Mastitis, antimicrobial resistance and acaricide resistance pose significant threats to the development of the dairy industry in sub-Saharan Africa. This study aimed to determine the prevalence of antimicrobial resist...Mastitis, antimicrobial resistance and acaricide resistance pose significant threats to the development of the dairy industry in sub-Saharan Africa. This study aimed to determine the prevalence of antimicrobial resistance in bacteria isolated from CMT positive cows on farms located in high (HARA) and low (LARA) acaricide resistance challenge regions of Uganda. Among selected herds in both regions, subclinical mastitis (SCM) screening was performed using CMT. CMT positive samples were collected, cultured, bacteria isolated and antibiotic sensitivity tests conducted. Overall, the prevalence of SCM in cows was 71.5% and 27.7% for HARA and LARA respectively. A SCM herd prevalence of 66.3% and 28.2% was recorded for HARA and LARA respectively. Furthermore, 67.5% and 20.8% of the cows in the HARA and LARA groups, respectively, had three out of four udder quarters infected with SCM. Staphylococcus aureus (44.2%) and coagulase-negative Staphylococcus (CNS) (47.6%) were the most prevalent causative agents of SCM isolated from cows from HARA and LARA, respectively. Most isolates from both regions were highly resistant to penicillin (HARA, 84.3%;LARA, 95.6%) and colistin (HARA, 100%;LARA, 97.8%). Tetracycline (77.1%) and oxacillin (76.1%) resistance was high in isolates from HARA and LARA, respectively. Intermediate responses (neither susceptible nor resistant) to antibiotics were more common in isolates from HARA than in those from LARA. With this level of antibiotic resistance, there is a potential risk of failure to control mastitis in dairy cattle using antibiotics, especially in the HARA region, which may possibly jeopardize the growth of the dairy industry in Uganda.展开更多
Antimicrobial resistance by bacteria and other microbes has become a global public and animal health threat. In this cross-sectional study, assessed the abattoir workers’ practices regarding pork handling and we inve...Antimicrobial resistance by bacteria and other microbes has become a global public and animal health threat. In this cross-sectional study, assessed the abattoir workers’ practices regarding pork handling and we investigated antimicrobial susceptibility patterns of Escherichia coli isolated from pigs brought for slaughter at Wambizzi, Uganda’s main pig abattoir. Rectal swabs were collected from a total of 176 live pigs prior to slaughter. Additionally, 24 swabs were taken from the abattoir floor environment. The collected swabs were cultured for the detection and isolation of E. coli followed by antibiotic susceptibility tests. Regarding pork handling practices, absence of hand washing facilities was observed and none of the workers cleaned/disinfected their equipment between slaughters while slaughters took place on the unhygienic floors of the inspection room. Overall, high prevalence (85.1%) of multi-drug resistant E. coli was detected in pigs received from all the regions of Uganda. Swine E. coli isolates exhibited high resistance against erythromycin (87.4%) and the least resistance against ciprofloxacin at 2.3%. At regional level, E. coli isolates from the central region of Uganda showed higher prevalence of multidrug resistant E. coli isolates as follows;amoxicillin (30.4%, p-value = 0.007), erythromycin (34.8%, p-value = 0.002), streptomycin (40.7%), ciprofloxacin (100%), oxytetracycline (31%) and sulphamethoxazole-trimethoprim (42.9%). Furthermore, multidrug-resistant E. coli was also confirmed in the immediate environment where pigs were gathered and slaughtered. From these environmental isolates, the highest resistance was confirmed against erythromycin (100%), whereas no isolates showed resistance against ciprofloxacin. The observed practices coupled with the presence of multidrug-resistant E. coli in the slaughterhouses presents a possible risk of pork contamination with multidrug-resistant E. coli presenting a potential risk of causing foodborne illnesses among pork consumers in Uganda. The current findings could justify active surveillance of antimicrobial resistance among food animals and provides basis for monitoring the quality of pork products to ensure food safety.展开更多
文摘Mastitis, antimicrobial resistance and acaricide resistance pose significant threats to the development of the dairy industry in sub-Saharan Africa. This study aimed to determine the prevalence of antimicrobial resistance in bacteria isolated from CMT positive cows on farms located in high (HARA) and low (LARA) acaricide resistance challenge regions of Uganda. Among selected herds in both regions, subclinical mastitis (SCM) screening was performed using CMT. CMT positive samples were collected, cultured, bacteria isolated and antibiotic sensitivity tests conducted. Overall, the prevalence of SCM in cows was 71.5% and 27.7% for HARA and LARA respectively. A SCM herd prevalence of 66.3% and 28.2% was recorded for HARA and LARA respectively. Furthermore, 67.5% and 20.8% of the cows in the HARA and LARA groups, respectively, had three out of four udder quarters infected with SCM. Staphylococcus aureus (44.2%) and coagulase-negative Staphylococcus (CNS) (47.6%) were the most prevalent causative agents of SCM isolated from cows from HARA and LARA, respectively. Most isolates from both regions were highly resistant to penicillin (HARA, 84.3%;LARA, 95.6%) and colistin (HARA, 100%;LARA, 97.8%). Tetracycline (77.1%) and oxacillin (76.1%) resistance was high in isolates from HARA and LARA, respectively. Intermediate responses (neither susceptible nor resistant) to antibiotics were more common in isolates from HARA than in those from LARA. With this level of antibiotic resistance, there is a potential risk of failure to control mastitis in dairy cattle using antibiotics, especially in the HARA region, which may possibly jeopardize the growth of the dairy industry in Uganda.
文摘Antimicrobial resistance by bacteria and other microbes has become a global public and animal health threat. In this cross-sectional study, assessed the abattoir workers’ practices regarding pork handling and we investigated antimicrobial susceptibility patterns of Escherichia coli isolated from pigs brought for slaughter at Wambizzi, Uganda’s main pig abattoir. Rectal swabs were collected from a total of 176 live pigs prior to slaughter. Additionally, 24 swabs were taken from the abattoir floor environment. The collected swabs were cultured for the detection and isolation of E. coli followed by antibiotic susceptibility tests. Regarding pork handling practices, absence of hand washing facilities was observed and none of the workers cleaned/disinfected their equipment between slaughters while slaughters took place on the unhygienic floors of the inspection room. Overall, high prevalence (85.1%) of multi-drug resistant E. coli was detected in pigs received from all the regions of Uganda. Swine E. coli isolates exhibited high resistance against erythromycin (87.4%) and the least resistance against ciprofloxacin at 2.3%. At regional level, E. coli isolates from the central region of Uganda showed higher prevalence of multidrug resistant E. coli isolates as follows;amoxicillin (30.4%, p-value = 0.007), erythromycin (34.8%, p-value = 0.002), streptomycin (40.7%), ciprofloxacin (100%), oxytetracycline (31%) and sulphamethoxazole-trimethoprim (42.9%). Furthermore, multidrug-resistant E. coli was also confirmed in the immediate environment where pigs were gathered and slaughtered. From these environmental isolates, the highest resistance was confirmed against erythromycin (100%), whereas no isolates showed resistance against ciprofloxacin. The observed practices coupled with the presence of multidrug-resistant E. coli in the slaughterhouses presents a possible risk of pork contamination with multidrug-resistant E. coli presenting a potential risk of causing foodborne illnesses among pork consumers in Uganda. The current findings could justify active surveillance of antimicrobial resistance among food animals and provides basis for monitoring the quality of pork products to ensure food safety.
