Cystic Echinococcosis in Slaughtered Cattle and Sheep from North Macedonia


 Cystic echinococcosis is a cosmopolitan zoonotic infection, commonly seen in areas where livestock and dogs are kept together. The objective of this study was to investigate the prevalence of echinococcosis in slaughtered cattle and sheep in North Macedonia and to evaluate the location and fertility/sterility rates of the cysts. A total of 302 slaughtered animals were examined with visual inspection, palpation, and incision of the internal organs in order to detect cysts. Microscopic examination was carried out to determine the presence of protoscoleces. The overall prevalence of echinococcosis in slaughtered cattle and sheep was 60%. The presence of cysts increased with age in cattle. In both cattle and sheep, the most common affected organs were the liver and lungs infected with more than one cyst. The findings showed higher fertility rate in sheep which confirmed their role as the most important intermediate host. This study shows that North Macedonia is an endemic region, and serious control strategies should be implemented, with special emphasis on safety disposal of infected organs and anthelmintic treatment of the dogs.


INTRODUCTION
Cystic echinococcosis (CE) is an important parasitic zoonotic disease caused by the larval form of the taeniid tapeworm Echinococcus granulosus (1). According to the World Health Organization (WHO), echinococcosis is a neglected disease with worldwide distribution that needs prevention and control (2).
Carnivores (mainly canids) are definitive hosts for the adult tapeworm, while herbivores (mainly ruminants) and omnivores act as intermediate hosts that get infected by ingestion of infective tapeworm eggs that develop to the larval formmetacestode located in the internal organs (3). The adult tapeworm lives in the small intestine of the definitive hosts, produces infective eggs that leave the host with feces, and contaminate the soil and the water, making the environment a potential risk for the human population (4). Canids get infected when they feed on offal from slaughtered domestic ruminants containing metacestodes. Humans, on the other hand, are an aberrant, dead-end host (5).
The fully developed metacestode is an unilocular spherical cyst, filled with liquid, consisting of an internal germinated layer and external elastic acellular laminated layer. Numerous protoscoleces are developed asexually in the inner lumen (6). The cyst that contains protoscoleces is called fertile, while the cyst that doesn't have protoscoleces is called sterile. Fertility of the cysts is very important when it comes to reviewing the epidemiology ii of echinococcosis and depends on host species (7). The target organ is the liver, followed by the lungs. Other organs that can be affected include the spleen, the kidneys, and the heart (8). Cysts grow slowly, no more than 1-5 cm every year, with no functional disorders of the organs and no clinical signs in the diseased animals (9). There is no reliable diagnostic method for live animals, therefore, the diagnosis of echinococcosis is based on post-mortem examination during slaughter (10).
Echinococcosis is endemic in many parts of the world, with very high prevalence in China, Central Asia, South America, North and East Africa, and Australia. In Europe, echinococcosis is present in the Mediterranean region and Southeastern countries (11).
Italy is a country with middle to high risk for echinococcosis, with a prevalence of 5-92.8% in sheep and 7.3-67.1% in cattle (12). In Romania, the prevalence of echinococcosis is 32.34% in cattle and 49.87% in sheep (13). In Poland, the prevalence of echinococcosis in cattle is 0.007%, while in sheep and goats is 18.7% (14). In Spain, echinococcosis is prevalent in 1.70% of cattle and 0.10% of sheep (15), while in France the prevalence of echinococcosis is quite low: 0.00004% in sheep and 0.00003% in cattle (16).
In North Macedonia echinococcosis is considered to be endemic. On the other hand, North Macedonia is the only country in the Balkan region with an unknown prevalence of echinococcosis and no published data (11). Hence, the aim of this study was to determine the slaughterhouse prevalence in cattle and sheep, the presence of cysts in different organs, and the fertility/sterility rate of the cysts. The data will provide reliable information about the domestic ruminants as potential infection sources for the dogs and the environmental contamination with echinococcus eggs.

Study animals and sampling methods/study design
This study was conducted between July and October 2020 in four slaughterhouses. A total of 302 animals (234 cattle from 36 farms and 68 sheep from two farms) were examined for the presence of hydatid cysts in the visceral organs. The animals originated from 23 localities within 11 municipalities of the territory of North Macedonia.

Ante-mortem examination
During the antemortem examination, the animals were divided into three age categories (<2 years, 2-5 years, >5 years) and each animal was given an identification number. The sex, origin, and type (cattle or sheep) of each animal were also recorded.

Post-mortem examination
Visual inspection, palpation, and incision of the internal organs of the slaughtered animals was performed to detect hydatid cysts. The spleen and the kidneys were examined with palpation, while the lungs and the liver were examined with incision for better visualization of the possible presence of cysts. Detailed record was kept about the cyst number per organ and its location. The cysts were carefully removed from the infected organ and collected in a sterile cup under aseptic conditions and then transferred in an icebox to the Laboratory for Parasitology and Parasitic Diseases at the Faculty of Veterinary Medicine -Skopje for examination. Underdeveloped cysts were not included in this study.

Laboratory examination
As suggested by Daryani et al. (23), the cysts were classified as fertile if they contained liquid content with protoscoleces and sterile if they contained liquid content without protoscoleces. To assess the fertility of each cyst, the fluid was removed with a syringe and needle and was then transferred to a glass beaker. The cysts were washed with saline and the content was added to the corresponding glass beaker. The cyst content was poured into a 50 ml conical centrifugation tube and centrifuged at 5000 rpm for five minutes. After centrifugation, the supernatant was discarded and the sediment was analysed for the presence of protoscoleces under a stereomicroscope at 40x magnification. The wall of each cyst was cut open with a sterile scalpel blade and scissors and the germinative layer was removed and preserved in a cup with 70 % ethanol.

Statistical analysis
The categorical data for each respective analysis were organized in contingency tables and were analysed with Pearson's Chi-square Test for Independence. Values were presented as percentage from the total specimen count in the corresponding groups. The significance level was set at p<0.05.

RESULTS
A significantly higher number of positive cattle specimens were detected in the age group >5 years compared to the <2 and 2-5 years groups (64 %, 37 %, and 36 %, respectively). The latter groups did not show significant difference in the number of positive specimens (Fig. 1A).
Despite that the 2-5 years age group in sheep had markedly higher value of positives, it was not significantly different compared to the <2 and >5 years age groups, which were also insignificantly different (59 %, 22 %, and 40 %, respectively) (Fig. 1B).
A significantly higher number of sheep lung and liver specimens were found with >1 cyst compared to specimens with 1 cyst (79 % vs. 21 % and 68 % vs 32 %, respectively) (Fig. 2C, D). iv A significantly higher number of fertile cysts were found in sheep specimens compared to cattle (91 % vs. 23 %, respectively) (Fig. 3A). There was no significant difference between the number of positive sheep and cattle animals included in this study (49 % vs. 49 %, respectively) (Fig. 3B).

DISCUSSION
This study indicates a high prevalence of echinococcosis in slaughtered cattle and sheep, which confirmed the endemic status of the disease in North Macedonia. According to the current research, the overall prevalence of echinococcosis was 60%, higher than the prevalence reported in neighboring regions (18,20,21,22) with no significant difference in the prevalence between cattle and sheep. The high prevalence in these animals can be related to the feeding system (especially grazing), which exposes them to contact with Echinococcus eggs as a result of the lack of dehelmintization of the dog population. In regard to the high prevalence rate, there are several other factors such as uncontrolled slaughtering with no supervision, inappropriate disposal of the infected organs, a large population of roaming dogs with access to livestock and carcasses, low awareness about the potential health risk, low education, and economic status of the population (16).
Diagnosis of echinococcosis in intermediate hosts is achieved by necropsy because the primary infection is always asymptomatic (24). The growth rate of the cysts is slow, from 1 to 5 cm per year, and the infected animals are slaughtered before the cysts cause clinical manifestation (25). According to the ОIE (26), the control of the carcasses during slaughtering for the presence of Echinococcus cysts is an essential method that still remains the most common way of collecting data and assessment of echinococcosis prevalence. Post-mortem inspection of the internal organs in the slaughterhouses showed that the lungs and the liver were highly infected and more susceptible to echinococcosis. These findings were also demonstrated by Joanny et al. (27), Khan et al. (28), El-Dakhly et al. (29) and Kere et al. (30). The presence of a high number of cysts in the lungs and the liver may be due to specific intensive blood supply from the portal veins and hepatic arteries of the liver and soft consistency of the lung tissue that allows easy development of the cyst (10).
There was a significant correlation between the age of the livestock and the prevalence of echinococcosis, with the infection rate significantly increasing with the age of the animals (Fig. 1), which was also shown in other studies (31,32). A study in Pakistan (28) showed that older animals can be 1.6 times more exposed to the risk of infection compared to younger animals. The main reason is lower immunological resistance and long exposure to the parasites that leads to increasing the size and the number of cysts per organ.
Cyst fluid showed high fertility in sheep, while in the cattle most of the cysts were sterile (Fig. 3). v Similar results have been reported in Greece and Algeria (33,34). Fertility of the cysts is an important indicator of which domestic ruminant type acts as a source for infection of the final hosts (35). The higher percent of fertile cysts in sheep, in contrast to cattle, indicates that sheep are the main reservoir and significant intermediate host in the lifecycle of Echinococcus spp. (10). On the other hand, the high percentage of sterile cysts in cattle suggests that cattle have no significant role in maintaining the life cycle of this parasite (36). Different epidemiological conditions result in different echinococcosis prevalence rates. North Macedonia belongs to the countries with high echinococcosis prevalence in livestock. High numbers of Echinococcus cysts in the adult cattle and sheep indicate a long exposition to Echinococcus eggs with an increased possibility of infection or high contamination of the environment where the domestic ruminants are kept. The maintenance of the parasite lifecycle is closely related with the contact of dogs (as definitive host) with the offal from the intermediate host, as well as the easy access to the locations where animals are slaughtered. Hence, the slaughtering should be controlled and the infected organs should be confiscated and destroyed (37).

CONCLUSION
The high prevalence of echinococcosis in North Macedonia highlights the important role of the sheep in the life cycle of the disease because of the high number of fertile cysts. From a disease control perspective as well as prevention of echinococcosis, it is necessary to establish continuous surveys and monitoring systems of the epidemiological situation, especially in the endemic regions. The results of this research will provide the baseline data for implementing control programs and preventive measures. The measures should include control of backyard slaughtering, anthelmintic treatment of dogs, raising public awareness of this zoonosis, and most importantly secure disposal of the infected organs.