Fouad, A. A., B. M. Ahmed, M. A. E. H. Shahein, and H. A. Hussein, "Full-Length Genome of an Africa-4 Lineage Wild-Type Lyssavirus rabies from a Stray Dog in Egypt, 2019", Advances in Animal and Veterinary Sciences, vol. 11, no. 8, pp. 1357 – 1367, 2023. AbstractWebsite
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Wrshana, T. A., Y. A. Dowidar, B. A. El-Fiky, A. M. El-Rify, W. A. El-Sayed, and B. M. Ahmed, "Infection of Bone Marrow-Derived Mesenchymal Stem Cells with Virulent Newcastle Disease Virus Maximizes Cytokine Production: A Step Toward vNDV Immunotherapy", Advances in Animal and Veterinary Sciences, vol. 10, issue 9, pp. 2013 - 2023, 2022. Abstract
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Ahmed, B. M., M. M. Bayoumi, M. A. Farrag, M. A. Elgamal, J. M. Daly, and H. M. Amer, Emergence of equine influenza virus H3Nx Florida clade 2 in Arabian racehorses in Egypt, , vol. 19, issue 1, pp. 185, 2022. AbstractWebsite

Equine influenza is an important cause of respiratory disease in equids. The causative virus; EIV, is highly variable and can evolve by accumulation of mutations, particularly in the haemagglutinin (HA) gene. Currently, H3N8 is the sole subtype circulating worldwide with Florida clade 1 (FC1) is most prevalent in the Americas and FC2 in Asia and Europe. In Egypt, EIV was detected in two occasions: subtype H7N7 in 1989 and subtype H3N8 (FC1) in 2008. No data is available on the circulation pattern of EIV during the last decade despite frequent observation of suspected cases.

Bassam, R. H., H. A. Hussein, M. M. Amer, B. M. Ahmed, and A. A. El-Sanousi, "Molecular Characterization of VAR2 among IBV Infected poultry in Lebanon", Journal of Virological Sciences, vol. 5, pp. 114-123, 2019. 1629470666114-_123-_118-1537289484_rvz.pdf
Meselhy, N. K., M. A. A. El-khair, B. M. Ahmed, S. A. El-Soally, A. M. Fares, M. A. Nayel, and H. A. Hussein, "Sequence analysis of Seven Equine Herpes Type 1 Viruses circulating in nonvaccinated Arabian and Foreign horses in Egypt", Journal of Virological Sciences, vol. 5, pp. 11-21, 2019. 162946956311-21.pdf
Mahdy, A., B. M. Ahmed, M. A. Elgamal, M. Shaalan, I. M. Farag, E. R. Mahfouz, H. R. Darwish, M. Z. Sayed-Ahmed, M. A. Shalaby, and A. A. El-Sanousi, "Detection of Equid Alphaherpesvirus 1 from Arabian Horses with different clinical presentations between 2016-2019 in Egypt.", Journal of equine veterinary science, vol. 114, pp. 103960, 2022. Abstract

Equid alphaherpesvirus 1 (EHV-1) is an important virus causing pathological disorders in horses. This highly contagious pathogen causes persistent outbreaks of upper respiratory tract infection, ocular affections, abortion, and neurological disorders with high mortality in Arabian horses in Egypt. The quick and accurate diagnosis is important to broaden our understanding about EHV-1 in the field, and to implicate stronger preventive, and control measures. Sixty-six Arabian horses from Cairo and Giza governorates were sampled from respiratory, abortigenic and neurological outbreaks over a period of 4 years. EHV-1 was diagnosed in these cases by immunohistochemistry using monoclonal antibody against EHV-1 glycoprotein B and molecular detection using gB, ORF33 specific real-time PCR. EHV-1 was detected in 25 cases, mostly from abortigenic outbreaks (14 abortions, 3 stillbirths, and two early neonatal deaths), in addition to 5 respiratory affections and single EHV-1 myeloencephalopathy. Molecular characterization revealed that the ORF33 sequences from this study were almost identical and closely related to the European EHV-1 strains. Furthermore, no difference in the amino acid sequences compared to previously published EHV-1 sequences from Egypt. The data in this study provides some insights about the prevalance of EHV-1 infection in Arabian horses, discusses EHV-1 diagnostic approaches, highlights the importance of accurate diagnosis and the importance of pregnant mare vaccination, and adds to the previous knowledge about EHV-1 in Egypt which may help in better controlling EHV-1 infections in the future.

Bayoumi, M., M. El-Saied, B. Ahmed, M. El-Mahdy, and H. Amer, "Gallid Alphaherpesvirus 2 in the Egyptian Turkeys: Molecular Characterization and Establishment of a Universal System for Phylogenetic Classification.", Intervirology, vol. 64, issue 3, pp. 156-164, 2021. Abstract

INTRODUCTION: Gallid alphaherpesvirus 2 (GaHV-2) is a highly contagious oncogenic virus that causes Marek's disease in chickens and occasionally in turkeys. Among 100 genes identified in GaHV-2 genome, the Meq gene appears to involve viral virulence, oncogenicity, and genetic diversity. Despite the use of Meq gene sequences in phylogenetic classification of GaHV-2 strains circulating in many countries worldwide, no integrated system exists yet.

METHODS: Turkeys from 2 commercial Egyptian farms were presented with signs of dullness, dehydration, and emaciation. Samples prepared from the internal organs were examined by histopathology and immunohistochemistry. Pools of the internal organs were analyzed by PCR for identification of GaHV-2, avian leucosis virus, and reticuloendotheliosis virus. The Meq gene of an Egyptian strain was sequenced and analyzed in comparison to 40 reference strains for generation of a universal system for phylogenetic classification of GaHV-2 strains.

RESULTS: Gross and histopathological examination revealed grayish-white soft masses in the internal organs characterized by diffuse infiltration of pleomorphic neoplastic cells. All lymphoma cells were identified as T-lymphocytes of CD3+ phenotype. Samples of both farms were only positive for GaHV-2 by PCR. Sequence analysis of the Meq gene has classified the current turkey strain as related to the Egyptian strains identified in chicken in 2012. A universal phylogenetic system for classification of GaHV-2 strains into 4 clusters was proposed. The vaccine strains were all grouped in cluster 2, and most of the classical American strains belonged to cluster 4. Cluster 1 was further divided into 3 subclusters (1.1-1.3).

CONCLUSION: GaHV-2 was identified in turkeys for the first time in Africa and the Middle East. Sequence analysis of the Meq gene of the Egyptian strain along with a wide array of the global strains has enabled the construction of a novel phylogenetic classification system.

Shawky, M., E. Taha, B. Ahmed, M. A. Mahmoud, M. abd elaziz, M. Faisal, and A. Yousif, "Initial Evidence That Gilthead Seabream ( L.) Is a Host for Lymphocystis Disease Virus Genotype I.", Animals : an open access journal from MDPI, vol. 11, issue 11, 2021. Abstract

Marine and brackish water aquacultures are rapidly expanding in the Mediterranean basin. In this context, Egypt recently received a shipment of a 1.5 million juvenile gilthead seabream ( L.) from European Mediterranean facility. Within a few weeks of their arrival, 95% of the imported fish developed nodules on their skin and fins that lasted for several months. This study was undertaken to describe the clinical disease course, to identify the causative agent, and to investigate its origin. Preliminary diagnosis based on gross lesions and postmortem examination suggested lymphocystis disease (LCD), caused by the lymphocystis disease virus (LCDV; genus , family ). Histopathological and ultrastructural features were typical of LCDV infections. PCR followed by sequencing and phylogenetic analysis of a 306-bp fragment of the major capsid protein (MCP) gene demonstrated the presence of LCDV genotype I, originally associated with LCD in Northern European countries, with 99.7% and 100% nucleotide and deduced amino acid identity values, respectively. LCDV genotype I has neither been reported in this species nor in the region. Regardless of the source of infection, findings of this study add to existing knowledge about the ecology of LCDV genotype I and its host range.

Rohaim, M. A., R. E. F. Naggar, M. A. Abdelsabour, B. A. Ahmed, M. M. Hamoud, K. A. Ahmed, O. K. Zahran, and M. Munir, "Insights into the Genetic Evolution of Duck Hepatitis A Virus in Egypt.", Animals : an open access journal from MDPI, vol. 11, issue 9, 2021. Abstract

Duck hepatitis virus (DHV) is one of the commercially important diseases of ducklings worldwide. It is an acute and highly infectious disease of ducklings caused by three different serotypes (1-3) of duck hepatitis A virus (DHAV), and serotype 1 is the most common in poultry. To date, little is known about the prevalence and genetic characterisation of DHAV-1 in Egypt. In the current study, isolation and complete genomic analyses of DHAVs circulating in commercial duck farms in different Egyptian governorates were conducted. A total of eighteen samples were collected from six Egyptian governorates of 3-11 days old ducklings (Pekin and Mullard) with a history of nervous signs and high mortality rates. Five out of eighteen (5/18) samples were screened positive for the DHAV-1 based on the VP1 gene. These samples were individually used for virus isolation in embryonated duck embryos (EDE), followed by complete genome sequencing. Phylogenomic analyses showed that DHAV serotype I; genotype I were diversified into four different groups (1-4). Most of the recent circulating Egyptian DHAV strains are clustered within group 4, while isolates characterised within this study were clustered within group 1. Recombination analyses revealed that the emergence of a new recombinant virus-DHAV-1 strain Egypt-10/2019-through recombination. Likewise, the selective pressure analyses showed the existence, inside or near areas of the viral attachment or related functions, of positive scores highlighting the importance of natural selection and viral evolution mechanism at different protein domains. The findings of this study provide updated information on the epidemiological and genetic features of DHAV-1 strains and underscore the importance of DHAV surveillance as well as re-evaluation for currently used vaccines.

Suliman, R. A., M. M. El-Safty, B. M. Ahmed, and H. A. Hussein, "Isolation and Molecular Characterization of IBDV Associated with Mortalities in Broiler Flocks in Egypt", Global veterinaria, vol. 17, issue 6, pp. 577-587, 2016. 13_1.pdf
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