Ban Najem Abdulla¹ Ashraf Jamal Mahmoud Zangana¹and Ayser Salih Mohamed²

¹Biology Department, College of Education for Women, Tikrit University, Iraq

²Biology department, College of Education, Samara University, Iraq

Received: Sept 27, 2022/ Revised: Oct 20, 2022/ Accepted: Oct 24, 2022

(✉) Corresponding Author: dr.ashraf_bio@tu.edu.iq

Abstract

 Trichomoniasis in birds is one of the most common types of infection that affects birds worldwide, and it is caused by Trichomonas gallinae. This study was carried out to examine and determine the presence of T. gallinae in Columba livia, Streptopelia turtur, and Gallus gallus domesticus microscopic examination (direct smear and Giemsa stained). The study was conducted in Balad district in Salah al-Din Governorate, north of Baghdad, Iraq, from October 2021 to March 2022. The results showed the microscopic examination that the incidence of T. gallinae average was 19.17%, distributed between 14.16% for C. livia, while S. turtur constituted 14.0%, and the rate of G. gallus domesticus was 27.92%, but there were no significant differences at P> 0.05 among these bird species. The gender of birds showed that there were no differences between a male and a female of each type. In males of the two types of pigeons (C. livia, and S. turtur) and Gallus gallus domesticus, the rates of infection were (16.10, 15.05, and 5.75 %), while in female types of C. livia, S. turtur, and Gallus gallus domesticus, the rates of infection were (12.17, 12.28, and 31.11%), respectively. The incidence of T.gallinae is distributed for the most studied months, as it showed the highest infection rate for pigeons in January at 20% for C. livia, and 32% for S. turtur, and while January to February had 33% as the highest rate of infection in G.gallus domesticus, although there were no significant differences (P>0.05) among studied birds. The histological changes of infected organs for all species as well as for healthy birds, as the parasite was located in the upper part of the gastrointestinal tract, which was tongue, pharynx, vesicle, and gizzard. Granular lesions and infiltration of lymphoid and inflammatory cells were found, as well as degeneration in a number of gland-forming cells. The mucous in the affected areas as a result of parasite penetration into the tissue, congestion of blood vessels and appearance of granulation tissue in the upper part of healthy alimentary canal was compared with that of C. livia, S. turtur and Gallus gallus domesticus of Balad distract. In pharynx, the infiltration of large numbers of white blood cells, scattered and nodular form, and the sloughing of surface cells, and presence of strands of sloughed keratin appeared in pharynx cavity, and in vesicle tissue, and in gizzard, the histological sections showed the presence of parasite in muscle layer surrounded by a white transparent band, the infiltration of a large number of white blood cells appeared, and degeneration of epithelial cells at the bases of epithelial cells appeared in mucous folds.

Keywords Trichomonas gallinae, Columba livia, Streptopelia turtur, Gallus gallus domesticus, histopathological effects.

References

Abd-El-Motelib, T. Y., & Galal, B. E. G. (1994). Some studies on Trichomonas gallinae infection in pigeons. Assiut Veterinary Medical Journal30(59), 277-288.

Al-Barwari, S., & Saeed, I. (2012). The parasitic communities of the rock pigeon Columba livia from Iraq: component and importance. Türkiye Parazitolojii Dergisi36(4), 232.

Alexander, J., & Stimson, W. H. (1988). Sex hormones and the course of parasitic infection. Parasitology Today4(7), 189-193.

Alrefaei, A. F., Gerhold, R. W., Nader, J. L., Bell, D. J., & Tyler, K. M. (2019). Improved subtyping affords better discrimination of Trichomonas gallinae strains and suggests hybrid lineages. Infection, Genetics and Evolution73, 234-241.

Al-Sadi, H. I., & Hamodi, A. Z. (2011). Prevalence and pathology of trichomoniasis in free-living urban pigeons in the city of Mosul, Iraq. Veterinary World4(1), 12.

Ning, T. Z., Kin, W. W., Mustafa, S., Ahmed, A., Noordin, R., Cheong, T. G., … & Huat, L. B. (2012). Detection of Entamoeba histolytica in experimentally induced amoebic liver abscess: comparison of three staining methods. Asian Pacific Journal of Tropical Biomedicine2(1), 61-65.

Begum, N., Mamun, M. A. A., Rahman, S. A., & Bari, A. S. M. (2008). Epidemiology and pathology of Trichomonas gallinae in the common pigeon (Columba livia). Journal of the Bangladesh Agricultural University6(2), 301-306.

Brunthaler, R., Teufelbauer, N., Seaman, B., Nedorost, N., Bittermann, K., Matt, J., … & Weissenböck, H. (2022). Trichomonosis in Austrian Songbirds—Geographic Distribution, Pathological Lesions and Genetic Characterization over Nine Years. Animals12(10), 1306.

Cover, A. J., Harmon, W. M., & Thomas, M. W. (1994). A new method for the diagnosis of Trichomonas gallinae infection by culture. Journal of Wildlife Diseases30(3), 457-459.

Dakheel Kremsh Alasadiy, Y., Mukdad Mahmood, R., & Naji Alhasnawi, A. (2022). A Comparative Study of Parasitic Infections in Domestic and Wild Pigeons in Iraq. Archives of Razi Institute77(2), 709-715.‏

Fadhil, L. T., & Faraj, A. A. (2019). Survey of Trichomonas gallinae isolates in pigeons by microscopy and PCR. Online Journal of Veterinary Research23(4), 321-329.

Jaafar, E. H. (2014). Prevalence of some epidemiological study of Trichomonas gallinae in domestic pigeons in Baghdad. Iraqi J. Vet. Med38, 1-4.

Jawad, R. A., Al-Ali, F., Rashid, I. F., Al-Sabbagh, J. K., Sulbi, I. M., Noor, M. A., & Saber, W. A. (2020). Prevalence Comparative Study of Infection with Trichomonas spp in The Three Types of Birds at The Holy City of Kerbala. Indian Journal of Forensic Medicine & Toxicology14(3), 2655.

Sun, L., Zhang, L., Yu, J., Zhang, Y., Pang, X., Ma, C., … & Qiu, S. (2020). Clinical efficacy and safety of anti-PD-1/PD-L1 inhibitors for the treatment of advanced or metastatic cancer: a systematic review and meta-analysis. Scientific reports10(1), 1-13.

McKeon, T., Dunsmore, J., & Raidal, S. R. (1997). Trichomonas gallinae in budgerigars and columbid birds in Perth, Western Australia. Australian Veterinary Journal75(9), 652-655.

Purple, K. E., Humm, J. M., Kirby, R. B., Saidak, C. G., & Gerhold, R. (2015). Trichomonas gallinae persistence in four water treatments. Journal of Wildlife Diseases51(3), 739-742.

Saleem, M. H., Khan, M. S., Chaudry, A. S., & Samad, H. A. (2008). Prevalence of trichomoniasis in domestic and wild pigeons and its effects on hematological parameters. Pakistan Vet. J28(2), 89-91.

Shuber, Habib Wasil Kazem (2006). Parasitic worms in the gut of Nettarufin and Anascrecca birds. Master’s thesis, College of Education, University of Al-Qadisiyah.

Wahhab, M. A., Abdulrahman, N. R., & Ali, S. A. K. (2017). A study of oropharyngeal parasites infection in doves and domestic pigeons in some villages of Garmian-Iraqi Kurdistan region. Kurdistan Journal of Applied Research2(1), 15-20.

How to cite this article

Abdulla, B. N., Zangana, A. J. M. and Mohamed, A.S. (2022). Spread of Trichomonas gallinae in species of birds in balad district with the effect of infection on histological picture. Microbial Science Archives, Vol. 2(4), 34-41. https://doi.org/10.47587/MSA.2022.2401

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