Detection of antimicrobial residues in bovine meat marketed at Tizi-Ouzou area (Algeria), by a microbial screening assay


Yacine TITOUCHE
M Akkou
K Houali
Abstract

To determine the incidence of antimicrobial residues in bovine meat using a microbiological method, 209 samples of bovine meat (imported: 153; 56 locals: 56) were collected through various retail outlets in Tizi-Ouzou area, Algeria. The collected samples were tested according to the European Union four-plates method (EU4pt), using Bacillus subtilis and Micrococcus luteus ATCC 9341. Only 60 (34/56 local meat and 26/153 imported meat) samples were free from antibiotics residues. Higher prevalence of residues was observed in imported bovine meat (83.01%) than local produced bovine meat (39.29%). High frequencies of contamination for all classes of antibiotics were observed in imported meat rather than local produced meat. From this latter, contamination with β-lactams and/or tetracyclines and sulfonamides was observed in 23.21% and 19.64% respectively. Sulfonamides were the most detected residues in the imported meat with 81.05%. 59.73% of samples were contaminated at least with two families of antibiotics residues, but in proportion that significantly (p<0.05) differ between imported (67.71%) and local produced meat (13.64%). Besides, one antibiotic residue family was detected in most (86.36%) of the contaminated bovine meat produced in Algeria. Our results confirm the non-respect of the withdrawal period between the treatment and slaughter of bovines. For this, further procedures for rational use of antibiotics in livestock and food quality control are required.

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Literaturhinweise
Acaroz U, Ince S, Arslan-Acaroz D, Kucukkurt I, Eryavuz A (2020) Determination
of Kanamycin Residue in Anatolian Buffalo Milk by LCMS/
MS. Kafkas Universitesi Veteriner Fakultesi Dergisi : 26 (1).
Agmas B, Adugna M (2018) Antimicrobial residue occurrence and its
public health risk of beef meat in Debre Tabor and Bahir Dar, Northwest
Ethiopia. VetWorld 11 (7): 902-908.
Arslan-Acaröz D, Sözbilir N. B (2020) Investigation of enrofloxacin and
ciprofloxacin residues by LC-MS/MS in chicken liver marketed in
Afyonkarahisar. Ankara Üniv Vet Fak Derg, 67 (2) : 137-142.
Baazize-Ammi D, Dechicha AS, Tassist A, Gharbi S, Hezil N, Kebbal
S, Morsli W,Beldjoudi S,Saadaoui MR,Guetarni D (2019)Screening
and quantification of antibiotic residues in broiler chicken meat and
milk in the central region of Algeria. Rev Sci Tech Off Int Epiz 38
(3): 1-16.
BacanliM.,BaşaranN (2019) Importance of antibiotic residues in animal
food. Food and ChemToxi 125: 462-466.
Ben Y, Fu C, Hu M, Liu L, Wong MH, Zheng C (2019) Human health risk
assessment of antibiotic resistance associated with antibiotic residues
in the environment: A review. Env Res 169 : 483-493.
Ben-Mahdi M, Ouslimani S (2009) Mise en évidence de résidus d’antibiotiques
dans le lait de vache produit dans l’Algérois. E J Sci Res 36
(3) : 357-362.
Bungau, S, Tit DM, Behl T, Aleya L, Zaha DC (2021)Aspects of excessive
antibiotic consumption and environmental influences correlated with
the occurrence of resistance to antimicrobial agents. Current. Opinion.
Env Sci Health 19 : 100224.
Chafer-Pericas C, Maquieira A, Puchades R (2010) Fast screening methods
to detect antibiotic residues in food samples. Trends Ana Chem
: 9.
Chen J, Ying GG, Deng WJ (2019) Antibiotic residues in food: Extraction,
analysis, and human health concerns. J Agric Food Chem 67: 7569-
Donkor ES, Newman MJ, Tay SCK., Dayie NTKD., Bannerman E.,
Olu-Taiwo M (2011) Investigation into the risk of exposure to antibiotic
residues contaminating meat and egg in Ghana. J Food Cont869-
De Zutter, Koenen Dierick K, Van Hoof J (1985) Detection of antimicrobial
residues in slaughtered animals, II. Sensitivity of some detection
methods to different antibiotics. Vlaams Diergeneesk Tijdschr54:
-454.
Ezenduka EV (2019)Screening of antimicrobial residues in poultry meat
in Enugu metropolis, Enugu State, South East Nigeria. Vet Ital 55
(2): 143-148.
GhasmiF, Fathi B, Jamshidi A (2014) Detection of antibiotic residues in
poultry carcasses in Mashhad poultry abattoir. Int J Vet Sci Techno 6
(1): 30-36.
Hakem A, Titouche Y, Houali K, Yabrir B, Malki O, Chenouf N, Yahiaoui
S, Labiad M, Ghenim H, Kechih-Bounar S, Chirilă F, Lapusan A, Fiţ
NI (2013)Screening of Antibiotics Residues in Poultry Meat by Microbiological
Methods. Bulletin UASVM, Vet Med, 70 (1).
Hassan MM, El Zowalaty ME, Lundkvist A,Järhult JD, Nayem RK, Tanzin
MD AZ, Badsha R., Khan MD SA, Ashour HM (2021) Residual
antimicrobial agents in food originating from animals. Trends Food
Sci Tech 111: 141-150.
Ibrahim M, Ahmadf, Yaqub B, Ramzan A, Imran A, Afzaal M, Mirza SA,
Mazhar I, Younus M, Akram Q, Taseer MSA, Ahmad A, Ahmed S
(2020) Current trends of antimicrobials used in food animals and
aquaculture. In Antibiotics and Antimicrobial Resistance Genes in
the Environment 1 : 39-69.
JabarA, Ur-Rehman S (2013) Microbiological evaluation of antibiotic
residues in meat, milk and eggs. JMicrobiolBiotech. Food Sci 2 (5):
-2354.
Jammoul A, El Darra N (2019) Evaluation of antibiotic residues in chicken
meat samples in Lebanon. Antibiotics 8: 69.
Karraouan B, Bouchrif B, Ziyate N, Talmi A, Id Sidi Yahia K., Cohen N,
Fassouane A (2009)Evaluation of muli-plate microbial assay for the
screening of antibacterial residues in poultry muscle. E J Sci Res 35
(2): 311-317.
Lee MH, Lee HJ, Ryo PD (2000) Public health risks: chemical and antibiotic
residues». Review. Asian Austr J Anim Sci 14: 402-413.
Moga A., Vergara‐Barberán M, Lerma‐García MJ, Carrasco‐Correa E
J., Herrero‐Martínez JM, Simó‐Alfonso EF (2021) Determination
of antibiotics in meat samples using analytical methodologies: A review.
Comp Rev Food Sci Food Saf20 (2) : 1681-1716.
Njoga EO, Onunkwo JI, Okoli CE., Ugwuoke WI, Nwanta JA, Chah KF
(2018)Assessment of antimicrobial drug administration and antimicrobial
residues in food animals in Enugu State, Nigeria. Trop Health
Prod 50: 897-902.
Patel SJ, Wellington M, Shah RM., Ferreira MJ (2020) Antibiotic Stewardship
in Food-producing Animals: Challenges, Progress, and Opportunities.
Clin Ther 42 (9): 1649-1658.
Pikkemaat MG (2009)Microbial screening methods for detection of antibiotic
residues in slaughter animals. Anal Bioanal Chem 395: 893-
Pikkemaat MG, Rapallini M.L.B.A., Zuidema T, Elferink JWA, Oostra-
Van Dijk S., Driessen-Van Lankveld WDM (2011) Screening
methods for the detection of antibiotic residues in slaughter animals:
comparison of the European Union Four-Plate Test, the Nouws Antibiotic
Test and the Premi® Test (applied to muscle and kidney). Food
Addit Cont28 (1):26-34.
Kabir J, Umoh VJ, Audu Okoh E, Umoh JU, Kwaga JKP (2004) Veterinary
drug use in poultry farms and determination of antimicrobial
drug residues in commercial eggs and slaughtered chicken in Kaduna
State, Nigeria. Food Cont 15: 99-105.
Layada, S., Benouareth DE, Coucke W., Andjelkovic M (2016) Assessment
of antibiotic residues in commercial and farm milk collected in
the region of Guelma (Algeria). Int J Food. Cont 3: 19.
Manzoor F, Jabeen G, Aziz A, Khan T, Siddiqa S, Khan A (2019) Detection
of drug residues in beef samples collected from different slaughterhouses
of Lahore, Pakistan. Pak Vet J 39 (2): 293-296.
Ramatla T, Ngoma L, Adetunji M, Mwanza M (2017)Evaluation of antibiotic
residues in raw meat using different analytical methods. Antibiotics
: 34.
Reig M, Toldrà F (2008)Veterinary drug residues in meat: Concerns and
rapid methods for detection. Meat Sci78: 60-67.
Ruiz L, Alvarez-Ordóňez A (2017)The role of the food chain in the spread
of antimicrobial resistance (AMR). In Functionalized Nannomaterials
for the Management of Microbial Infection: A strategy to Address
Microbial Drug Resistance. Boukheroub, S., Szunerits, S. and Drider,
D. pp 23-47. Ed Elesevier.
TitoucheY, Hakem A, Houali K, Yabrir B, Malki O, Chergui A, Chenouf
N, Yahiaoui S, Labiad M, Ghenim H, Kechih-Bounar S, Chirilă F,
Nadăş G, FiţNI (2013)Detection of antibiotics residues in raw milk
produced in Freha area (TiziOuzou), Algeria. Bulletin UASVM, Veterinary
Medicine, 70 (1).
Van TTH, Yidana Z, Smooker PM, Coloe PJ (2020) Antibiotic use in food
animals worldwide, with a focus on Africa: Pluses and minuses. J
Glob Antimicrob Resist 20: 170-177.
Van Boeckel TP, Brower C, Gilbert M, Grenfella BT, Levina SA, Robinsoni
TP, Teillant A, Laxminarayan R (2015) Global trends in antimicrobial
use in food animals. Proc Natl Acad Sci5;112 (18) : 5649-
Vishnuraj MR, Kandeepan G, Rao KH, Chand S, Kumbhar V (2016) Occurrence,
public health hazards and detection methods of antibiotic
residues in foods of animal origin: A comprehension review. Cogent
Food Agri 2: 1235458.
Yamada Y, Sasaki J, Matsuzaki T, Shiiki K (1981): Influence of medium
and diluents pH and diffusion time on antibiotic bioassay». Tokai J
ExpClinMed 6: 23-33.
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