended by WHO and OIE. The antibiotic resistance patterns highlighted that all strains were multi-resistant, showing resistance to at least three antibiotic classes. The highest incidence of resistance was observed against amoxicillin (100%), tylosin (97%), sulfamethoxazole (98%), and erythromycin (92%), while the lowest for colistin (8%). The pathotype characterization identified two EPEC strains and the study of genetic linkage (PFGE) showed a wide variety of profiles. The current study emphasized the wide range of multidrug resistance and genotyping profiles in E. coli isolated in Easter Sicily.

show abstract

Section: Discussionmentioning

confidence: 99%

The Wide Range of Antibiotic Resistance and Variability of Genotypic Profiles in Escherichia coli from Domestic Animals in Eastern Sicily

et al. 2020

View full text Add to dashboard Cite

show abstract

“…An issue that can be underlined refers to the obviousness that CAP is a well-studied protein synthesis inhibitor, representing the basis for obtaining derived compounds with similar benefits and minimal side effects [ 10 ]. Thus, TAP and FF are structural analogs of CAP; TAP is a second generation CAP derivative with a methane-sulfonyl group instead of para-nitro group and FF is a fluorinated derivative of TAP (third generation), in which the hydroxyl group at C3 is replaced with fluorine [ 11 ]. Due to the fact that TAP and FF are less toxic than CAP, but exhibit analogue antibacterial mechanisms, they successfully replaced CAP for veterinary use.…”

Section: Introductionmentioning

confidence: 99%

Past and Present of Electrochemical Sensors and Methods for Amphenicol Antibiotic Analysis

et al. 2022

View full text Add to dashboard Cite

Amphenicols are broad-spectrum antibiotics. Despite their benefits, they also present toxic effects and therefore their presence in animal-derived food was regulated. Various analytical methods have been reported for their trace analysis in food and environmental samples, as well as in the quality control of pharmaceuticals. Among these methods, the electrochemical ones are simpler, more rapid and cost-effective. The working electrode is the core of any electroanalytical method because the selectivity and sensitivity of the determination depend on its surface activity. Therefore, this review offers a comprehensive overview of the electrochemical sensors and methods along with their performance characteristics for chloramphenicol, thiamphenicol and florfenicol detection, with a focus on those reported in the last five years. Electrode modification procedures and analytical applications of the recently described devices for amphenicol electroanalysis in various matrices (pharmaceuticals, environmental, foods), together with the sample preparation methods were discussed. Therefore, the information and the concepts contained in this review can be a starting point for future new findings in the field of amphenicol electrochemical detection.

show abstract

“…In recent years, due to the emergence of multidrug-resistant bacteria, it has been difficult to treat related bacterial infections in a clinical setting. Studies have shown that amidol antibiotics have a certain inhibitory effect on multidrug-resistant bacteria . Amidol antibiotics, which are also known as chloramphenicol antibiotics, are a class of broad-spectrum antibiotics that primarily include (−)-chloramphenicol, (−)-azidamphenicol, (+)-thiamphenicol, and (+)-florfenicol.…”

Section: Introductionmentioning

confidence: 99%

Continuous-Flow Synthesis of syn-2-Amino-1,3-diol via Catalytic Hydrogenation: A Vital Intermediate of (+)-Thiamphenicol and (+)-Florfenicol

Xia

Liu

et al. 2022

Org. Process Res. Dev.

View full text Add to dashboard Cite

In this paper, an expeditious and efficient continuous-flow process is reported for the synthesis of syn-2-amino-1,3diol. The starting material syn-2-nitro-1,3-diol reacts with hydrogen gas in a micro fixed-bed reactor packed with a Raney Ni catalyst to provide syn-2-amino-1,3-diol in 93% isolated yield. The reaction time in the flow system was markedly reduced (from 36 h in batch to 5 min in flow) due to enhanced mass transfer. The effects of the catalyst, solvent, reaction temperature, reaction time, pressure, and H 2 flow rate have been investigated successively. The optimum conditions for the continuous-flow reaction are described as follows when using Raney Ni as a catalyst at a reaction temperature of 25 °C, a reaction pressure of 10 bar, a reaction solvent of 3% AcOH in methanol, an H 2 flow rate of 25 sccm, and a liquid flow rate of 0.6 mL/min. The reaction kinetics in the temperature range of 10−40 °C were investigated. The reaction rate constants and activation energy were determined. The continuous flow system allows for an efficient hydrogenation of syn-2-nitro-1,3-diol on the hectogram scale, corresponding to an overall productivity of 73.6 g/d after continuous operation for over 240 h.

show abstract

The prevalence of amphenicol resistance in Escherichia coli isolated from pigs in mainland China from 2000 to 2018: A systematic review and meta-analysis

Cited by 16 publications

References 25 publications

The Wide Range of Antibiotic Resistance and Variability of Genotypic Profiles in Escherichia coli from Domestic Animals in Eastern Sicily

The Wide Range of Antibiotic Resistance and Variability of Genotypic Profiles in Escherichia coli from Domestic Animals in Eastern Sicily

Past and Present of Electrochemical Sensors and Methods for Amphenicol Antibiotic Analysis

Continuous-Flow Synthesis of syn-2-Amino-1,3-diol via Catalytic Hydrogenation: A Vital Intermediate of (+)-Thiamphenicol and (+)-Florfenicol

Contact Info

Product

Resources

About