The susceptibility to antimicrobials of bacterial isolates from dogs (n = 1256) and cats (n = 94) was retrospectively evaluated in a veterinary diagnostic laboratory over a 4-year period (2016–2019). Out of 1316 isolates in dogs, 771 were Staphylococcus spp. distributed as follows: Staph. pseudointermedius (n = 406), Staph. intermedius (n = 160), Staph. aureus (n = 104), and Staph. coagulase-negative (n = 101). In common, all Staphylococcus spp. showed a high prevalence (20–50%) of resistance to ampicillin, cephalosporin, enrofloxacin, gentamicin, tetracycline, and trimethoprim-sulfonamide, but a low prevalence (1–10%) of resistance to amoxicillin-clavulanate. With regards to the other families of bacteria, the number of antimicrobials for which resistance was high (>20%) in dogs was: Enterobacteriaceae (7/12), Enterococcus spp. (10/16), E. coli (11/15), Pseudomonas spp. (10/13), and Streptococcus spp. (4/9). For urinary tract infections caused by E. coli or Enterobacteriaceae (Klebsiella spp., Proteus spp.), amikacin and florfenicol were the only drugs that demonstrated 100% in vitro efficacy. Multi-drug resistance was observed in 18.7% (246/1316) and 22% (21/97) of the isolates from dogs and cats, respectively. Except for Pseudomonas spp., known for intrinsic resistance, resistance in other bacteria was likely attributed to high selection pressure. In conclusion, empirical antimicrobial use cannot be recommended to treat most common infections, and selection should be based on results from susceptibility testing.
This study surveyed the prescribing behavior of Colombian companion animal veterinarians and compared the responses to the current guidelines of the International Society for Companion Animals on Infectious Diseases (ISCAID). A convenience sample of 100 primary-care veterinary practitioners was selected from the city of Medellin. A questionnaire was designed to present hypothetical clinical scenarios regarding prescription choices for systemic antimicrobials. The numbers of veterinarians empirically prescribing a course of systemic antimicrobials for each scenario were—perioperative elective surgeries (86%), superficial pyoderma (90%), lower urinary tract disease (52%), acute hemorrhagic diarrhea (50%), and kennel cough (46%). For urinary tract disease, cultures and susceptibility testing were only performed by half of the respondents, suggesting lower diagnostic standards. In superficial pyoderma cases, cytology was performed in the following percent of cases—0% (24), 20% (30), 40% (17), 60% (11), 80% (8), and 100% (10). Antimicrobials were over-prescribed relative to emerging standard for elective surgeries (86%), kennel cough (46%), and acute hemorrhagic diarrhea (50%). Critically important antimicrobials, such as fluoroquinolones, were applied commonly for superficial pyoderma (18%), kennel cough (12%), and lower urinary tract disease in dogs (20%) and cats (26%). In conclusion, antimicrobial prescribing behavior was inconsistent with current guidelines, and antimicrobial use could be improved by appropriate diagnostic steps allowing choice of an optimal antimicrobial drug. Overall, we documented the widespread use of antimicrobials for the treatment of these four common disease conditions.
Background: Commensal microflora such as Escherichia coli and Enterococcus spp. are representative indicators of antimicrobial resistance (AMR) as they are part of the normal intestinal microflora and can acquire and disseminate AMR to pathogenic or zoonotic bacteria like Salmonella spp. Objective: To investigate the state of AMR among E. coli and Salmonella spp., potential pathogens in humans, isolated from cecal contents of pigs submitted to a veterinary diagnostic laboratory in Colombia from 2016 to 2019. Methods: Susceptibility testing was conducted using the Kirby-Bauer disk diffusion method according to the Clinical and Laboratory Standards Institute guidelines for antimicrobial zone diameter breakpoints. An E. coli strain (ATCC 25922) was used as the quality control organism. Isolates showing resistance to three or more antimicrobial classes were classified as multidrug-resistant (MDR) as defined by a joint group of the European Centre for Disease prevention and Control and the Center for Disease Control and Prevention of the USA. Results: A total of 112 E. coli and 192 Salmonella spp. colonies were isolated from 557 samples received between 2016 and 2019. In order of decreasing frequency, E. coli was resistant to tetracycline (100%), sulfamethoxazol-trimethoprim (97.5%), amoxicillin (86.4%), enrofloxacin (82.6%), tylosin (82.1%), doxycycline (59%), neomycin (50%), ciprofloxacin (45.5%), ceftiofur (35%), gentamicin (30%), tilmicosin (29%), and fosfomycin (12.5%). When compared with E. coli, Salmonella spp. was generally resistant to the same agents with slightly less resistance (between 10-30%) to eight of the antimicrobials tested. Salmonella spp. showed <20% resistance to three antimicrobials, as follows: neomycin (17%), gentamicin (16%), and fosfomycin (14%). Multi-resistance occurred in 68.7% (77/112) of E. coli and 70.3% (135/192) of Salmonella spp. isolates. Resistance of Salmonella spp. was alarming to all the critically important antimicrobials tested: fluoroquinolones (enrofloxacin, ciprofloxacin), ceftiofur (thirdgeneration cephalosporin), and macrolides (tylosin). Conclusions: According to our results, there is a high level of multidrug resistance (MDR) in E. coli and Salmonella spp. It is necessary to implement a nationwide antimicrobial resistance monitoring program in Colombia, together with proper antimicrobial prescribing guidelines for pigs. The indiscriminate use of antimicrobial growth promoters by the swine industry is generating widespread bacterial resistance and should be discontinued.
La ivermectina es el antiparasitario más usado en veterinaria a nivel mundial desde que entró al mercado en 1981. La U.S. Food and Drug Administration (FDA) americana en su valoración de riesgos determinó que, si bien es muy tóxica para organismos acuáticos, es improbable que, con las aplicaciones registradas para uso animal y por sus propiedades fisicoquímicas, se lleguen a contaminar cursos de agua. Sin embargo, los efectos de la ivermectina (IVM) sobre la fauna de invertebrados no blanco si pueden tener gran repercusión en la ecología de los pastizales por los costes asociados a la presencia de las boñigas no degradadas. De hecho, las pérdidas económicas por disminuir la calidad de los pastizales y reducir la superficie de los pastos disponible y apetecibles al ganado se han calculado en hasta 380 millones de dólares para la economía americana. La ivermectina afecta a un grupo muy beneficioso y diverso taxonómicamente que habita las boñigas, incluyendo a moscas coprófagas, avispas parasíticas, y escarabajos coprófagos y depredadores. Algunos estudios muestran que las boñigas de animales tratados con IVM pueden permanecer en los pastizales sin muestras apreciables de degradación hasta 340 días, mientras que las de animales no tratados son degradadas casi totalmente después de 80 días. Además, estudios de campo y laboratorio han mostrado que la sensibilidad de muchos insectos ocurre a concentraciones muy por debajo de las que se excretan con las heces de bovinos tratados con IVM. Los efectos sobre la reproducción y desarrollo de larvas de coleópteros ocurren incluso a concentraciones que son de hasta 10 veces por debajo de las que producen mortalidad. En Colombia se han identificado al menos 68 especies de la subfamilia Scarabaeinae que integran la comunidad de las boñigas del bovino. La mayor diversidad de escarabajos estercoleros se ha asociado a bosques y sistemas silvopastoriles que incorporan arboles nativos y proveen hábitats favorables para su supervivencia.
La calidad e inocuidad del agua de bebida de los animales de abasto es esencial para garantizar la salud y bienestar animal. El objetivo de esta investigación fue determinar la calidad e inocuidad del agua de consumo de animales de abasto para identificación de condiciones sanitarias de predios en los municipios de El Dorado y Granada (Meta, Colombia). Se seleccionaron 60 sistemas de producción animal donde se tomaron muestras de agua desde puntos de extracción y abastecimiento tanto para animales como para humanos. Se analizaron sus características fisicoquímicas (pH, Amoniaco-amonio, nitratos y nitritos) y microbiológicas (recuento de organismos mesófilos aerobios y facultativos, así como determinación de coliformes totales y fecales). El pH del agua de los sistemas de producción varió entre 6,0-7,2 en Granada y 7,2-7,6 en El Dorado. Respecto a nitratos y nitritos, todos los valores fueron considerados normales. Los valores de amoniaco-amonio variaron entre 0-1 ppm en los sistemas de producción de Granada y entre 0-0,5 en los sistemas de producción de El Dorado. En relación con la presencia de bacterias coliformes totales y fecales, se encontró en el 100 % de las muestras. El 58 % de los predios del municipio de El Dorado presentaron valores ≥ 48.000 ufc/100 mL de microorganismos mesófilos aerobios, mientras que en el municipio de Granada el porcentaje más alto de microorganismos mesófilos aerobios se encontró entre 100-1.000 ufc/100 mL. Todos los sistemas de producción animal presentaron en su agua de bebida contaminación por coliformes fecales, siendo un riesgo para la salud humana y animal al ser fuente de enfermedades trasmitidas por el agua.
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