Print ISSN: 2476-535X, Online ISSN: 2717-2910

Document Type : Original Article

Authors

1 Department of Clinical Science, Faculty of Veterinary Medicine, Razi University, Kermanshah, Iran

2 Department of Internal Medicine, Faculty of Veterinary Medicine, Urmia University, Urmia, Iran

Abstract

Donkey breeding in the intensive system has been expanding in recent years due to the nutritional benefits of donkey milk. One of the common problems of horses, including donkeys, in intensive systems, is Gasterophilosis, which is often associated with equine gastric ulcer syndrome (EGUS). L3 larvae of Gastrohilus intestinalis can cause gastric ulcers in donkeys by attaching to margo plicatus. There are also reports of human infection with Gasterophilus spp. The aim of this study was to investigate the presence of Gasterophilosis and related EGUS in intensive system donkeys. This evaluation was done on 12 donkeys that were bought from different places around Urmia and were kept in Urmia University Veterinary Hospital. Animals were kept in sanitary stables and received alfalfa-based rations. Gastrointestinal endoscopy from throat to pylorus was performed to check for parasitic infections and related ulcers. The animals appeared perfectly healthy during the clinical examination. No parasitic infections such as Gasterophilus adhesions were observed in the upper gastrointestinal tract up to the gastric pylorus. Gastroscopy did not confirm any ulcers above grade 0. After the first endoscopy, ivermectin was prescribed, and three months later, the endoscopy was repeated, and again, no Gasterophilus infection was observed. Breeding donkeys in an intensive system by itself cannot cause Gasterophilosis and EGUS, although dietary adjustment can be helpful in preventing the disease. 

Keywords

Main Subjects

Introduction

Since ancient times, donkeys (Equus asinus) have been used to carry goods and people, and now they are used for these purposes in some inaccessible or undeveloped areas. The similarity of donkey milk to breast milk and its low allergenic properties suggest it administrated to feed human infants and patients with cow's milk protein allergy (CMPA). Besides, the recent evidence demonstrated that this milk has anti-inflammatory, anti-tumor, antioxidant, antimicrobial, and anti-diabetic activities and manages the immune system and digestive flora (Derdak et al., 2020). The published data showed that of the 110 million equine population in developing countries, approximately 40 million are donkeys. Importantly, because of the special economic and geographical conditions in the rural areas of these countries, donkeys are commonly used as an essential means of transportation (Khamesipour et al., 2021).

Equine gastric ulcer syndrome (EGUS) is frequently determined by one or more ulcers in the glandular or/and non-glandular stomach of the equine. Ulcers can progress to the lower esophagus or upper duodenum (Andrews et al., 1999). A previous study indicated that 51% of the examined donkeys had EGUS, and all of them were infected with Gasterophilus spp., particularly around margo plicatus (Sgorbini et al., 2018). In donkeys, EGUS is frequently caused by underlying diseases like hyperlipidemia or renal disease. It is believed that donkeys that eat much food in one or two meals have a higher risk of developing EGUS (Sprayberry and Robinson, 2014). Moreover, the sick donkey foals and orphans have a high risk for EGUS developing. The affected foals present colic symptoms similar to horses, like bruxism and after feeding colic (Blikslager et al., 2017). EGUS diagnosis is usually based on history, clinical findings, endoscopic examination, and response to treatment (Reese and Andrews, 2009). In this regard, Gasterophilus spp. can also be a risk factor for EGUS (Morales Briceño et al., 2015).

Gasterophilus fly (Diptera: Oestridae) larvae are the common cause of gastrointestinal myiasis in equines (Zumpt, 1965). Six species of Gasterophilus, including G. nasalis, G. intestinalis, G. haemorrhoidalis, G. pecorum, G. nigricornis, and G. inermis, that are called equine stomach bots, can find in horses, mules, and donkeys (Constable et al., 2017). Adult flies lay their eggs on the animal's hair in summer and the larvae develop their life cycle from the mouth to the stomach. During this maturation, various stages of the larva attach to the digestive system such as the tongue, hard palate, cheeks, epiglottis, pharynx, esophagus, and various parts of the stomach, which are different for each species (Li et al., 2019). Gasterophiulus spp. can lead to equine gastric ulcer syndrome (EGUS), difficulty swallowing, anemia, volvulus, intestinal obstruction, rectal prolapse, diarrhea, and indigestion (Otranto et al., 2005). Of note, Gasterophilus species have also been reported in rural horses and donkeys in Iran (Rezazadeh and Gharehaghajlou, 2020; Tavassoli and Bakht, 2012).

The genus Gasterophilus includes eight species that infect horses, and human cases with creeping dermal and oral or ocular infections have been reported (Rezaei, 2022). In this regard, there are evidence of human infection with horse fly larvae in close contact. Migration of first-stage larvae is associated with skin and eye myiasis in humans. Larvae burrowing under the skin may leave a visible tortuous path with severe itching and burrowing larvae behind the lip or inner cheek causes discomfort (Sellon and Long, 2013).

Because of the growing importance of donkey breeding in intensive systems, and the incidence of EGUS in equines and the effect of parasitic infections in gastrointestinal ulcers, we conducted the current study.

Material and methods

Animals

The present study was performed on 12 donkeys kept for educational and research purposes in the Veterinary Hospital of Urmia University, Urmia, West Azerbayjan Province, Iran. The animals were bought from the surrounding areas of Urmia, which were between 3 to 7 years old and were both genders. The donkeys weighed between 120 to 170 kg and had body scores of three to four. All animals received alfalfa-based diets to gather with free access to water. During the current study, no working or sports activities or starvation were imposed on the donkeys.

Physical examination

The animals were examined for general health before any diagnostic procedure. Oral and particularly tongue examinations were performed for the probable lesions due to invasion of Gasterorphilus larvae.

Endoscopy

About 12 hours of fasting and 4 hours of water deprivation before gastric endoscopy were considered for each donkey. Sedation was performed using a combination of acepromazine (0.03 mg/kg, NEUROTRANQ®, Alfasan, Woerden, Holland) and xylazine (1 mg/kg, XYLAZINE®, Alfasan, Woerden, Holland) (Matthews and van Loon, 2019). Gastroscopy was performed on the squamous and glandular mucosa of the gastric to the pylorus by equine video endoscope (STORZ®, RP100, Tuttlingen, Germany). For a more accurate view, the food remaining on the gastric mucosa was washed with distilled water, and greater curvature, less curvature, dorsal fundus, and pylorus were evaluated. Horse gastric ulcer scoring provided by Andrew et al. was used to assess the presence and degree of EGUS. In this method, grades 0, 1, 2, and 3 represent complete health, single or multiple small ulcers, single or multiple large ulcers, and extensive or in-depth ulcers, respectively (Andrews et al., 1999). After the first endoscopy the donkeys received an oral dose of ivermectin (0.2 mg/kg, IVERGEN®, Laluk, Tehran, Iran) (Gokbulut et al., 2005). Three months after taking the antiparasitic drug, the endoscopy was repeated in the same way.

 

Results

The animals appeared completely healthy on clinical examination before endoscopy. Appetite, body temperature, GI sounds, and alertness were all in the normal range. Examination of the mouth and tongue showed no apparent signs of the larval burrow.

Examination of the pharyngeal and esophageal structures showed no signs of adhesions or lesions left from larval attachment. Gastroscopy of non-glandular and glandular gastric mucosa, margo plicatus, and pylorus showed no ulcers above 0 degrees. Only in one case was local hyperemia observed in the gastric mucosa's non-glandular part, which is considered in the 0-grade classification. Endoscopic examinations did not show any attached G. intestinalis or other Gasterorphilus larvae to the gastric mucosa. Complete intact gastric mucosa indicates that there has been no recent parasitic adhesion to the mucosa (Figure 1). There was no sign of third-stage Gasterorphilus larvae in fecal monitoring. In the next endoscopy, which was performed three months after consuming ivermectin, no Gasterophilus infection or EGUS was seen.

Discussion

There were no signs of EGUS or gasterophilic infections in the donkeys we studied. Previous studies have confirmed that donkeys are infected with Gasterophilus species, and may have EGUS. A study of a large population of British donkeys found that 42% of them had gastric ulcers and 0.4% had Gasterophilus species infection (Morrow et al., 2011). A study in Nigeria found that 52.2% of donkeys were infected with Gasterophilus species, which 30.4% were related to G. intestinalis and 21.7% to G. nasalis. (Onyishi et al., 2022). Parasitic infections, such as Gasterophilus species have been reported in 3 of 10 donkeys who underwent gastroscopy (Morales Briceño et al., 2015). Of the 39 donkeys studied in Italy, 17 belonged to educational and research departments, and 22 belonged to two private farms. These donkeys were kept in sand paddocks, fed meadow hay, and not receive any vaccine or antiparasite. Twenty of these donkeys had EGUS, and all 39 had Gasterophilus species. Regardless of the presence or absence of EGUS, endoscopic examinations of all donkeys infected with G. intestinalis showed larvae attached close to Margo plicatus and no parasites were found in the proximal duodenum. In this study, although the donkeys were kept in the veterinary school, they had parasitic infections that could be due to the lack of use of antiparasitic drugs (Sgorbini et al., 2018). Macrocytic lactones (such as ivermectin) are the recommended drug to prevent Equine Gasterorphilus infections (Constable et al., 2017). Oral ivermectin has also been used in donkeys at a dose of 0.2 mg/kg (Binev et al., 2005; Gokbulut et al., 2005). Recently, a study was performed on combining nano chitosan with ivermectin, which creates synergy by reducing side effects (AbdElKader et al., 2021). In the present study, a single oral dose of ivermectin (0.2 mg/kg) was used, and the results were very satisfactory.

Keeping donkeys outdoors and feeding them pasture forage can also increase the risk of Gasterophillosis. Previous researchers have also attributed changes in the prevalence of Gasterophilus spp. in equines to climate changes (Attia et al., 2018). Most of the Gasterophilus species reported cases were from areas with a Mediterranean climate (Attia et al., 2018). In previous studies, donkeys had the highest parasitic infection among equine, and the equine in the northwestern region had the most helminth infestation (Khamesipour et al., 2021). However, the present study was performed on donkeys kept in northwestern Iran, and none of the animals had Gasterophilus species on endoscopic examination.

Although researchers attribute most of the equine gastrointestinal parasites to pasture, they acknowledge that some species, such as G. intestinalis, have little to do with feed due to their life cycle (Khamesipour et al., 2021). The necropsies of nine dead horses in a herd revealed many L3 G. pecorum larvae attached to the esophagus and gastric mucosa. All the horses in this herd were fed only from the pasture (Moshaverinia et al., 2016). G. pecorum is the only species of Gasterophilus that lays its eggs on pasture plants (Constable et al., 2017). Therefore, the relationship between pasture and Gasterophilus species infection is only in G. pecorum. The non-use of pasture by the animals participating in this study can be useful in preventing Gasterophilus species infections.

The change in keeping donkeys in an intensive system has caused the feeding shift from pasture to grain food. The type of diet consumed is one of the critical risk factors for the development of EGUS (Reese and Andrews, 2009). Cereal grains increase the risk of EGUS in donkeys. Gastric ulcers can cause colic in donkeys (Sprayberry and Robinson, 2014). Our results suggest that receiving alfalfa-based, grain-free diets may help prevent EGUS in donkeys.

Conclusion

The results of our investigations on donkeys around Urmia showed that the occurrence of Gasterophilosis infections in these animals and related zoonotic concerns had been controlled. Farming in clean stables, the use of alfalfa-based diets, regular feeding times, and antiparasitic drugs are some of the success factors in maintaining the health of donkeys in intensive systems against EGUS and Gasterophilus species infestations.  However, more studies are needed on the risk factors for EGUS and Gasterophilosis in donkeys.

Acknowledgements

The authors proudly thank Dr. Mohammadi for his help with sedation techniques. We also thank Reza Valipour for the technical assistance in conducting the experiment.

Conflict of interest statement

The authors declare that there is no conflict of interest.

Ethical approval

All applicable international, national, and institutional guidelines for the care and use of animals including the protocol approved by the Animal Research Ethics Committee of the University of Urmia were followed.

 

AbdElKader N.A., Sheta E., AbuBakr H.O., El-Shamy O.A., Oryan A. & Attia M.M. Effects of chitosan nanoparticles, ivermectin and their combination in the treatment of Gasterophilus intestinalis (Diptera: Gasterophilidae) larvae in donkeys (Equus asinus). International Journal of Tropical Insect Science, 2021, 41(1), 43-54.
Andrews F., Bernard W., Byars D., Cohen N., Divers T., MacAllister C., McGladdery A., Merritt A., Murray M. & Orsini J. Recommendations for the diagnosis and treatment of equine gastric ulcer syndrome (EGUS). Equine Vet Educ, 1999, 11(5), 262-72.
Attia M.M., Khalifa M.M. & Mahdy O.A. The prevalence of Gasterophilus intestinalis (Diptera: Oestridae) in donkeys (Equus asinus) in Egypt with special reference to larvicidal effects of neem seed oil extract (Azadirachta indica) on third stage larvae. Open veterinary journal, 2018, 8(4), 423-31.
Binev R., Kirkova Z., Nikolov J., Russenov A., Stojanchev K., Lazarov L. & Hristov T. Efficacy of parenteral administration of ivermectin in the control of strongylidosis in donkeys. Journal of the South African Veterinary Association, 2005, 76(4), 214-6.
Blikslager A.T., White N.A., Moore J.N. & Mair T.S. The equine acute abdomen. 2017. John Wiley & Sons.
Constable P., Hinchcliff K., Done S. & Gruenberg W. A textbook of the diseases of cattle, horses, sheep, pigs, and goats. 2017, Saunders Elsevier, New York. 11th edi. P, 2217-9.
Derdak R., Sakoui S., Pop O.L., Muresan C.I., Vodnar D.C., Addoum B., Vulturar R., Chis A., Suharoschi R. & Soukri A. Insights on health and food applications of Equus asinus (Donkey) milk bioactive proteins and peptides—an Overview. Foods, 2020, 9(9), 1302.
Gokbulut C., Boyacioglu M. & Karademir U. Plasma pharmacokinetics and faecal excretion of ivermectin (Eqvalan® paste) and doramectin (Dectomax®, 1%) following oral administration in donkeys. Research in veterinary science, 2005, 79(3), 233-8.
Khamesipour F., Taktaz‐Hafshejani T., Tebit K.E., Razavi S.M. & Hosseini S.R. Prevalence of endo‐and ecto‐parasites of equines in Iran: A systematic review. Veterinary Medicine and Science, 2021, 7(1), 25-34.
Li X.-Y., Pape T. & Zhang D. Taxonomic review of Gasterophilus (Oestridae, Gasterophilinae) of the world, with updated nomenclature, keys, biological notes, and distributions. ZooKeys, 2019, 119–56.
Matthews N. & van Loon J.P. Anesthesia, sedation, and pain management of donkeys and mules. Veterinary Clinics: Equine Practice, 2019, 35(3), 515-27.
Morales Briceño A., Lamprea Garrido A. & Méndez Sánchez A. Gastric ulcers syndrome in donkeys. Revista de Medicina Veterinaria, 2015,(30), 31-5.
Morrow L., Smith K., Piercy R., Du Toit N., Burden F., Olmos G., Gregory N. & Verheyen K. Retrospective analysis of post-mortem findings in 1,444 aged donkeys. Journal of comparative pathology, 2011, 144(2-3), 145-56.
Moshaverinia A., Baratpour A., Abedi V. & Mohammadi-Yekta M. Gasterophilosis in Turkmen horses caused by Gasterophilus pecorum (Diptera, Oestridae). Sci Parasitol, 2016, 1749-52.
Onyishi G.C., Atama C.I., Chioma F.E., Aguzie I.O., Ngwu G.I. & Nwani C.D. Gut Parasites of Donkeys and Horses in a Semi-Urban Metropolis, Nigeria. Pakistan Journal of Zoology, 2022, 54(2), 989.
Otranto D., Milillo P., Capelli G. & Colwell D.D. Species composition of Gasterophilus spp.(Diptera, Oestridae) causing equine gastric myiasis in southern Italy: parasite biodiversity and risks for extinction. Veterinary Parasitology, 2005, 133(1), 111-8.
Reese R.E. & Andrews F.M. Nutrition and dietary management of equine gastric ulcer syndrome. Veterinary Clinics of North America: Equine Practice, 2009, 25(1), 79-92.
Rezazadeh F. & Gharehaghajlou Y. Endoscopic Finding of Gastric Ulcer in Rural Horse and Relation with Gasterophilus spp. Iranian Journal of Veterinary Medicine, 2020, 14(1), 45-52.
Rezaei, N. Encyclopedia of Infection and Immunity, 2022.
Sellon D.C. & Long M.T. Equine infectious diseases E-book. 2013. Elsevier Health Sciences.
Sgorbini M., Bonelli F., Papini R., Busechian S., Briganti A., Laus F., Faillace V., Zappulla F., Rizk A. & Rueca F. Equine gastric ulcer syndrome in adult donkeys: investigation on prevalence, anatomical distribution, and severity. Equine Veterinary Education, 2018, 30(4), 206-10.
Sprayberry K.A. & Robinson N.E. Robinson's current therapy in equine medicine. 2014. Elsevier Health Sciences.
Tavassoli M. & Bakht M. Gastrophilus spp. myiasis in Iranian equine. Sci Parasitol, 2012, 13(2), 83-6.
Zumpt F. Myiasis in man and animals in the old world: a textbook for physicians, veterinarians and zoologists. Myiasis in man and animals in the Old World: a textbook for physicians, veterinarians and zoologists., 1965.