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Correlation of avian influenza-H9N2 with high mortality in broiler flocks in the southwest of Tripoli, Libya


Ahmed Shaban Kassem Agha
Imad Benlashehr
Khalid Mohammed Naffati
Salah Abdulhadi Bshina
Ahmed Abdulmajed Khashkhosha

Abstract

Background: Low pathogenic H9N2 avian influenza (LPAI H9N2) caused by the influenza A virus which belongs to the  family Orthomyxoviridae. It caused mild respiratory symptoms and a drop in egg production in poultry. Outbreaks of AI- H9N2 have occurred in poultry since the 1990s in many countries in USA, Europe, and Asia. Recently, outbreaks of H9N2  in commercial chicken were recorded in Morocco, Tunisia, Libya, and Egypt. Furthermore, numerous studies demonstrated that co-infection with AI H9N2 and other pathogens results in severe respiratory illness with high mortality in broiler chickens. Outbreaks of respiratory disease with variations in mortality rate were recorded in broiler flocks growing in the southwest of Tripoli in Libya.


Aim: The present study was conducted to explain the variation of  mortality rate on broiler flocks growing in the southwest area of Tripoli by detection of AI H9N2 antibodies and antigens. 


Methods: A total of 453 sera samples, 60 tracheal swabs, and 60 cloacal swabs were collected from  unvaccinated broiler flocks against avian influenza. Specific avian influenza type A antibodies were detected by using the  Elisa test, and specific AI-H9N2 antibodies were detected by using the HI test, whereas specific AI-H9N2 antigens  were detected in tracheal and cloacal swabs by using One-Step RT-PCR (M gene) technique.


Results: Respiratory  diseases with high variations in mortality rate were recorded in broiler flocks growing in the southwest of Tripoli in  Libya; the broiler mortality rate in Twisha farms was higher than other farms (62.2% and 11%, respectively). Whereas  avian influenza type A antibodies were detected at a high level in Twisha and other farms (95.2%, and 76.7%,  respectively). The positive samples for AI type A were tested for AI H9N2 using the HI test. Interestingly the percentage  of AI-H9N2 antibodies was quite similar in high and low mortality regions (53.4% and 46.8%, respectively). Additionally,  AI-H9N2 antigens were detected only in tracheal swabs in Twisha farm 3, Al-Maamoura, and Ber Al-Tota districts.   


Conclusion: This study confirmed the endemic of AI- H9N2 in broiler flocks in the southwest of Tripoli-Libya. Also, it  clarified that AI-H9N2 was not responsible for the high mortality rate by itself in broiler flocks. Moreover, this study   supported the presence of other subtypes of avian influenza in the studied area.


Journal Identifiers


eISSN: 2218-6050
print ISSN: 2226-4485