Contamination and Antimicrobial Susceptibility Testing of Staphylococcus aureus Isolated from Pork in Fresh Markets, Nongchok District, Thailand

We surveyed Staphylococcus aureus contamination in 110 pork samples from 12 fresh meat markets in Nongchok district, Bangkok, Thailand, and performed antimicrobial susceptibility testing with the disk diffusion method. The prevalence of S. aureus was 28.18%, and 52 strains were isolated. Antimicrobial susceptibility testing using the disk diffusion method revealed that 80.77% of the isolates were resistant to tetracycline and 76.92% to ampicillin. All strains were 100% susceptible to cloxacillin, cefoxitin, gentamicin, and cefazolin. The high percentage of antibiotic resistance to tetracycline and ampicillin was attributed to their use in treating infections in farmed animals and their addition to animal food for disease prevention. Interestingly, the present study revealed the intermediate resistance of S. aureus (13.46% of S. aureus-positive pork samples) to vancomycin which is a common medicine for treating severe infection in humans, suggesting that the trend of resistance might increase and becoming a serious problem of public health for both humans and animals.


Introduction
Staphylococcus aureus is a Gram-positive coccus bacterium that tends to be arranged in grape-like clusters. is bacterium can grow in a medium containing up to 10% salt and is coagulasepositive [1]. S. aureus is found on the skin and mucous membranes of animals and humans and is also an environmental contaminant [2]. However, in developing countries such as ailand, where meat is sold at fresh meat markets, the meat may be contaminated by organisms such as S. aureus, Escherichia coli, and Campylobacter jejuni [2][3][4]. S. aureus is the most common bacterial infection in humans and animals [1]. It can colonize humans and is the leading cause of bacteremia, infective endocarditis, and skin and soft tissue disease (e.g., impetigo and folliculitis); S. aureus also causes invasive infections and toxin-mediated diseases [1,5]. Multiple antimicrobial-resistant pathogenic bacteria have been recognized by the World Organization for Animal Health, the Food and Agriculture Organization, and the World Health Organization as an important public health issue [6,7]. Furthermore, S. aureus has shown antimicrobial resistance in human and animal therapy [3], and strains of methicillin-resistant S. aureus (MRSA) are important human pathogens. e spread of MRSA has largely focused on pigs because of widespread worldwide reports of MRSA colonization and antimicrobial resistance in pigs [4]. Our study aimed to determine the extent of S. aureus contamination and the antimicrobial susceptibility of subsequent isolates in pork sold in fresh meat markets in ailand.

Sample Collection and S. aureus Identification.
Hundred and ten pork samples were collected randomly for analyzing from 12 markets in Nongchok district, Bangkok, ailand. Sample amounts of the market no. 1 to no. 12 were 5, 20, 20, 10, 5, 5, 5, 5, 5, 10, 5, and 15, respectively. e samples were kept at 4°C before processing for culture. Each sample was cut into small pieces, placed in approximately 90 ml of buffered peptone water (Himedia Laboratories, Mumbai, India) and mixed for 3 min. en, 10 μl of the suspension was plated onto Baird-Parker agar (Himedia Laboratories, Mumbai, India) and incubated at 37°C for 18-24 hr. S. aureus grows as a black and shiny colony, with a fine white rim surrounded by a clear zone on Baird-Parker agar. All colonies identified as S. aureus were confirmed by a positive result for coagulase [2,8].

Discussion
In this study, the prevalence of S. aureus contamination in pork from 12 fresh meat markets was 28.18%. One of the possibility factors involved in the contamination is "the processing of meat in slaughterhouse" which includes many steps of risk to expose microorganisms such as washing the carcass and portioning of carcass using cutting equipment. e second possibility of contamination is "the locations of fresh meat markets" in the present study which are open area and being nearby streets, car parking, and car transportation with heavy traffic. A recent study reported the occurrence of pathogenic bacterial strains in the environment at a high probability such as S. aureus which can survive under unfavorable conditions on dry surfaces for a long period, even several months [10]; therefore, the contamination of equipment and hygiene (such as a knife, cutting board, apron, and hand towel) in the slaughterhouse and of fresh meat in the open air markets might occur. A previous study of bacterial contamination's prevalence in similar location to this study supports our finding. A survey reported sushi and sashimi from the flea market at Rangsit Campus, ailand, were contaminated with S. aureus 46.88%, that is, a high level of contamination [11] indicating that an open area such as fresh markets or flea markets has a chance to contaminate the pork or cooked foods. Furthermore, the consumer should clean meat before cooking and avoid eating raw meat. Another factor of bacterial contamination is the weather condition of collected sample's location. Our study investigated the pork sample in Bangkok, ailand, which is a country of hot and humid climate, and the prevalence of S. aureus contamination was 28.18%. In contrast, a previous study in the USA reported the percentage of pork at 43.3% which is much higher than this study. e integrated geography effects to the prevalence of S. aureus contamination [12].
S. aureus, a most common cause of food-borne disease, is a problem of the heath care management due to the resistance to antibiotic toward many classes of antimicrobials [13]. S. aureus is a leading cause of community-acquired and healthcare-associated bacteremia. Furthermore, S. aureus causes nosocomial infections in hospitalized patients. Tetracycline and ampicillin are effective against many Grampositive and Gram-negative bacteria and are used to treat chronic respiratory diseases [4,14]. However, the antimicrobial susceptibility test results of isolated S. aureus in our study showed a high percentage of tetracycline-and  [14]. is prevalence suggests that the level of resistance of S. aureus to vancomycin might increase in the future in ailand, resulting in a serious global problem when treating MRSA infections in hospitals [15]. Moreover, recently in India, VRSA (vancomycin-resistant S. aureus) was already detected 16% from buffalo nasal and skin samples using the disk diffusion method which is a dangerous public health issue [16].

Data Availability
Previously reported (antimicrobial-resistant strain) data were used to support this study and are available at (DOI: 10.4315/0362-028X-72.3.608, DOI: 10.1111/jfs.12589). ese prior studies are cited at relevant places within the text as references [2,4].

Conflicts of Interest
e authors declare that they have no conflicts of interest.