Occurrence of Aelurostrongylus abstrusus and Troglostrongylus brevior in domestic cats in Greece
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Despite the evidence that Mediterranean Europe offers suitable conditions for the biology of felid respiratory metastrongyloids, no updated data on the presence of felid lungworms are available for Greece. Although the cat lungworm Aelurostrongylus abstrusus is considered as enzootic in domestic cats (Felis silvestris catus) living in some areas of continental Greece, conversely, Troglostrongylus brevior, has only been reported in the island of Crete. The present study aimed to evaluate the occurrence of Aelurostrongylus abstrusus and Troglostrongylus brevior in domestic cats from four different Greek locations including islands where European wildcats (Felis silvestris silvestris), believed to be the natural reservoir of T. brevior, are considered absent.
Faeces were collected from 125 stray cats in the city of Athens, and in Crete, Mykonos and Skopelos Islands, and examined by copromicroscopic techniques for the presence of lungworm larvae. When present, larvae were morphologically and molecularly identified.
The occurrence of A. abstrusus and T. brevior was confirmed in 10 (8 %) and 7 (5.6 %) of the samples, respectively. In particular, T. brevior was detected in domestic cats in the city of Athens, and in Mykonos and Skopelos Islands, where wildcats are not present.
This information illustrates that T. brevior may infect domestic cats regardless of the presence of the natural host. Considering the relevant clinical impact of this nematode especially in young animals, it is advisable to include troglostrongylosis in the differential diagnosis of cat respiratory diseases also where this parasite is unexpected.
KeywordsAelurostrongylus abstrusus Troglostrongylus brevior Lungworms Greece Greek islands Domestic cats
The cat lungworm Aelurostrongylus abstrusus, i.e. the most important respiratory parasite of domestic cats (Felis silvestris catus) worldwide, has been traditionally considered to be the only metastrongyloid affecting F. s. catus [1, 2]. Nonetheless, other respiratory nematodes have recently been recorded from F. s. catus either after a long time since the first description, or for the first time. Some of them, e.g. Troglostrongylus subcrenatus or Oslerus rostratus, still remain of minor and limited relevance under an epizootiological standpoint and are likely to be confined in their wild hosts [1, 2, 3, 4]. Conversely, Troglostrongylus brevior has gained high attention in the past few years, for its clinical relevance, especially in young animals and for an apparent expansion in populations of domestic cats [1, 4, 5].
Aelurostrongylus abstrusus affects domestic cats worldwide, with high prevalence in certain areas . In Greece, the parasite has been found in 1.6 % of the cats in the North of the country , and since then it has been sporadically detected in routine parasitological examination of cats (Diakou, unpublished data).
Troglostrongylus brevior was first described in the last century from two species of wild felids in Palestine . It was then found in one European wildcat (Felis silvestris silvestris) from central Italy and in an animal that the author did not clarify whether it was a feral cat or a wildcat . No other records of T. brevior were published in the peer-reviewed literature until 2010, when this lungworm was recorded for the first time in two domestic cats living in Ibiza Island (Spain) . The report from Ibiza brought troglostrongylosis in domestic cats to the fore and since then, this infection has been increasingly recorded in other European islands, i.e. Sicily, Sardinia and Crete [5, 10, 11], and in areas of continental Italy [3, 4, 12, 13, 14, 15, 16].
Despite the evidence that Mediterranean Europe offers suitable conditions for the biology of felid respiratory metastrongyloids, no updated information is available for the occurrence of A. abstrusus in Greece, that has been thus far previously reported only in the northern territories . Additionally, only one record exists for T. brevior, i.e. in one kitten from Crete Island .
The present article aims to update current knowledge on cat lungworms in Greece, describing the occurrence of A. abstrusus and T. brevior in domestic cats from continental and insular regions. Epizootiological and clinical implications of the findings are discussed in relation to different environmental habitats in Greece, both in areas of presence or absence of wildcats.
Study design and faeces collection
In June and July 2015 individual faecal samples of 125 stray cats were collected in four geographic locations in continental and insular Greece, i.e. the city of Athens (23 cats), and the islands of Crete (34 cats), Mykonos (43 cats) and Skopelos (25 cats). These locations were selected based on a study design (see Acknowledgments) including both continental and insular touristic areas of Greece, with varying environments, i.e. dry (Crete, Mykonos), forested (Skopelos) and highly urbanised (Athens) areas, and on an axel extending from the south to the north of the country.
Individual faeces were collected from each single cat after a rectal paediatric glycerine enema. All animals were examined with the consent of the local Municipality Authorities.
Parasite detection and identification
The faecal samples were examined by classical copromicroscopic examination, i.e. ZnSO4 flotation and Baermann method [19, 20]. The larvae found at the faecal examinations were morphologically studied, measured and identified according to existing morphological descriptions and keys [1, 21, 22]. In addition, DNA was extracted from the purified larvae and molecular identification was conducted using a newly developed molecular assay for the simultaneous detection of A. abstrusus and T. brevior specific DNA . In brief, a multiplex semi-nested PCR using a universal set of primers (i.e. NC1-NC2) in the first step and a combination of forward primers specific for cat respiratory nematodes along with NC2 primer was used .
Prevalence (% ± 95 % confidence interval, CI) of Aelurostrongylus abstrusus (Aab) and Troglostrongylus brevior (Tb) in cats examined from four different areas of Greece
No. of cats
Aab (% ± CI)
Tb (% ± CI)
Total (% ± CI)
4 (17.4 ± 7.9)
1 (4.3 ± 4.2)
5 (21.7 ± 17)
1 (2.9 ± 2.8)
1 (2.9 % ± 5.6)
3 (7 ± 3.8)
5 (11.6 ± 4.8)
7a (16.3 % ± 11)
2 (8 ± 5.4)
1 (4 ± 3.9)
2a (8 % ± 10)
10 (8 ± 2.4)
7 (5.6 ± 2)
15a (12 % ± 2.9)
The present data demonstrate that cats living in various Greek islands and in the continental territory of Athens may harbour A. abstrusus and T. brevior, in single or mixed infections, and with high infection rates in some areas (e.g. Athens, Mykonos). Most importantly, this report provides evidence that domestic cats may harbour T. brevior in regions where the natural host [24, 25], i.e. the wildcat, is absent. The high level of infection with lungworms in the examined stray cats shows the important role that free-roaming animals may have in the dissemination of these parasites. In fact, the level of veterinary care in stray cats is generally low, thus these animals remain untreated for a long time and disseminate their parasites in the environment. Hence, they act as a source of infection for the intermediate and paratenic hosts, increasing the risk of infection in other susceptible hosts living in the same regions.
The present study adds new knowledge on the geographical distribution of the cat lungworm A. abstrusus in Mediterranean Europe, as no updated and multi-site information were available for Greece and no data were obtained for the study areas thus far. It is here shown that cat aelurostrongylosis may occur with relatively high infection rates in some parts of Greece (Table 1), i.e. higher than the values previously recorded in the north of the country . The only information available for T. brevior in Greece is a single case report from Crete . This current study shows that this nematode can infect free-roaming domestic cats in continental Greece and islands other than Crete, in a range of latitudes extending from 35°51’N (Crete) to 39°12’N (Skopelos) and longitudes from 23°72’E (Athens) to 25°35’E (Mykonos). Interestingly, both A. abstrusus and T. brevior were found in varying environments, e.g. dry (Mykonos), forested (Skopelos) and highly urbanised (Athens) areas. It is important to note that the dry climate and poor vegetation characterising Mykonos and the urban environment of Athens do not represent an obstacle to the life-cycle of these mollusc-transmitted nematodes. On the contrary, the highest presence of both lungworms was recorded in these two study areas, thus indicating that the life-cycle of feline lungworms can be completed, as long as even limited habitats ensure the required conditions for the larval and intermediate host survival.
These results demonstrate that T. brevior is present in more geographical areas than previously known and that, in given regions, domestic cats harbour T. brevior regardless of the occurrence of wild reservoirs. At the moment it is still not ultimately established: (i) to what extent T. brevior occurs in domestic cats living in countries other than Italy, which is the region where this nematode has been recorded more frequently thus far ; (ii) if the reports of the last few years are due to a possible affiliation of T. brevior in domestic felids mostly in confined areas; and/or (iii) whether some epizootiological factors enforce infections of domestic cats with lungworms of wildlife.
The hypothesis that some drivers may have recently promoted an overflow of T. brevior from wildlife to domestic cats is realistic, based on different epizootiological, clinical and biological evidence [1, 4, 26]. As a key example, in a recent survey, only one cat of about 200 examined animals in northern Italy scored positive for T. brevior. This cat lived in the easternmost area of the only region of northern Italy where F. s. silvestris is present . At the same time, cats examined in another northern territory of Italy where wildcats are absent, were highly infected with A. abstrusus but T. brevior was not found . The same study showed that, in some mountainous and hilly areas of central Italy, aelurostrongylosis and troglostrongylosis have a similar distribution  despite the fact that T. brevior in domestic cats of the same regions was negligible until about ten years ago .
It is likely that under particular conditions (e.g. presence of infected wildcats facilitating the spread of infection, boundaries of islands or mountainous regions) T. brevior can change its usual affiliation and infect domestic cats, as in the case in Italy and Crete [1, 11, 26, 27]. It is difficult to draw a definitive explanation on the occurrence of cat troglostrongylosis in regions where the natural host responsible for spread of infection (i.e. F. s. silvestris) is not documented, i.e. Ibiza Island  and the Greek areas herein examined. The presence of wildcats in the Balearic Islands is uncertain and hypothesized only in the island of Mallorca [17, 28, 29]. Similarly, in Greece, populations of F. s. silvestris live only in forested areas and wetlands of continental regions , and in the Chania region of Crete Island (Fig. 1), i.e. where the first case of troglostrongylosis in a domestic cat from Greece has been recently described . It is possible that, in given regions, this parasite has adapted to domestic cats in prehistorical times, before the present coastal arrangement appeared (c. 7000 BC - 4000 BC) , when the wildcat or a common ancestor was likely present. In such conditions, the nematode might have remained confined in domestic cats in geographical segregation, such as small islands (e.g. Ibiza, Mykonos), thus explaining why it has remained practically unknown until the recent descriptions. It is also possible that cats travelling with their owners in recent years from endemic areas like Italy, to popular and touristic spots could have imported this lungworm, or that movements of paratenic hosts (migratory birds, rodents moved with international trade of goods in ships, etc.) may have introduced infective stages of T. brevior. The absence of T. brevior in cats examined in Crete, despite the fact that this parasite is present on the island , could be due to a range of reasons. Indeed, T. brevior is in general less common than A. abstrusus, thus its absence in 34 examined cats is not surprising. The number of sampled animals could have reduced the chance of detection if this nematode has a limited distribution in local domestic cats and is still confined in wildlife. Moreover, most examined cats were from a different area (Stavros) from where the first case of troglostrongylosis was found in 2014 (city of Chania). It is important to note that A. abstrusus has been found here in only one cat, thus suggesting that lungworms in Crete may have a limited distribution compared to other areas.
Further studies could assist in exploring the genetic structure of T. brevior populations affecting both wild and domestic hosts from different geographic areas. These investigations could be important to understand if certain subpopulations of lungworms can selectively infect each different felid species in all enzootic areas or in given regions, or to the contrary, F. s. catus and F. s. silvestris share the same genetic populations of lungworms in all these areas. In fact, subpopulations of other strongylid species, i.e. hookworms and cyathostomins, were previously indicated to selectively infect different animal species [31, 32].
Finally, as a practical output, it is advisable that troglostrongylosis is definitively included in the differential diagnosis of respiratory diseases of cats, also in regions where T. brevior is unexpected. In fact, in the near future we could be faced with the spread of T. brevior in domestic cats, both where the natural hosts are expanding, i.e. central Italy [3, 4, 26, 27], and where wildcats are absent. This is of pivotal importance because a timely detection of T. brevior implies a prompt anthelmintic treatment with spot-on molecules that recently proved efficacious in treating cat troglostrongylosis in natural and/or experimental conditions, e.g. emodepside , eprinomectin [33, 34] and moxidectin .
The authors would like to acknowledge the veterinarians Tania Aeriniotaki, Athina Tsokana, Dimitris Papaioannou, Niki Lemoni, Christos Ktenas and the biologist Despina Migli for their valuable assistance. The authors are also grateful to Paolo Matteo Accettura and Francesca Laiacona for their support in the laboratory activities.
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