Drug Resistance and the Prevention Strategies in Food Borne Bacteria: An Update Review

Antibiotic therapy is among the most important treatments against infectious diseases and has tremendously improved effects on public health. Nowadays, development in using this treatment has led us to the emergence and enhancement of drug-resistant pathogens which can result in some problems including treatment failure, increased mortality as well as treatment costs, reduced infection control efficiency, and spread of resistant pathogens from hospital to community. Therefore, many researches have tried to find new alternative approaches to control and prevent this problem. This study, has been revealed some possible and effective approaches such as using farming practice, natural antibiotics, nano-antibiotics, lactic acid bacteria, bacteriocin, cyclopeptid, bacteriophage, synthetic biology and predatory bacteria as alternatives for traditional antibiotics to prevent or reduce the emergence of drug resistant bacteria.


Introduction
Antimicrobials have a lot of usage in medicine for human, plant and veterinary for a few decades. These substances can be used on agriculture and veterinary for different means of feed efficiency, growth improve and almost simultaneously for control, prevent and treat infections. 1,2 Antibiotics are vital medical materials which can be natural, synthetic or semi-synthetic and can kill or interfere the growth of bacteria, and are used both in animals and humans for control or treat infections. 1,2 In meatproducing animals, the most common problems due to antibiotics use are including bovine pneumonia, shipping fever and diarrhea, 3 respiratory diseases, liver abscesses and improvement in growth. 4 On the other hand, studies reported some safety adverse reactions for antibiotics including anaphylaxis, cardiotoxicity, nephrotoxicity, neurotoxicity and hepatotoxicity, and also documented number of hematological and gastrointestinal problems. 5 Therefore, in relation to antimicrobial consumption in animal or human, some important items should be considered, including drug characterization (toxicity, pharmacodynamics, pharmacokinetics, cost and tissue distribution), the age and immune system of animal or human and appropriate drug dose which can be achieved by anti microbial susceptibility test. 6 According to studies, antimicrobials can be used as growth enhancer in low subtherapuetic doses, but these doses cannot destroy the bacteria and allow them to achieve more resistance to the drug. 7 Concerns about misuse or overuse of antimicrobials as nontherapeutic and appearance of drug resistance have arisen when antimicrobial dose increased to 100 percent in aquaculture in the 1994-2004. 8,9 Antimicrobial resistance pointed to the situation that a microorganism shows resistance to a drug that was effective for its killing or destroying previously. 10 Todays, this issue have significant effect on mortality and morbidity of humans each year and has reported that antibiotic-resistant bacteria caused death of 700,000 people globally and has predicted that this rate tend to enhance approximately to 10 million by 2050. 11 Adaptation of bacteria to various environmental stresses such as antibiotics, approve that they are quite adaptive organisms. 10 There are two types of mechanisms for creation and spreading the resistant bacteria population: vertical gene transfer and horizontal gene transfer. The former, which is also called intrinsic resistance, occurs in evolutionary phase and genetic errors accumulate in the plasmid or chromosome of bacterial cells. However in the horizontal gene transfer or acquired resistance, the exchanges are within and between bacterial species in which the organisms gain new genes on their mobile genetic elements including plasmids, insertion sequences, phagerelated elements and integrons, transposons. 12 Antibacterial resistance can be spread by food chain through direct or indirect exposure. Direct exposure occurs, following the contact of human with animal or its blood, saliva, milk, semen, feces and urine which is very simple and rapid way for spreading resistant bacteria. The indirect contact occurs, following by consumption of contaminated food products such as egg, meat and dairy products which is more complex and far-reaching pathway. [13][14][15] The other particular transport routs are related to environment which can be the source of antibiotic-resistance genes. 16,17 As a result, the bacteria as a reservoir of resistance genes in addition of their pathogenicity, can be a hidden hazard for public health. The appearance of antimicrobial resistance by the food chain is a cross-sectorial problem; the first, antibiotics are extensively used in veterinary, aquaculture and agriculture, the second, antibacterial-resistant bacteria and genes can simply spread at each step of the food chain, and the last can be related to infectious diseases in humans. 18 On the other hand, antibacterial-resistance can have globally dissemination by food chain due to extension of population, international travels and trade in food products. 12 In preparing food animals, vegetables and fishes, in different ecosystems with numerous bacteria, large types of antibiotics are used which can cause to appearance resistant bacteria. 19 Todays, antibiotic-resistance, especially that which is transferred from food chain to human is a global concern, and a lot of researches have been conducted to find approaches for solving this critical problem. In the present study, we tried to express some approaches for preventing the appearance of drug-resistant bacteria.

Drug resistant bacteria & food safety
Food safety is a scientific course which has been focused on prevention and controlling the food borne diseases in all processes of the food production process including transport, storage, handling, preparation and in ensuring health and safety of foods for human consumption. 20 Resistant food-borne diseases are one of the most important public health problems associated with the risk of emergence of antibacterial resistance in the food production chain. Literatures have indicated that increase in antibiotic resistance bacteria has been caused to an augment in food borne diseases. 21 Besides, it should be noted that two-third of severity illnesses were related to Gram negative resistant bacteria which the importance and treatment ways of different resistant bacteria are dissimilar. 22 Todays, different types of resistant bacteria have been identified in food products and humans, however, some basic and simple food safety measures such as appropriate hand-washing, convenient vegetablewashing, effective cooking temperatures and food storage situation can efficiently reduce and control the spread of antibacterial resistance foodborne pathogens. 20 According to Mensah et al, 23 antibiotic residues in food products can have different adverse effects for public health including allergic reactions, hepatotoxicity, mutagenicity, carcinogenicity, toxic effects, nephropathy and antibacterial resistance.
In overall, the results of spreading antibiotic-resistant bacteria and infectious diseases could be summarized as: (1) delay or unsuccessfulness in treatment, (2) limiting in selection of antimicrobials, (3) surviving of resistant strains in treatment of other bacterial illnesses, (4) coexistence and increased pathogenicity of resistance genes in result of selection. [24][25][26] According to literatures, there are various food borne pathogens which indicates resistance to different drugs and antibiotics. Some important resistant food borne pathogens including: Thermotolerant Campylobacter: its related disease has short duration with low mortality rate and public health problem. Studies found that some Campylobacter spp. were resistant to macrolides, quinolones, chloramphenicol, ampicillin, tetracy cline, lincosamides, aminoglycosides and other tylosin, β-lactams and cotrimoxazole. 27,28 Salmonella: one of the food borne pathogens which is very high risk factor for human health with remarkable worldwide distribution. Salmonella spp. have indicated multidrug resistance toward tetracyclines, kanamycin, sulfonamides, chloramphenicol, streptomycin, cephalosporins and penicillins. 29 Staphylococcus aureus spp. are common pathogens for animals and human which reported as resistant-pathogens to penicillins as early as 1948. 30 These resistant pathogens are important in dairy product.
Enterococci spp. are common bacteria in the intestinal tract of birds and mammals and known as indicators for enteric contamination of foods. These pathogens can endure unfavorable conditions such as low or high pH, temperature and saline waters 31,32 which reveals that resistant-Enterococci can be an important factor of community-acquired infections. 33 Furthermore, resistant Enterococci can transfer resistance gene to human-adapted strains and have adverse effect, indirectly. 32 Yersinia: This genus is composed of various species, including Y. pestis, Y. enterocolitica and Y. pseudotuberculosis, which are pathogenic strains. 34 Y. enterocolitica may lead to septicemia, septic arthritis, pneumonia, cellulitis, meningitis, empyema, osteomyelitis and panophthalmitis. According to literatures, strains of biovar 1B (serovar O:8) indicated resistance to carbenicillin, cephalothin and ticarcillin, 35 whereas, biovar 3 (0:1,2,3 and O:5,27) strains were resistant to cefoxitin and amoxicillin/clavulanic acid. 36 Recent publications where the food borne disease, resistant pathogen and their resistance mechanisms have been reported are shown in Table 1.

Preventive approaches
Farming practices Biosecurity measures in agriculture and food products have significant role in reduction of antimicrobial resistant bacteria and its transmission from farm to fork. According to the FAO and the WHO, 2011, biosecurity is defined as the measures for reduce or eliminate the threat of the emergence or spreading of diseases at region or country-levels. 56,57 These measures which called as expressions such as hazard analysis and critical control points, good agricultural practices, good veterinary practices, good hygiene practices focus on health and management/assessment of microbiological risk. 56,57 Therefore, biosecurity can play economical role in public health control plans, especially in agricultural production, because good and correct practice, wellcontrolled farming and using low chemical materials , leads to healthy animals and reduction in requirement of antibiotic treatments. On the other hand in the situation of appearance of resistant bacteria, effective practices can prevent its dissemination and ensure the food safety and food health. [58][59][60] According to Österberg et al, 61 organic plants indicated a significantly lower amount of resistant bacteria of E. coli rather than conventional ones. Figure  1 indicates the ways of appearance of drug-resistant bacteria in society.
Beside, rapid diagnostics of resistant bacteria and their genes will aid to agricultural practitioners to early detect and separate the infectious plants and animals and prevent of its quick spread. 1 Almost, few of rapid tools such as PCR and microarray can identify the pattern of resistance and aid to define appropriate treatment methods. 62 In applying these diagnostic tools, it should be considered that these methods must be rapid, fundamental, repeatable and easy  55 Penicillin Alterations in penicillin-binding proteins 53 to use. 12 Todays, a lot of innovative and modern methods have been suggested for rapid and reliable detection of resistance bacteria in food process chain including, Fourier Transform Infrared Spectroscopy, ATR-FTIR, 63 Nano scale materials (such as gold nano-wire), magnetic nanoparticles which are based on bacterial metabolic activity and also antibiotic susceptibility in blood or milk. 64

Alternatives for antibiotics for food animals Natural antibiotics
As previous expressed, todays injudicious use of drugs and especially antibiotics is the most important reason in the appearance of drug resistance thus a lot of studies have investigated using the natural and effective antimicrobial agents as alternative and complementary therapy method. 65 Essential oils are biological and active substances which are produced by plants and can have antibacterial, antifungal, sedative, antioxidant, digestive, anticancer, anti-inflammatory and antiviral activities. [66][67][68] The efficiency of these substances depends on their genotypes, chemical composition, agronomic and environmental conditions. 69 Recent studies have revealed that essential oils can be used as preservative in foods and even can have prevention role in developing multidrug-resistant bacteria. 65,66,70 According to literatures, some essential oils can have synergistic inhibitory effect in combination with conventional drugs which can lead to reducing effective dose of drugs and therefore, lessen their adverse effect. 71 For example, study of Fadli et al, 72 indicated that combination of conventional antibiotic and essential oil of Moroccan endemic thyme could have synergistic effect in antimicrobial activity and resulting in reduction of required effective dose, toxic side effects and also cost concerning of drug resistant bacteria. On the other hand, combination of essential oils with standard antibiotics can lead to different inhibition mechanisms in resistant bacteria and this can be a new choice to suppress the microbial resistance. 73 Duarte et al, 71 has studied on antimicrobial effect of classical antibiotics and coriander essential oil against A. baumannii and observed that the essential oil can improve antimicrobial effect of ciprofloxacin, gentamicin and tetracycline.
Essential oils are composed of many different terpenic compounds which lead to have various health effects. These biological substances have been used in different dosage forms including capsules, creams, aerosols, ointments, syrups, sprays and suppositories. 69 However, essential oils have more advantages as antibiotic alternative, but their utility is limited by very low solubility in water and their sensitivity to oxygen, heat and moisture. Although many researches try to solve these problems. For example, nano-sized formulation or nanoencapsulation of these substances can be viable solutions against these problems. 74,75 Table 2 reports recent publications where the effect of using classical antibiotics with essential oils are shown.

Nano-antibiotics
Classical antibiotic therapy lead to antibiotic resistance and this can prevent by using nano-antibiotics. 85 "Nanoantibiotics" defined as all nano sized materials which have additional antimicrobial activity and can augment the overall efficacy and safety in consumption. 64 Recent researches have been observed that using nano encapsulation system can improve efficacy of antibiotics. 86,87 On the other hand, nano-carriers indicated functional role which can improve drug absorption by enhancing solubility, preventing from drug degradation, controlling intracellular penetration and etc. 88 Today, biological nanocarrier systems such as liposomes and chitosan based capsules have been used as drug carrier because of their advantages (including biodegradability, economically, biocompatibility, having no or minimal side effects). 89 The other advantage of nano-antibiotics is their functional properties by several approaches such as (i) producing different antibiotics by the same nanoparticles, (ii) using different mechanisms to prevent bacteria growth, (iii) improving in drug efflux, (iv) releasing high amount of antibiotics at the infection site. 64,90 Therefore, manufacture and development of nano-antibiotics, in addition of prevention of emerging resistant bacteria and reduction the side effects of drugs, can facilitate their storage for long time which can be more economic, although, this science needs investment for developing and becoming commercial technology.

Synthetic biology
Synthetic biology is defined as new patch in using of genome synthesis technologies to generate novel living systems with functional application. 91 This new approach is offered for the improvement and exploitation of natural products to suppress the emergence of antibiotic resistant pathogens. Novel products are small molecules with genetical codes that have chemical structures which can be used as new antimicrobials. 91 This state-of-art technology can design more cost-effective antibiotics with novel and specific activity, which connect biological systems to engineering processes. With emergence of resistance mechanisms, the antibiotics which are created based on  random mutations, facing to obsolesce and till now only a few drugs are new and producing by pharmaceutical sector. Synthetic biology is based on building and integrating gene molecules for reaching to desired results. These biological and functional units can be used for biomedical applications. 92,93 Biological systems can generate new drugs relied on the intelligent approaches, such systems are composed by products of biosynthetic genes for new production pathways. This technology can define biological machineries for different bacteria to predict their ability in production of antibiotics and designing synthetic bacteria and also new antibiotics with beneficial functionality by engineered control systems. 94 Furthermore, this engineering framework, has potential uses in countering bacterial infections, biofuel production, synthesis of natural products and industrial chemicals substitutes. 92,95,96 According to reports of genome sequencing of various fungi and bacteria, different species of microorganisms can be used for production of antibiotic. 91 Although, as any developing technology, synthetic biology has some problems which leads to limit its application in industry. Fortunately, in antibiotics discovery, these limitations are far less than other fields. 91 In the application of this technology, it should be considered to microbe safety in production of new antibiotics, security of drug discovery in fermentation tanks and their isolation and to economic concerns of synthetic biology in biosynthetic production of antibiotics.
In biosynthetic gene clusters some antimicrobial compounds including nonribosomal peptides, alkaloids, polyketide antibiotics, bacteriocins, saccharides and terpenoids 97 which are used for encoding, can control the pathogenic microorganisms. 98 Todays, by advancing in synthetic biology, DNA sequencing and synthesis, it is possible to access more diversity of antimicrobials and study on these organisms without laboratory culture. 99 Chu et al., by using nonribosomal peptide synthetases and advanced synthetic biology, could produce new antimicrobials against methicillin-resistant S. aureus, which called humimycins, and enhanced the effect of β-lactam antibiotics. 100 In overall, synthetic biology have an important role in steps of design, production and modification of natural products. 101 Improvement in gene expression and developing strong regulators and promoters can be useful to produce larger and advanced compounds in future.

Lactic acid bacteria
Lactic acid bacteria can be the other alternative approach for traditional antibiotics. According to literatures the foods containing probiotics, prebiotics, synbiotics have significant role in human and animal health. 62 Probiotics or in particular lactic acid bacteria, are a group of Grampositive, non-spore forming and acid tolerant organisms which are used as reformer of texture and taste in fermented foods. 102,103 These bacteria are characterized by reduction in redox potential and pH, producing lactic acids, diacyls, bacteriocins, hydrogen peroxide, etc., which can degrade mycotoxins, prevent the growth and activity of pathogenic and food spoilage bacteria. 104,105 Furthermore, according to recent studies, kimchi (traditional fermented food) caused by Lactobacillus plantarum LBP-K10, indicated high antifungal activity and also antiviral activity. 106,107 The other solutions for preventing or treatment of diseases is association with gut bacterial microecosystem which can improve by prebiotics, probiotics, and synbiotics foods. 108,109 Probiotics can protect the gut microbial flora, improve immune system and prevent colonization of pathogens. 110 Therefore, finding new technologies for identifying and characterizing new strains of these bacteria with more antimicrobial activities can have effective role in protection of public health.

Bacteriocin
As previous, LAB and their bacteriocins have indicated antimicrobial activities against various pathogens and can be used as effective replacement for antibiotics and other chemicals in the food technology. Bacteriocins are a group of potent antimicrobial peptides which compete with related and mostly Gram-positive organisms to gain more nutrients. 111 These primary metabolites are small and cationic molecules with 30-60 amino acids that are heat stable at 100°C for 10 minutes and are different in mode of action, genetic origin, molecular weight (MW) and biochemical properties. 112 In concept of anti-bacterial resistant bacteria, some novel properties of LAB and bacteriocins including sitespecific delivery of drugs and strategies of anti-quorum sensing can have fascinating roles which lead to increase their application in future. Nisin and pediocin, two bacteriocins isolated from fermented foods, have been approved as natural preservatives by the FDA. 112 Some of these antibacterial substances can be effective on both Gram-negative and Gram-positive food borne bacterial pathogens which can be used as biopreservatives and be important in preying human pathogens. Action site of bacteriocins is the cytoplasmic membrane of bacteria. 104 Their drawback is associated to the inhibition effect of probiotics against mainly more related organisms and even desirable bacteria as starter cultures. Furthermore, they often have no activity on gram-negative food spoilers and pathogens but according to Kwak et al, 106,113 using chelating agents can increase susceptibility of gramnegative bacteria to bacteriocins. According to recent study, heterofermentative Lactobacillus spp. can reduce the harmful microorganisms in Dutch-type cheese production, control human pathogens and therefore can affect on safety, quality and shelf life of food products. 114 In spite of the excellent properties of these metabolites, it has been shown that resistant gene could have been horizontal transferred to benefit bacteria (that produce bacteriocin) in uncontrolled in vitro and in vivo analyses. 112 Therefore, more researches need to ensure the efficacy and safety of these bacteria and their bacteriocins for health claims and clinical application.

Cyclopeptide
Antimicrobial peptides are a group of metabolites of Lactobacillus spp. which are considered as an approach for novel pharmaceutical applications. These bioactive agents are some small substances including cyclic dipeptides and 2,5-diketopiperazines. 115 Borthwick suggested that their inhibitory effect can be related to the presence of double bonds in amino acid residues at the α, β-positions of cyclic dipeptides, and also the NH proton in pyrroline and diketopiperazine ring. 115 Dipeptidyl cyclic rings have been introduced as signal molecules which could reduce virulence-factor and prevent microbial growth for few decades . 116,117 These peptides such as some diketopiperazines (2,3-, 2,5-, and 2,6-diketopiperazines and their derivatives) indicate inhibitory effect against fungi, Gram-negative and -positive bacteria. 118 According to Kwak et al, 107 cis-cyclo (L-Phe-L-Pro) and cis-cyclo (L-Leu-L-Pro) have inhibitory effect on influenza A virus and also cis-cyclo (L-Phe-L-Pro) and cis-cyclo (L-Val-L-Pro) are active against growth of Ganoderma boninense and Candida albicans in plant and human, respectively. 106 Liu et al 119 reported some of these peptides were isolated from kimchi (a Chinese fermented food) and had antifungal and antibacterial effects. Studies showed that antioxidant peptides have some functional roles and suggested a novel microbial diketopiperazine from the cyclo (His-Leu) which produced by Bacillus subtilis. 120,121 Researchers reported that cyclo (His-Pro) plus high doses of zinc have anti-hyperglycemic effect and stimulating consumption of muscle glucose 122 and reduce obese diabetic (ob/ob) which can have significant positive effect on human health. 123 Furthermore, Cyclo (Phe-Phe) can inhibit the development of dementia and Alzheimer's disease by preventing acetylcholinesterase and serotonin transporter. 124 According to Lee et al.,125 Cyclo (Trp-Trp) from some strains of Streptomyces indicated significant inhibitory effect on multi drug resistance of Acinetobacter baumannii and the other fungal and bacterial strains. Lind et al, 126 observed antifungal activity against Rhodotorula mucilaginosa and Aspergillus fumigatus by cyclo (Ile-Pro) and Cyclo (Phe-Pro).
Therefore, antimicrobial peptides can be an alternative for traditional antibiotics, also these substances indicate bioactive activities, such as antiviral, antifungal, antitumor, antiprion and glycosidase inhibitor activities. 127 However, some of these components have shown toxic effects on mammalian cells. 128

Immunostimulant
Vaccination is an infection preventive strategy which is based on immunological memory and body immune response to the foreign agent. 129 Vaccines are inactivated or attenuated pathogens which can have protection role in again exposure to the same pathogen in future. 130,131 In modern medicine, antibiotics and vaccines are used as the two greatest measures for prevention and treatment. The vaccines can suppress the antibacterial resistant bacteria by reducing the pathogen population which cause to reduce the level of antibacterial use and appearance of antibacterial resistant bacteria. 132 Vaccines have prevalence role on resistant bacteria by direct and indirect mechanisms. They reduce the use of antibiotics in individuals for the same pathogen and also help to prevent transmission of disease to others. Furthermore, vaccines can affect on non-bacterial pathogens which can associate to superinfects and need to medicine treatments. 133 Unfortunately, there are no certain treatment for many infectious diseases for example malaria, HIV, tuberculosis and salmonella which can lead to global problem. 134 Vaccination treatment of these diseases may need more cost but can be an economical solution in long term and can inhibit the drug resistance which in turn protect millions of lives. The use of vaccination as an immunization program is a preventing method in animals and can significantly increase the productivity. According to studies, using lower antibiotics with appropriated novel vaccines program will be able to lessen the worldwide spread of infective diseases. 130,133 Bacteriophage Bacteriophages are specifically viruses which act against bacteria as an alternative for antibiotics with breaking cell wall for solving appearance of resistance in bacteria. 135 Bacteriophages with DNA or RNA genomes can encode endolysin enzymes that lysis cell wall by cleavage peptidoglycan. Besides, Bacteriophages genome encode proteins that are called amurins which inhibit cell wall synthesis resulting in breakage cell wall. 136 Efforts for using bacteriophage for treatment is related to before discovering discovery of antibiotics. 137 Bacteriophages have two lysogenic and lytic life cycles which have potential role in treatment options. 135 A characteristic of bacteriophages is their specificity that can only act against targeted bacteria without any adverse effect on normal flora which is very important for improvement of health. On the other hand, this specificity lead to some problems in immunity issue of phage therapy and besides need to high specific procedures. 138 Furthermore, this specificity causes problem for infections which are generally colonized by different strains of bacteria. 139 Although a few studies confirmed the safety of oral administration of phage, 140,141 the important issue is correct phage translocation across the intestinal epithelium. 142 Of course, studies indicated this translocation can be useful for the body by regulation of immune system to indigenous microbe antigens through the prevention of tumor necrosis factor, interleukin-2 and interferon gamma production. 142 However, some other studies did not observe significant increase in levels of cytokine through phage treatment. 143 Despite of limited data about phage therapy, literatures have reported that phage therapy in addition to reduction of the gut pathogenic flora, causes very lower perturbation in comparison to traditional antibiotics. 144,145 Regional specificity lead to finding phages with the highest infectivity against the target pathogen. This can be more helpful when looking for phages for antibiotic resistant bacteria especially in hospital. 146 Moreover, phages have some enzymes such as extracellular polymeric substances depolymerase which can degrade bacterial biofilms and extracellular polymeric substances but antibiotic cannot treat the infection of biofilm-based bacteria. 147 Gabisoniya et al 148 observed that phages inhibited additional biofilm formation and also destroyed existing biofilm of the Pseudomonas aeruginosa.

Predatory bacteria
The last alternative solution against resistant bacteria infections is the use of some bacteria known as ''predatory bacteria'' . Micavibrio aeruginosavorus, Bdellovibrio bacteriovorus and associated organisms are gram-negative bacteria and belong to two subgroup of proteobacteria. 149,150 These bacteria due to their proteases and DNases, demonstrated potential in predation of various pathogenic bac teria and are not specific against gram-negative bacteria. 115,134,135 The interesting factor of these predatory bacteria is that they can prey effectively even bacterial biofilms and multidrug-resistant pathogens including E. coli, P. aeruginosa, A. baumannii, Pseudomonas putida and Klebsiella pneumonia. 110,151,152 Predatory bacteria could serve both as probiotic and antibiotic organisms. 10 Studies reported that these bacteria are effective in treatment of ocular diseases caused by Shigella flexneri and Moraxella bovis in rabbits and cows, respectively. 153 With the development of antibacterial resistant bacteria and inadequately treatment by conventional antibiotics, predatory bacteria as live antibacterials can have effective role in human health and treatment of diseases. 153,154 In spite of useful properties of these bacteria, they have some limitations in their application. Predatory bacteria can have negative effect on the natural microbiota of the body. 155 On the other hand, they may have incomplete predation on bacteria and remain a few number of bacteria. 151 Furthermore, existence of Gram-positive bacteria can reduce their predation efficacy. 151

Conclusion
Drug resistant bacteria are a global concern phenomenon which can have adverse effects on public health and economy. The assurance of food safety from farm to fork is significantly affected by inappropriate use of drugs and especially antibiotics as treatment agents and growth promoters in food animals. Judicious use of antibiotics has been led to the emergence of anti-bacterial resistant pathogens which can contaminate the food products, reach human body and cause different problems to health. For solving this issue, many researchers have investigated on alternatives for antibiotics in farm practice and also human treatment. Simple biosecurity measures in agriculture and food production process are really beneficial practices which have significant role in food safety and transmission of drug resistant bacteria to humans. Furthermore, combination therapy, combining essential oils and traditional antibiotics, as a new method in pharmacology can be an effective and economic approach against antibiotic resistance. However, these methods need more consideration, encouragement and investment. The discovery and development of novel drugs with new technologies as alternatives to classical antibiotics is a vital issue in global health.

Ethical Issues
Not applicable.

Conflict of Interest
Authors declare no conflict of interest in this study.