{"title":"小农户农场山羊和绵羊粪便中致病菌和共生菌的抗生素谱分析","authors":"Ashesh Basnet, Agnes Kilonzo-Nthenge","doi":"10.3389/frabi.2024.1351725","DOIUrl":null,"url":null,"abstract":"The increase of antimicrobial resistance (AMR) in zoonotic pathogens poses a substantial threat to both animal production and human health. Although large-scale animal farms are acknowledged as major reservoirs for AMR, there is a notable knowledge gap concerning AMR in small-scale farms. This study seeks to address this gap by collecting and analyzing 137 fecal samples from goat and sheep farms in Tennessee and Georgia.Bacteria were identified using culture-dependent methods and polymerase chain reaction (PCR), and antimicrobial susceptibility testing (AST) was performed using the Kirby-Bauer Disk Diffusion method.The prevalence of E. coli (94.9%) in goats and sheep significantly exceeded (p < 0.05) that of S. aureus (81.0%), Shigella (35.0%), S. saprophyticus, and Salmonella (3.0%). Salmonella occurrence in goat feces (2.2%) was higher than in sheep (0.8%). Notably, 27% of goats and 8% of sheep tested positive for Shigella spp., while 60% of goats and 21% of sheep tested positive for S. aureus. Antibiotic resistance was observed primarily against ampicillin (79.4%), vancomycin (65.1%), and gentamycin (63.6%), significantly surpassing (p < 0.05) resistance to tetracycline (41.6%) and imipenem (21.8%). The penicillin (79.4%), glycopeptide (65.1%), and aminoglycoside (63.6%) antibiotic classes displayed significantly higher (p < 0.05) resistance compared to tetracyclines (45.7%) and carbapenem (21.8%). Our findings suggest that goats and sheep feces may serve as source for multidrug-resistant bacteria, raising concerns about the potential introduction of their fecal matter into soil, water, and eventually to the food chain. This highlights the need for proactive measures to address and mitigate AMR in goats and sheep within small-scale farms.","PeriodicalId":73065,"journal":{"name":"Frontiers in antibiotics","volume":"15 23","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-05-16","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Antibiogram profiles of pathogenic and commensal bacteria in goat and sheep feces on smallholder farm\",\"authors\":\"Ashesh Basnet, Agnes Kilonzo-Nthenge\",\"doi\":\"10.3389/frabi.2024.1351725\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The increase of antimicrobial resistance (AMR) in zoonotic pathogens poses a substantial threat to both animal production and human health. Although large-scale animal farms are acknowledged as major reservoirs for AMR, there is a notable knowledge gap concerning AMR in small-scale farms. This study seeks to address this gap by collecting and analyzing 137 fecal samples from goat and sheep farms in Tennessee and Georgia.Bacteria were identified using culture-dependent methods and polymerase chain reaction (PCR), and antimicrobial susceptibility testing (AST) was performed using the Kirby-Bauer Disk Diffusion method.The prevalence of E. coli (94.9%) in goats and sheep significantly exceeded (p < 0.05) that of S. aureus (81.0%), Shigella (35.0%), S. saprophyticus, and Salmonella (3.0%). Salmonella occurrence in goat feces (2.2%) was higher than in sheep (0.8%). Notably, 27% of goats and 8% of sheep tested positive for Shigella spp., while 60% of goats and 21% of sheep tested positive for S. aureus. Antibiotic resistance was observed primarily against ampicillin (79.4%), vancomycin (65.1%), and gentamycin (63.6%), significantly surpassing (p < 0.05) resistance to tetracycline (41.6%) and imipenem (21.8%). The penicillin (79.4%), glycopeptide (65.1%), and aminoglycoside (63.6%) antibiotic classes displayed significantly higher (p < 0.05) resistance compared to tetracyclines (45.7%) and carbapenem (21.8%). Our findings suggest that goats and sheep feces may serve as source for multidrug-resistant bacteria, raising concerns about the potential introduction of their fecal matter into soil, water, and eventually to the food chain. 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引用次数: 0
摘要
人畜共患病原体的抗菌药耐药性(AMR)的增加对动物生产和人类健康都构成了巨大威胁。尽管大规模动物养殖场被公认为是 AMR 的主要贮藏库,但有关小规模养殖场 AMR 的知识却存在明显空白。本研究收集并分析了田纳西州和佐治亚州山羊和绵羊养殖场的 137 份粪便样本,试图填补这一空白。细菌的鉴定采用依赖培养的方法和聚合酶链式反应 (PCR),抗菌药物敏感性测试 (AST) 采用柯比鲍尔盘扩散法。山羊和绵羊中大肠杆菌的感染率(94.9%)明显高于金黄色葡萄球菌(81.0%)、志贺氏菌(35.0%)、沙门氏菌和沙门氏菌(3.0%)(P < 0.05)。山羊粪便中的沙门氏菌(2.2%)高于绵羊(0.8%)。值得注意的是,27% 的山羊和 8% 的绵羊对志贺氏菌属检测呈阳性,而 60% 的山羊和 21% 的绵羊对金黄色葡萄球菌检测呈阳性。抗生素耐药性主要针对氨苄西林(79.4%)、万古霉素(65.1%)和庆大霉素(63.6%),大大超过了四环素(41.6%)和亚胺培南(21.8%)(p < 0.05)。与四环素类(45.7%)和碳青霉烯类(21.8%)相比,青霉素类(79.4%)、糖肽类(65.1%)和氨基糖苷类(63.6%)抗生素的耐药性明显更高(p < 0.05)。我们的研究结果表明,山羊和绵羊的粪便可能是耐多药细菌的来源,这引起了人们对山羊和绵羊粪便可能进入土壤、水体并最终进入食物链的担忧。这突出表明,有必要采取积极措施来解决和减轻小型农场中山羊和绵羊的 AMR 问题。
Antibiogram profiles of pathogenic and commensal bacteria in goat and sheep feces on smallholder farm
The increase of antimicrobial resistance (AMR) in zoonotic pathogens poses a substantial threat to both animal production and human health. Although large-scale animal farms are acknowledged as major reservoirs for AMR, there is a notable knowledge gap concerning AMR in small-scale farms. This study seeks to address this gap by collecting and analyzing 137 fecal samples from goat and sheep farms in Tennessee and Georgia.Bacteria were identified using culture-dependent methods and polymerase chain reaction (PCR), and antimicrobial susceptibility testing (AST) was performed using the Kirby-Bauer Disk Diffusion method.The prevalence of E. coli (94.9%) in goats and sheep significantly exceeded (p < 0.05) that of S. aureus (81.0%), Shigella (35.0%), S. saprophyticus, and Salmonella (3.0%). Salmonella occurrence in goat feces (2.2%) was higher than in sheep (0.8%). Notably, 27% of goats and 8% of sheep tested positive for Shigella spp., while 60% of goats and 21% of sheep tested positive for S. aureus. Antibiotic resistance was observed primarily against ampicillin (79.4%), vancomycin (65.1%), and gentamycin (63.6%), significantly surpassing (p < 0.05) resistance to tetracycline (41.6%) and imipenem (21.8%). The penicillin (79.4%), glycopeptide (65.1%), and aminoglycoside (63.6%) antibiotic classes displayed significantly higher (p < 0.05) resistance compared to tetracyclines (45.7%) and carbapenem (21.8%). Our findings suggest that goats and sheep feces may serve as source for multidrug-resistant bacteria, raising concerns about the potential introduction of their fecal matter into soil, water, and eventually to the food chain. This highlights the need for proactive measures to address and mitigate AMR in goats and sheep within small-scale farms.