Tavuklarda Salmonella Serovarları ve Antibiyotik Direnci
Yıl 2024,
Cilt: 17 Sayı: 1, 81 - 86, 30.06.2024
Nur Selcen Sevük Akkaya
,
Seyyal Ak
Öz
Hayvansal proteine yönelik talep sürekli arttığından kanatlı hayvan ürünleri (et ve yumurta), küresel gıda arzında kilit bir rol oynamaktadır. Kanatlı endüstrisinin bu talebe cevap oluşturmak amacıyla yoğun yetiştiricilik programları uygulaması ile ilişkilendirilen infeksiyöz hastalıklarda artışa sebep olmaktadır. Bu infeksiyöz hastalıklardan birisi de Salmonella türlerinin sebep olduğu salmonellozdur. Salmonelloz, kanatlı hayvan yetiştiriciliğinin en önemli infeksiyöz hastalıklarından biri olup aynı zamanda dünya çapında gıda kaynaklı bakteriyel zoonotik infeksiyonların önde gelen nedenlerinden biridir. Kümeslerde Salmonella serovarlarının neden olduğu infeksiyonların sağaltımında sıklıkla antibiyotikler kullanılmaktadır. Kanatlı hayvan yetiştiriciliğinde yapılan bilinçsiz ve yanlış uygulamalar Salmonella serovarlarında antimikrobiyal direnç gelişimine sebep olmaktadır. Özellikle çoklu ilaca dirençli Salmonella etkenleri, kanatlı hayvanlarda antimikrobiyal ilaç kullanımının bir sonucu olarak toplum sağlığı için de ciddi bir tehdit oluşturabilmektedir. Bu derlemenin amacı, güncel araştırmalar ile Salmonella serovarlarının yaygınlığı ve antibiyotik direnci hakkında bilgiler sunmaktır.
Teşekkür
Prof. Dr. Seyyal AK ve Prof. Dr. Beren BAŞARAN KAHRAMAN hocalarıma teşekkürü borç bilirim.
Kaynakça
- Tan SJ, Nordin S, Esah EM, Mahror N. (2022). Salmonella spp. in
Chicken: Prevalence, Antimicrobial Resistance, and Detection
Methods. Microbiol Re. 13(4):691-705.
- Türkoğlu S, Özlü M. (2020). Kanatlı Hayvan Sektöründe Mevcut
Durum ve Gelecek. Türkiye Ziraat Mühendisliği IX. Teknik Kongresi Bildiriler Kitabı-2, 153.
- Aksakal V, Karaalp M. (2021). Kanatlı Hayvan Yetiştiriciliği Üzerine Bilimsel Araştırmalar. Iksad Yayınevi. Ankara.
- Swelum AA, Elbestawy AR, El-Saadony MT, et al. (2021). Ways
to Minimize Bacterial Infections, with Special Reference to Escherichia coli, to Cope with the First-Week Mortality in Chicks:
An Updated Overview. Poult Sci. 100(5): 101039.
- Hossain MJ, Attia Y, Ballah FM, et al. (2021). Zoonotic Significance and Antimicrobial Resistance in Salmonella in Poultry in
Bangladesh for the Period of 2011–2021. Zoonoticdis. 1(1): 3-24.
- Xing JH, Zhao W, Li QY, et al. (2021). Bacillus subtilis BSH has a
Protective Effect on Salmonella Infection by Regulating the Intestinal Flora Structure in Chickens. Microb Pathog. 155:
104898.
- Wang X, Wang H, Li T, et al. (2020). Characterization of Salmonella spp. Isolated from Chickens in Central China. BMC Vet
Res. 16: 1-9.
- Fall-Niang NK, Sambe-Ba B, Seck A, et al. (2019). Antimicrobial
Resistance Profile of Salmonella Isolates in Chicken Carcasses in
Dakar, Senegal. Foodborne Pathog Dis. 16(2):130-136.
- Dieye Y, Hull DM, Wane AA, et al. (2022). Genomics of Human
and Chicken Salmonella Isolates in Senegal: Broilers as a Source
of Antimicrobial Resistance and Potentially Invasive Nontyphoidal Salmonellosis Infections. PLoS One, 17(3): e0266025.
- Mellou K, Gkova M, Panagiotidou E, Tzani M, Sideroglou T,
Mandilara G. (2021). Diversity and Resistance Profiles of Human
Non-Typhoidal Salmonella spp. in Greece, 2003–2020. Antibiotics. 10(8): 983.
- Kasımoglu Dogru A, Ayaz ND, Gencay YE. (2010). Serotype Identification and Antimicrobial Resistance Profiles of Salmonella
spp. Isolated from Chicken Carcasses. Trop Anim Health
Prod. 42, 893-897.
- VT Nair D, Venkitanarayanan K, Kollanoor Johny A. (2018). Antibiotic-Resistant Salmonella in the Food Supply and the Potential Role of Antibiotic Alternatives for Control. Foods. 7(10):
167.
- Wright JG, Tengelsen LA, Smith KE, et al. (2005). Multidrug-Resistant Salmonella Typhimurium in Four Animal Facilities. Emerg Infect Dis. 11(8): 1235.
- Lai J, Wu C, Wu C, et al. (2014). Serotype Distribution and Antibiotic Resistance of Salmonella in Food-Producing Animals iShandong Province of China, 2009 and 2012. Int J Food Microbiol. 180: 30-38.
- Khan MAS, Rahman SR. (2022). Use of Phages to Treat Antimicrobial-Resistant Salmonella Infections in Poultry. Vet Sci. 9(8):
438.
- Ryan MP, O’Dwyer J, Adley CC. (2017). Evaluation of the Complex Nomenclature of the Clinically and Veterinary Significant
Pathogen Salmonella. Biomed Res Int. 3782182: 6 pages.
- Zhang N. (2013). A Comparison of Salmonella enterica Serovars:
Are Prevalence, Virulence and Responses to Environmental
Conditions Serovar or Strain Dependent, Master’s Thesis. University of Tennessee.
- Erol İ. (2007). Gıda Hijyeni ve Mikrobiyolojisi. Pozitif Matbaacılık
Ltd. Şti. Ankara.
- Mahmoud B. (2012). Salmonella- A Dangerous Foodborne Pathogen. BoD–Books on Demand. Croatia.
- Atasever M. (2017). Kanatlı Etlerinde Salmonella Riski. Vet Sci
Pract. 12(1): 90-98.
- Hantash T. (2022). A Quantitative Approach for Evaluating Current and Alternative Border Control of Salmonella Typhimurium
and Enteritidis in İmported Frozen Poultry Meat in Respect to
Human Risk of Salmonellosis, PhD Thesis. National Food Institute.
- Gast RK, Porter Jr R.E. (2020). Salmonella Infections. in Diseases
of Poultry pp 717-753.
- Metzger N, Alvarez-Ordóñez A, Leong D, Hunt K, Jordan K.
(2015). Survival of Foodborne Pathogens during Frozen Storage
of Cheese Made from Artificially Inoculated Milk. Int J Dairy
Technol. 95(5): 759–767.
- Keerthirathne TP, Ross K, Fallowfield H, Whiley H. (2016). A Review of Temperature, Ph, and Other Factors that Influence the
Survival of Salmonella in Mayonnaise and Other Raw Egg Products. Pathogens. 5(4): 63.
- Grimont PA, Weill FX. (2007). Antigenic Formulae of the Salmonella Serovars. WHO Collaborating Centre for Reference and
Research on Salmonella, 9:1-166.
- Petano-Duque JM, Rueda-García V, Rondón-Barragán IS.
(2023). Virulence Genes Identification in Salmonella Enterica
Isolates from Humans, Crocodiles, and Poultry Farms from Two
Regions in Colombia. Veterinary World, 16(10): 2096.
- Centers for Disease Control and Prevention (CDC) (2013). The
National Center for Emerging and Zoonotic Infectious Diseases.
- Cilo BD, Karakeçili F, Güleşen R, Levent B, Özakın C, Gedikoğlu
S. (2013). Salmonella Serotiplerinin Konvansiyonel ve Molekü-
ler Yöntemler ile Belirlenmesi. Mikrobiyol Bul. 47: 693-701.
- Oludairo OO, Kwaga JK, Kabir J, et al. (2022). A review on Salmonella Characteristics, Taxonomy, Nomenclature with Special
Reference to Non-Typhoidal and Typhoidal Salmonellosis. Zagazig Vet J. 50(2): 161-176.
- Metiner K, Boral, ÖB, Çelik B, et al. (2016). Antimicrobial Resistance Profiles of the Two Porcine Salmonella Typhimurium Isolates. İstanbul Univ Vet Fak Derg. 42(2): 156-160.
- Newell DG, Koopmans M, Verhoef L, et al. (2010). Food-Borne
Diseases- the Challenges of 20 Years Ago Still Persist while New
Ones Continue to Emerge. Int J Food Microbiol. 139(Suppl 1):3-
15.
- Akan M. (2008). Kanatlılarda Salmonella İnfeksiyonları ve Kontrolünde Temel Prensipler. Mektup Ankara. 6:3-4.
- Ran X, Yang Z, Shao G, Wen X, Liu S, Ni H. (2018). Avian Salmonella Enteritidis Serovar Enteritidis with Clpp Deletion is Attenuated and Highly Immunogenic İn Chickens. Turk J Vet AnimSci. 42(4): 269-276.
- Ata Z. (2008). Ankara Bölgesi’ndeki Tavukçuluk İşletmelerinden
Salmonella spp. İzolasyonu. Doktora Tezi. Ankara Üniversitesi
Sağlık Bilimleri Enstitüsü.
- Eng SK, Pusparajah P, Mutalib NS, Ser HL, Chan KG, Lee LH.
(2015). Salmonella: A Review on Pathogenesis, Epidemiology
and Antibiotic Resistance. Front Life Sci. 8(3):284–293.
- Castro-Vargas RE, Herrera-Sánchez MP, Rodríguez-Hernández
R, Rondón-Barragán IS. (2020). Antibiotic Resistance in Salmonella spp. Isolated from Poultry: A Global Overview. Vet World. 13(10): 2070.
- Authority, E. F. S. (2019). The European Union One Health 2018
Zoonoses Report. EFSA Journal. 17(12).
- European Food Safety Authority, & European Centre for Disease Prevention and Control. (2022). The European Union One
Health 2021 Zoonoses Report. EFSA Journal. 20(12): e07666
- Ulusal Salmonella Kontrol Programı (USKP). (2018). Ulusal Salmonella Kontrol Programı Sonuç Raporu. Erişim:https://www.tarimorman.gov.tr/GKGM/Duyuru/323/UlusalSalmonella-Kontrol-Programi. Erişim Tarihi: 12.01.2024.
- Alessiani A, Goffredo E, Mancini M, et al. (2022). Evaluation of
Antimicrobial Resistance in Salmonella Strains Isolated from
Food, Animal and Human Samples between 2017 and 2021 in
Southern Italy. Microorganisms. 10(4): 812.
- Gutierrez A, De J, Schneider KR. (2020). Prevalence, Concentration, and Antimicrobial Resistance Profiles of Salmonella Isolated from Florida Poultry Litter. J. Food Prot. 83(12): 2179-2186.
- Yu X, Zhu H, Bo Y, et al. (2021). Prevalence and Antimicrobial
Resistance of Salmonella Enterica Subspecies Enterica Serovar
Enteritidis Isolated from Broiler Chickens in Shandong Province,
China, 2013–2018. Poult Sci. 100(2): 1016-1023.
- El-Mohsen A, El-Sherry S. (2022). Serological and Antibacterial
Characteristics of Salmonella Isolates From Chickens in Assiut,
Egypt. Benha Vet Med J. 41(2): 93-99.
- Sodagari HR, Habib I, Whiddon S, et al. (2020). Occurrence and
Characterization of Salmonella Isolated from Table Egg Layer
Farming Environments in Western Australia and İnsights into Biosecurity and Egg Handling Practices. Pathogens. 9(1): 56.
- Polat İ, Şen B, Onurdağ FK. (2023). Salmonella Enterica Serotypes Isolated for the First Time in Laying Hens, and Their Susceptibility to Antibiotics. Poult Sci. 103180
- Çokal Y, Günaydın E, Goncagül G, Önat K, Gökmen TG. (2020).
Salmonella Serovars and Antimicrobial Resistance Profiles in
Commercial Layer Flocks. Isr J Vet Med. 75(1): 23-30.
- Kahya Demirbilek S, Kesin Tug B, Temelli S, Carlı K, Eyigor A.
(2014). Detection of Salmonella from Layer Flocks and Typing
of the Isolates. Kafkas Univ Vet Fak Derg. 20(6): 939-944
- Şık Z, Altıntaş Ö, Atıcı EG, Elitok Y, Şen S. (2022). Distribution of
Salmonella Serovars of Animal Origin in Türkiye between 2015
and 2020. J Etlik Vet Microbiol. 33(2): 7-14.
- de Mesquita Souza Saraiva M, Lim K, do Monte DFM, et al.
(2022). Antimicrobial Resistance in the Globalized Food Chain:
A One Health Perspective Applied to the Poultry Industry. Braz
J Microbiol. 53(1): 465-486.
- Ince SS, & Akan M. (2023). Phenotypic and Genotypic Characterization of Antimicrobial Resistance in Commonly Isolated Salmonella Serovars from Chickens. Turk J Vet Anim Sci. 47(1):
19-25.
- World Health Organization. (2019). Critically Important Antimicrobials for Human Medicine. 6th Revision. Eri-
şim: https://www.who.int/publications-detail-redirect/9789241515528. Erişim Tarihi: 13.01.2024
- FDA- Food and Drug Administration (2018). NARMS Update: Integrated Report Summary. Erişim: https://www.fda.gov/animal-veterinary/national-antimicrobial-resistance-monitoringsystem/2018-narms-update-integrated-report-summary. Eri-şim Tarihi: 13.01.2024.
- Gorbach SL. (2001). Antimicrobial Use in Animal Feed—Time to
Stop. N Engl J Med. 345(16): 1202-1203.
- Castello A, Piraino C, Butera G, et al. (2023). Prevalence and Antimicrobial Resistance Profiles of Salmonella spp. in Poultry
Meat. Ital. J. Food Saf 12(2): 11135.
- Li Y, Kang X, Ed-Dra A, et al. (2022). Genome-based Assessment
of Antimicrobial Resistance and Virulence Potential of Isolates
of Non-Pullorum/Gallinarum Salmonella Serovars Recovered
from Dead Poultry in China. Microbiol Spectr. 10(4): e00965-
22.
- Sigirci BD, Celik B, Kahraman BB, Bagcigil AF, Ak, S. (2019). Tetracycline Resis"tance of Enterobacteriaceae Isolated from
Feces of Synanthropic Birds. J Exot Pet Med. 28: 13-18
- Sigirci BD, Celik B, Halac B, et al. (2020). Antimicrobial Resistance Profiles of Escherichia Coli Isolated from Companion
Birds. J King Saud Univ Sci. 32(1): 1069-1073.
Salmonella Serovars and Antibiotic Resistance in Chickens
Yıl 2024,
Cilt: 17 Sayı: 1, 81 - 86, 30.06.2024
Nur Selcen Sevük Akkaya
,
Seyyal Ak
Öz
Poultry products (meat and eggs) play a key role in the global food supply as the demand for animal protein is constantly increasing. The poultry industry's implementation of intensive breeding programs to respond to this demand causes an increase in infectious diseases. Salmonellosis, which caused by bacteria of the Salmonella species, is one of the most important infectious diseases of poultry farming and is also one of the leading causes of foodborne bacterial zoonotic infections worldwide. Antibiotics are frequently used in the treatment of infections caused by Salmonella serovars in poultry farms. Unconscious and incorrect practices of antibiotics in poultry farm cause the development of antimicrobial resistance in Salmonella serovars. Particularly multidrug resistant Salmonella agents can pose a serious threat to public health as a result of the use of antibiotics in poultry. This study aimed to provide information about recent studies related to the prevalence and antibiotic resistance of Salmonella serovars.
Kaynakça
- Tan SJ, Nordin S, Esah EM, Mahror N. (2022). Salmonella spp. in
Chicken: Prevalence, Antimicrobial Resistance, and Detection
Methods. Microbiol Re. 13(4):691-705.
- Türkoğlu S, Özlü M. (2020). Kanatlı Hayvan Sektöründe Mevcut
Durum ve Gelecek. Türkiye Ziraat Mühendisliği IX. Teknik Kongresi Bildiriler Kitabı-2, 153.
- Aksakal V, Karaalp M. (2021). Kanatlı Hayvan Yetiştiriciliği Üzerine Bilimsel Araştırmalar. Iksad Yayınevi. Ankara.
- Swelum AA, Elbestawy AR, El-Saadony MT, et al. (2021). Ways
to Minimize Bacterial Infections, with Special Reference to Escherichia coli, to Cope with the First-Week Mortality in Chicks:
An Updated Overview. Poult Sci. 100(5): 101039.
- Hossain MJ, Attia Y, Ballah FM, et al. (2021). Zoonotic Significance and Antimicrobial Resistance in Salmonella in Poultry in
Bangladesh for the Period of 2011–2021. Zoonoticdis. 1(1): 3-24.
- Xing JH, Zhao W, Li QY, et al. (2021). Bacillus subtilis BSH has a
Protective Effect on Salmonella Infection by Regulating the Intestinal Flora Structure in Chickens. Microb Pathog. 155:
104898.
- Wang X, Wang H, Li T, et al. (2020). Characterization of Salmonella spp. Isolated from Chickens in Central China. BMC Vet
Res. 16: 1-9.
- Fall-Niang NK, Sambe-Ba B, Seck A, et al. (2019). Antimicrobial
Resistance Profile of Salmonella Isolates in Chicken Carcasses in
Dakar, Senegal. Foodborne Pathog Dis. 16(2):130-136.
- Dieye Y, Hull DM, Wane AA, et al. (2022). Genomics of Human
and Chicken Salmonella Isolates in Senegal: Broilers as a Source
of Antimicrobial Resistance and Potentially Invasive Nontyphoidal Salmonellosis Infections. PLoS One, 17(3): e0266025.
- Mellou K, Gkova M, Panagiotidou E, Tzani M, Sideroglou T,
Mandilara G. (2021). Diversity and Resistance Profiles of Human
Non-Typhoidal Salmonella spp. in Greece, 2003–2020. Antibiotics. 10(8): 983.
- Kasımoglu Dogru A, Ayaz ND, Gencay YE. (2010). Serotype Identification and Antimicrobial Resistance Profiles of Salmonella
spp. Isolated from Chicken Carcasses. Trop Anim Health
Prod. 42, 893-897.
- VT Nair D, Venkitanarayanan K, Kollanoor Johny A. (2018). Antibiotic-Resistant Salmonella in the Food Supply and the Potential Role of Antibiotic Alternatives for Control. Foods. 7(10):
167.
- Wright JG, Tengelsen LA, Smith KE, et al. (2005). Multidrug-Resistant Salmonella Typhimurium in Four Animal Facilities. Emerg Infect Dis. 11(8): 1235.
- Lai J, Wu C, Wu C, et al. (2014). Serotype Distribution and Antibiotic Resistance of Salmonella in Food-Producing Animals iShandong Province of China, 2009 and 2012. Int J Food Microbiol. 180: 30-38.
- Khan MAS, Rahman SR. (2022). Use of Phages to Treat Antimicrobial-Resistant Salmonella Infections in Poultry. Vet Sci. 9(8):
438.
- Ryan MP, O’Dwyer J, Adley CC. (2017). Evaluation of the Complex Nomenclature of the Clinically and Veterinary Significant
Pathogen Salmonella. Biomed Res Int. 3782182: 6 pages.
- Zhang N. (2013). A Comparison of Salmonella enterica Serovars:
Are Prevalence, Virulence and Responses to Environmental
Conditions Serovar or Strain Dependent, Master’s Thesis. University of Tennessee.
- Erol İ. (2007). Gıda Hijyeni ve Mikrobiyolojisi. Pozitif Matbaacılık
Ltd. Şti. Ankara.
- Mahmoud B. (2012). Salmonella- A Dangerous Foodborne Pathogen. BoD–Books on Demand. Croatia.
- Atasever M. (2017). Kanatlı Etlerinde Salmonella Riski. Vet Sci
Pract. 12(1): 90-98.
- Hantash T. (2022). A Quantitative Approach for Evaluating Current and Alternative Border Control of Salmonella Typhimurium
and Enteritidis in İmported Frozen Poultry Meat in Respect to
Human Risk of Salmonellosis, PhD Thesis. National Food Institute.
- Gast RK, Porter Jr R.E. (2020). Salmonella Infections. in Diseases
of Poultry pp 717-753.
- Metzger N, Alvarez-Ordóñez A, Leong D, Hunt K, Jordan K.
(2015). Survival of Foodborne Pathogens during Frozen Storage
of Cheese Made from Artificially Inoculated Milk. Int J Dairy
Technol. 95(5): 759–767.
- Keerthirathne TP, Ross K, Fallowfield H, Whiley H. (2016). A Review of Temperature, Ph, and Other Factors that Influence the
Survival of Salmonella in Mayonnaise and Other Raw Egg Products. Pathogens. 5(4): 63.
- Grimont PA, Weill FX. (2007). Antigenic Formulae of the Salmonella Serovars. WHO Collaborating Centre for Reference and
Research on Salmonella, 9:1-166.
- Petano-Duque JM, Rueda-García V, Rondón-Barragán IS.
(2023). Virulence Genes Identification in Salmonella Enterica
Isolates from Humans, Crocodiles, and Poultry Farms from Two
Regions in Colombia. Veterinary World, 16(10): 2096.
- Centers for Disease Control and Prevention (CDC) (2013). The
National Center for Emerging and Zoonotic Infectious Diseases.
- Cilo BD, Karakeçili F, Güleşen R, Levent B, Özakın C, Gedikoğlu
S. (2013). Salmonella Serotiplerinin Konvansiyonel ve Molekü-
ler Yöntemler ile Belirlenmesi. Mikrobiyol Bul. 47: 693-701.
- Oludairo OO, Kwaga JK, Kabir J, et al. (2022). A review on Salmonella Characteristics, Taxonomy, Nomenclature with Special
Reference to Non-Typhoidal and Typhoidal Salmonellosis. Zagazig Vet J. 50(2): 161-176.
- Metiner K, Boral, ÖB, Çelik B, et al. (2016). Antimicrobial Resistance Profiles of the Two Porcine Salmonella Typhimurium Isolates. İstanbul Univ Vet Fak Derg. 42(2): 156-160.
- Newell DG, Koopmans M, Verhoef L, et al. (2010). Food-Borne
Diseases- the Challenges of 20 Years Ago Still Persist while New
Ones Continue to Emerge. Int J Food Microbiol. 139(Suppl 1):3-
15.
- Akan M. (2008). Kanatlılarda Salmonella İnfeksiyonları ve Kontrolünde Temel Prensipler. Mektup Ankara. 6:3-4.
- Ran X, Yang Z, Shao G, Wen X, Liu S, Ni H. (2018). Avian Salmonella Enteritidis Serovar Enteritidis with Clpp Deletion is Attenuated and Highly Immunogenic İn Chickens. Turk J Vet AnimSci. 42(4): 269-276.
- Ata Z. (2008). Ankara Bölgesi’ndeki Tavukçuluk İşletmelerinden
Salmonella spp. İzolasyonu. Doktora Tezi. Ankara Üniversitesi
Sağlık Bilimleri Enstitüsü.
- Eng SK, Pusparajah P, Mutalib NS, Ser HL, Chan KG, Lee LH.
(2015). Salmonella: A Review on Pathogenesis, Epidemiology
and Antibiotic Resistance. Front Life Sci. 8(3):284–293.
- Castro-Vargas RE, Herrera-Sánchez MP, Rodríguez-Hernández
R, Rondón-Barragán IS. (2020). Antibiotic Resistance in Salmonella spp. Isolated from Poultry: A Global Overview. Vet World. 13(10): 2070.
- Authority, E. F. S. (2019). The European Union One Health 2018
Zoonoses Report. EFSA Journal. 17(12).
- European Food Safety Authority, & European Centre for Disease Prevention and Control. (2022). The European Union One
Health 2021 Zoonoses Report. EFSA Journal. 20(12): e07666
- Ulusal Salmonella Kontrol Programı (USKP). (2018). Ulusal Salmonella Kontrol Programı Sonuç Raporu. Erişim:https://www.tarimorman.gov.tr/GKGM/Duyuru/323/UlusalSalmonella-Kontrol-Programi. Erişim Tarihi: 12.01.2024.
- Alessiani A, Goffredo E, Mancini M, et al. (2022). Evaluation of
Antimicrobial Resistance in Salmonella Strains Isolated from
Food, Animal and Human Samples between 2017 and 2021 in
Southern Italy. Microorganisms. 10(4): 812.
- Gutierrez A, De J, Schneider KR. (2020). Prevalence, Concentration, and Antimicrobial Resistance Profiles of Salmonella Isolated from Florida Poultry Litter. J. Food Prot. 83(12): 2179-2186.
- Yu X, Zhu H, Bo Y, et al. (2021). Prevalence and Antimicrobial
Resistance of Salmonella Enterica Subspecies Enterica Serovar
Enteritidis Isolated from Broiler Chickens in Shandong Province,
China, 2013–2018. Poult Sci. 100(2): 1016-1023.
- El-Mohsen A, El-Sherry S. (2022). Serological and Antibacterial
Characteristics of Salmonella Isolates From Chickens in Assiut,
Egypt. Benha Vet Med J. 41(2): 93-99.
- Sodagari HR, Habib I, Whiddon S, et al. (2020). Occurrence and
Characterization of Salmonella Isolated from Table Egg Layer
Farming Environments in Western Australia and İnsights into Biosecurity and Egg Handling Practices. Pathogens. 9(1): 56.
- Polat İ, Şen B, Onurdağ FK. (2023). Salmonella Enterica Serotypes Isolated for the First Time in Laying Hens, and Their Susceptibility to Antibiotics. Poult Sci. 103180
- Çokal Y, Günaydın E, Goncagül G, Önat K, Gökmen TG. (2020).
Salmonella Serovars and Antimicrobial Resistance Profiles in
Commercial Layer Flocks. Isr J Vet Med. 75(1): 23-30.
- Kahya Demirbilek S, Kesin Tug B, Temelli S, Carlı K, Eyigor A.
(2014). Detection of Salmonella from Layer Flocks and Typing
of the Isolates. Kafkas Univ Vet Fak Derg. 20(6): 939-944
- Şık Z, Altıntaş Ö, Atıcı EG, Elitok Y, Şen S. (2022). Distribution of
Salmonella Serovars of Animal Origin in Türkiye between 2015
and 2020. J Etlik Vet Microbiol. 33(2): 7-14.
- de Mesquita Souza Saraiva M, Lim K, do Monte DFM, et al.
(2022). Antimicrobial Resistance in the Globalized Food Chain:
A One Health Perspective Applied to the Poultry Industry. Braz
J Microbiol. 53(1): 465-486.
- Ince SS, & Akan M. (2023). Phenotypic and Genotypic Characterization of Antimicrobial Resistance in Commonly Isolated Salmonella Serovars from Chickens. Turk J Vet Anim Sci. 47(1):
19-25.
- World Health Organization. (2019). Critically Important Antimicrobials for Human Medicine. 6th Revision. Eri-
şim: https://www.who.int/publications-detail-redirect/9789241515528. Erişim Tarihi: 13.01.2024
- FDA- Food and Drug Administration (2018). NARMS Update: Integrated Report Summary. Erişim: https://www.fda.gov/animal-veterinary/national-antimicrobial-resistance-monitoringsystem/2018-narms-update-integrated-report-summary. Eri-şim Tarihi: 13.01.2024.
- Gorbach SL. (2001). Antimicrobial Use in Animal Feed—Time to
Stop. N Engl J Med. 345(16): 1202-1203.
- Castello A, Piraino C, Butera G, et al. (2023). Prevalence and Antimicrobial Resistance Profiles of Salmonella spp. in Poultry
Meat. Ital. J. Food Saf 12(2): 11135.
- Li Y, Kang X, Ed-Dra A, et al. (2022). Genome-based Assessment
of Antimicrobial Resistance and Virulence Potential of Isolates
of Non-Pullorum/Gallinarum Salmonella Serovars Recovered
from Dead Poultry in China. Microbiol Spectr. 10(4): e00965-
22.
- Sigirci BD, Celik B, Kahraman BB, Bagcigil AF, Ak, S. (2019). Tetracycline Resis"tance of Enterobacteriaceae Isolated from
Feces of Synanthropic Birds. J Exot Pet Med. 28: 13-18
- Sigirci BD, Celik B, Halac B, et al. (2020). Antimicrobial Resistance Profiles of Escherichia Coli Isolated from Companion
Birds. J King Saud Univ Sci. 32(1): 1069-1073.