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Fırat Üniversitesi Sağlık Bilimleri Veteriner Dergisi
2014, Cilt 28, Sayı 1, Sayfa(lar) 025-028
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Kayseri'de Satışa Sunulan Sucuklarda Salmonella spp. Varlığı ve Antimikrobiyel Direnç Profilleri
Nurhan ERTAŞ1, Seçil ABAY2, Nihat TELLİ3, Harun HIZLISOY2, Serhat AL1
1Erciyes Üniversitesi, Veteriner Fakültesi, Besin Hijyeni ve Teknolojisi Anabilim Dalı, Kayseri, TÜRKİYE
2Erciyes Üniversitesi, Veteriner Fakültesi, Mikrobiyoloji Anabilim Dalı, Kayseri, TÜRKİYE
3Selçuk Üniversitesi, Teknik Bilimler Meslek Yüksekokulu, Konya, TÜRKİYE
Anahtar Kelimeler: Antibiyotik, Salmonella spp., sucuk, PCR
Özet
Bu çalışmada Kayseri'de satışa sunulan sucuklarda Salmonella spp.'nin varlığı ve elde edilen izolatlarda antimikrobiyel duyarlılığının araştırılması amaçlandı. Toplam 100 numune incelendi. Salmonella spp. izolasyonu için ISO 6579 sayılı standardında bildirilen kültür tekniği modifiye edilerek kullanıldı ve izolatlar PCR ile doğrulandı. İzolatların ampisilin, enrofloksasin, sefazolin, danofloksasin, gentamisin, nalidiksik asit, neomisin, oksitetrasiklin ve trimetoprim-sülfametaksazol antibiyotiklerine duyarlılıkları disk difuzyon metodu ile belirlendi. İncelenen 100 örneğin 4'ünden (%4) Salmonella spp. izole edildi. Bütün izolatlar sadece neomisine dirençli ve test edilen diğer antibiyotiklerden gentamisin haricindeki antibiyotiklere duyarlı olarak belirlendi. Sadece bir adet Salmonella spp. izolatı gentamisine orta derecede duyarlı bulundu. Elde edilen sonuçlar sucukların Salmonella spp. ile sporadik olarak kontamine olabileceğini ve halk sağlığı için risk oluşturabileceğini göstermektedir.
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    Salmonellosis is one of the most frequently reported food-borne diseases worldwide1. According to the WHO Surveillance Programme for Control of Food-borne Diseases in Europe, incidences of Salmonellosis in Europen have increased dramatically in the period from 1985 to 2000. Several European countries still demonstrate a significant increasing trend, proving that continuous efforts for prevention and control are still necessary2. Among more than 2500 Salmonella serotypes, Salmonella typhimurium and Salmonella enteritidis accounted for 46% and 24% outbreaks caused by Salmonella and bacteria, respectively (CDC 2009). In the United States, these two serotypes were also the two most frequently reported serotypes (33% of isolates) from human sources3. Likewise, Salmonella spp detected in Turkish sausages served for consumption and with poor hygienic quality, was reported in some studies4-7. The emergence of antimicrobial-resistant bacterial pathogens has become a major public health concern. A contributing factor in the development of resistance is the using of antimicrobials in human medicine, veterinary medicine, animal husbandry, as well as agricultural and aquaculture practices8. The utilizing of antimicrobials for various purposes including disease treatment and growth promotion in domestic livestock, can potentially cause widespread dissemination of antimicrobial-resistant bacteria9. In recent years, Salmonella spp. isolated from the US and other countries have demonstrated an increasing rate in multidrug resistance10,11.

    The objectives of this study were to determine the prevalence and the antimicrobial resistance profiles of Salmonella spp. in retailed sausages in Kayseri, Turkey and to investigate their potential risks for public health.

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    Samples: In this study, a total of 100 Turkish sausages samples that received heat treatment during production were analyzed between April and June 2013 in Kayseri in Turkey. The sausage samples were purchased from different retail markets periodically. The samples were immediately transported to the laboratory in a cool box and analysed within 1-2 h.

    Reference Strain: Salmonella typhimurium (ATCC 13311) reference strain was used as positive control for the isolation of Salmonella spp. The reference strain was provided by Department of Microbiology, Faculty of Medicine, University of Erciyes, Kayseri, Turkey.

    Isolation of Salmonella spp.: For the isolation and the characterization of Salmonella spp. from sausage samples, the method proposed by ISO 6579 with minor modifications was used12. In brief, 25 g sausage samples were added to 225 mL volumes of buffer peptone water (BPW CM1049, Oxoid, Basingstoke, UK). The samples were homogenised for 2 min and incubated for 24 h at 37 ºC. Then, dropping of 0.1 mL of preenrichment aliquots were inoculated into tubes containing 10 mL Rappaport Vassiliadis (RV) broth and incubated for 48 h at 42 °C. From each of the RV broths were inoculated onto Xylose Lysine Deoxycholate (XLD) agar plates and incubated for 18-24 h at 37 °C. Up to two suspect colonies with typical Salmonella morphology were tested biochemically. Serological tests were carried out using specific Salmonella O and H agglutinating antisera (Difco 2537-47).

    DNA Extraction and PCR Amplification: Total genomic DNA was extracted from strains by using a commercial AxyPrep™ Bacterial Genomic DNA extraction kit (Axygen, Bioscience, USA) as described by the manufacturer. The species specific primers were used for the detection of the 23S rRNA gene as described by Aabo et al.13. (ST11: 5'AGC CAA CCA TTG CTA AAT TGG CGC A3′ and ST15: 5′GGT AGA AAT TCC CAG CGG GTA CTG 3′). PCR was performed in a reaction mixture of 50 μL final volume containing 5 μL template DNA, 5 μL 10XPCR buffer (Vivantis), 1.5 U Taq polymerase (Vivantis), 500 μM dNTP Mix (Vivantis), 3 mM MgCl2 (Vivantis) and 25 pmol of each primer. PCR amplification was carried out with an initial denaturation of 95 °C for 1 min followed by 30 cycles, each consisting of 94 °C for 15 s, 57 °C for 15 s and 72 °C for 30 s. The final extension cycle was consisted of 8 min at 72 °C (Techne TC-512). All amplification products were determined by agarose gel (1.5%) electrophoresis at 100 V for 45 min (EC250-90, Thermo, USA). The gels were stained with ethidium bromide and visualized under a UV transilluminator (Vilber Lourmat, Marne La Vallee, France).

    Determination of the Antimicrobial Sensitivity: The antibacterial susceptibility testing of isolates to ampicillin (AMP, 10 μg), cefazolin (KZ, 30 μg), danofloxacin (DFX, 5μg), enrofloxacin (ENR, 5μg), gentamicin (CN, 10 μg), nalidixic acid (NA, 30 μg), neomycine(N, 10 μg), oxytetracycline (T, 30 μg) and trimethoprim-sulfamethoxazol (SXT, 23.7 μg-1.25 μg) was performed by disc diffusion method14. The antimicrobial discs were purchased from Oxoid (UK) except for enrofloxacin and danofloxacin, which were obtained from Bayer (Germany).

    Antimicrobial susceptibility test was carried out using the disc diffusion method described by Bauer et al.14. Briefly, the isolates were grown on Blood Agar (Merck, 1.10886) at 37 °C for 24 h. Then, a suspension of each organism adjusted to McFarland 0.5 by using physiological saline. The suspensions were spread onto Mueller Hinton Agar (Merck, 1.05437). Antibiotic discs were placed onto the agar and incubated at 37 °C for 24 h aerobically. After 24 h of incubation, the diameter of the inhibition zones were measured with callipers and the results were interpreted according to the CLSI standarts15.

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    In this study, 4 (4%) out of 100 sausage samples were found to be positive for Salmonella spp. through standard culture technique, on the other hand. All these four isolates obtained from positive samples were comfirmed by PCR.

    All isolates, were resistant only to neomycine (100%). These isolates were susceptible to ampicillin, enrofloxacin, cefazolin, danofloxacin, nalidixic acid, oxytetracycline and trimethoprim-sulfamethoxazol. One Salmonella isolate was found to be susceptible to gentamicin at intermediate level (25%). The diameter of the zone of inhibition for Salmonella spp. obtained from sausage samples ranged from 33±0.03 mm to 10±0.00 mm. The antibacterial susceptibility testing results of Salmonella spp. isolates against 9 different antibacterial agents are exhibited in Table 1.


    Büyütmek İçin Tıklayın
    Table 1: Antibacterial resistance profiles of Salmonella spp. isolated from sausage samples

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    In this study, the presence and the antimicrobial resistance patterns of Salmonella spp. isolated from sausage were evaluated. Comparing to our results (%4), similar results were presented by Ozbey et al.16 and Siriken et al.7. Ozbey at al.16 examined 100 camel sausage samples for the presence of Salmonella spp. by culture method and PCR and 7 (7%) of the samples were identified as positive for Salmonella spp. Similarly, Kok et al.17 and Oksuztepe et al.18 isolated Salmonella spp from 5 (5%) and 3 (3%) of 100 fermented sausage samples, respectively. However, our isolation rates were higher than that of Erdogrul et al.4 and Little et al.19. Erdogrul et al.4 tested 60 sausage and found Salmonella spp. contamination only in one (1.6%) sample while Little et al.19 tested 2283 sausage and detected in 2 (0.08%) samples. In addition, no Salmonella spp. in the analyzed sausage samples were reported by Sancak et al.20 and Kalantari et al21. In addition, Mattick et al.22, detected Salmonella spp. at a rate of 7.5% in frozen and 9,1% in chilled sausages (8,6% overall) out of 162 samples. In earlier studies the prevalence of Salmonella spp. in sausage samples were found to the range between 8-50%25-30. Risk factors for human Salmonella infection include the consumption of contaminated meats, improper handling of contaminated raw meats and cross-contamination to other ready-to-eat products19.

    Nowadays, in order to achieve a good structure and texture and to obtain microbiologically safe product, the central temperature of sausages is applied at between 57 °C and 69 °C for certain times. These temperatures and process time were reported to be effective for inhibiting of Salmonella spp.22,23. Salmonella spp. isolation rate of sausage samples examined in the study is low compared to the previous studies, due to the fact that these samples may be heat-treated24-27.

    All isolates were resistant only to neomycine and were susceptible to other antimicrobial agents tested, except for gentamicin. One Salmonella isolate was found to be susceptible to gentamicin at intermediate level. Similarly, Cetinkaya et al.28 reported that two Salmonella strains isolated from cig kofte samples were found to be susceptible to all of the tested antibiotics (AMP, CN, SXT, NA). In contrast, Ghozzi et al.29 stated that 16 (20.0%) Salmonella strains, isolated from raw meat, were found to be resistant to AMP. Furthermore, Thong and Modarressi30 found that 88 Salmonella isolates from 300 meat samples were resistant to NA (44.3%), AMP (17.0%), SXT (19.3%) and CN (2.2%) whereas Samaxa et al.27 stated that 65 (21.7%) Salmonella isolates of meat origin were resistant to CN.

    In the present study, 4 (4%) out of 100 sausage samples found to be contaminated with Salmonella spp. The Turkish Food Codex recommended zero tolerance for Salmonella spp. in 25 g sausage samples31. Therefore, the sausage samples harboring Salmonella spp. are not suitable for consumption. For this reason, the safe consumption of sausage is principally ensured by controlling at the source, product design and control stages, and the application of Good Hygienic Practices during production. In addition, necessary precautions should be taken such as hygiene and sanitation education.

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    1) Schlundt J. International Encyclopedia of Public Health, Food Safety. London: Academic press, 2008.

    2) Carrasco E, Morales-Rueda A, Garcia-Gimeno RM. Crosscontamination and recontamination by Salmonella in foods: A review. Food Res Int 2012; 45: 545-556.

    3) Vugia DJ, Samuel M, Farley MM, et al. Invasive Salmonella infections in the United States, FoodNet, 1996-1999: Incidence, serotype distribution, and outcome. Clin Infect Dis 2004; 38: 149-156.

    4) Erdogrul O, Ergun O. Studies on some physical, chemical, organoleptic and microbiological properties of sausages consumed in Kahramanmaras. J Fac Vet Med, Istanbul Univ 2005; 31: 55-65.

    5) Atasever M, Keleş, A, Güner A, Uçar G. Konya’da tüketime sunulan fermente sucukların bazı kalite nitelikleri. Vet Bil Derg 1998; 14: 27-32.

    6) Çön AH, Dogu M, Gökalp HY. Afyon’da büyük kapasiteli et işletmelerinde üretilen sucuk örneklerinin bazı mikrobiyolojik özelliklerinin periyodik olarak belirlenmesi. Turk J Vet Anim Sci 2002; 26: 11-16.

    7) Sırıken B, Pamuk Ş, Özakın C, Gedikoğlu S, Eyigör M. A Note on the Incidens of Samonella spp., Listeria spp. and Escherichia Coli O157:H7 Serotypes in Turkish Sausage (Soudjouk). Meat Sci 2006; 72: 177-181.

    8) Zhao S, Datta AR, Ayers S, et al. Antimicrobial-resistant Salmonella serovars isolated from imported foods. Int J Food Microbiol 2003; 84: 87-92.

    9) Gomez-Lus R: Evolution of bacterial resistance to antibiotics during the last three decades. Int Microbiol 1998; 1: 279-284.

    10) Chiu CH, Wu TL, Su LH, et al. The emergence in Taiwan of fluoroquinolone resistance in Salmonella enterica serotype Choleraesuis. N Engl J Med 2002; 346: 413-419.

    11) Chen S, Zhao S, White DG, et al. Characterization of multiple-antimicrobial-resistant Salmonella serovars isolated from retail meats. Appl Environ Microbiol 2004; 70: 1-7.

    12) ISO 6579. Microbiology of food and animal feeding stuffshorizontal method for the detection of Salmonella spp. International Organization for Standardization, 2002.

    13) Aabo S, Rasmussen OF, Rossen L, Sorensen PD, Olsen JE. Salmonella identification by the polymerase chain reaction. Mol Cell Probes 1993; 7: 171-178.

    14) Bauer AW, Kirby MM, Sherris JC, Truck M. Antibiotic susceptibility testing by a standardized single disk method. Am J Clin Pathol 1966; 45: 493-6.

    15) CLSI. Clinical and Laboratory Standards Institute Performance standarts for antimicrobial susceptibility testing; nineteenth informational supplement. CLSI document M100-S19. Wayne, PA: Clinical and Laboratory Standarts Institute, 2009.

    16) Ozbey G, Kok F, Muz A. Isolation of Salmonella spp. in camel sausages from retail markets in Aydin, Turkey, and polymerase chain reaction (PCR) Confirmation. Turk J Vet Anim Sci 2007; 31: 67-71.

    17) Kok F, Ozbey G, Muz A. Determinatıon of microbiologic quality of fermented sausages produced in Aydın Province. FU Sağ Bil Vet Derg 2007; 21: 249-252.

    18) Oksuztepe G, Guran HŞ, Incili GK, Gul SB. Microbiological and chemical quality of sausages marketed in Elazığ. FU Sağ Bil Vet Derg 2011; 25: 107-114.

    19) Little CL. The microbiological quality of ready to- eat dried and fermented meat and meat products. Int J Environ Health Res 1998; 8: 277-284.

    20) Sancak YC, Kayaardı S, Sagun E, Isleyici O, Sancak H. Chemical, Microbiological and Organoleptlcal Properties of the Turkish Fermented Sausages Consumed in Van. The YYU Vet Fak Derg 1995; 7: 67-73.

    21) Kalantari S, Sepehri G, Bahrampour A, Sepehri E. Determination of bacterial contamination isolated from Sandwiches in Kerman City and their resistance to commonly used antimicrobials. Arch Appl Sci Res 2012; 4: 1100-1105.

    22) Mattick KL, Bailey RA, Jorgensen F, Humprey TJ. The prevalence and number of Salmonella in sausages and their destruction by frying grilling or barbecuing. J Appl Microbiol 2002; 93: 541-547.

    23) Smith JL, Huhtanen CN, Kissinger JC, Palumbo SA. Destruction of Salmonella and Staphylococcus During Processing of a Nonfermented Snack Sausage. J Food Prot 1977; 40: 465-467.

    24) Abrahim A, Papa A, Soultos N, Ambrosiadis I, Antoniadis A. Antibiotic resistance of Salmonella spp. and Listeria spp. isolates from traditionally made fresh sausage in Greece. J Food Prot 1998; 61: 1378-1380.

    25) Worcman-Barninka D, Destro MT, Fernandes SA, Landgraf M. Evaluation of motility enrichment on modified semi-solid Rappaport-Vassiladis medium (MSRV) for the detection of Salmonella in foods. Int J Food Microbiol 2001; 64: 387-393.

    26) Nichols GL, de Louvois J. The microbiological quality of raw sausages sold in the UK. PHLS Microbiol Digest 1995; 12: 236-242.

    27) Samaxa RG, Matsheka MI, Mpoloka SW, Gashe BA. Prevalence and antimicrobial susceptibility of Salmonella isolated from a variety of raw meat sausages in Gaborone (Botswana) retail stores. J Food Prot 2012; 75: 637-42.

    28) Cetinkaya F, Mus TE, Cibik R, Levent B, Gulesen R. Assessment of microbiological quality of cig kofte (raw consumed spiced meatball): Prevalence and antimicrobial susceptibility of Salmonella. Food Control 2012; 26: 15-18.

    29) Ghozzi IA, Jaouani A, Hammami S, et al. Molecular analysis and antimicrobial resistance of Salmonella isolates recovered from raw meat marketed in the area of ‘‘Grand Tunis’’, Tunisia. Patho Biol 2012; 60: 49-54.

    30) Thong KL, Modaressi S. Antimicrobial resistant genes associated with Salmonella from retail meats and street foods. Food Res Int 2011; 44: 2641-46.

    31) Turkish Food Codex. “Microbiological Regulation Criteria”. http://mevzuat.basbakanlik.gov.tr/Metin.Aspx?Mevzuat Kod =7.5.15690&MevzuatIliski=0&sourceXmlSearch=g%C4%B 1/13.07.2013.

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