Introduction
The following articles in this special edition present the development studies regarding
a new topical endectoparasiticide for cats containing three active substances: esafoxolaner
(syn. (S)-afoxolaner), eprinomectin and praziquantel for cats with, or at risk of,
mixed parasitic infestations with ectoparasites (fleas, ticks, and/or mites), gastrointestinal
worms (gastrointestinal nematodes and cestodes), and cardiopulmonary worms (heartworm
and/or lungworms).
This type of broad-spectrum combination is intended to protect cats against multiparasitism.
Cats often have outdoor activities, including hunting prey, and are more at risk of
multiple parasitic infestations than dogs. The sections below present the main parasites
of cats and the specific case of multiparasitism.
Epidemiological review of the main parasites of cats targeted by NexGard® Combo
The treatment and prevention of external and internal parasites of pets is a recognized
veterinary need. The major parasitological information and current recommendations
from European parasitology experts are provided in guidelines from the European Scientific
Counsel on Companion Animal Parasites [22, 24].
Cat ectoparasites
Fleas
Fleas are blood-sucking insect parasites that occur on mammals and birds and are commonly
found in cats, dogs and other small mammals housed in multi-pet households as companion
animals.
The cat flea, Ctenocephalides felis, is one of the most frequent external parasites
of companion animals worldwide and the most prevalent flea species in cats in Europe.
Fleas can infest both dogs and cats all year round, but the infestation peak commonly
occurs in late summer and autumn.
From a veterinary standpoint, fleas cause pruritus, alopecia, broken hairs, and allergic
dermatitis in sensitized individuals, and anemia in heavily infested pets. Fleas also
act as intermediate hosts or vectors for several pathogens (e.g.: Dipylidium caninum,
Rickettsia felis, Bartonella spp., Haemoplasma spp.), which are all described in Europe.
The prevalence of fleas found on cats is highly variable based on the epidemiological
surveys: 14% in Germany [3], between 21% and 56% in the United Kingdom (UK) [4], and
up to 97% in Greece [32].
Ticks
In Europe, the ticks found on cats are members of the Ixodidae and include species
within the main genera Ixodes and Rhipicephalus, and more rarely Dermacentor. In the
United States, Amblyomma spp. ticks also commonly infest cats.
The main European tick species in cats is Ixodes ricinus, which is widely distributed,
except in southern Europe. Rhipicephalus is primarily a Mediterranean tick of southern
Europe, while Dermacentor is found throughout Europe with patchy distribution.
Tick infestation is highly seasonal. In the UK and Central Europe, there are typically
two peaks, one from March to June and a second from August to November. In more southern
climates, the prevalence increases in spring and summer, but the ticks may feed all
year round if temperatures are conducive [24].
The direct pathogenic effect of ticks is linked to their blood meal, which may lead
to anemia in cases of heavy infestations. There might also be local inflammatory reactions
at the site of the bite. Generally, ticks are of most importance as vectors of pathogens
affecting both companion animals and humans [23].
Otodectes cynotis
Ear mites, Otodectes cynotis, are a cause of aural irritation and discomfort in cats,
dogs and ferrets. They can occur in any age group of cats but are more common in kittens.
They spend their entire lifecycle on the host, with transfer from animal to animal
occurring through close contacts [12]. Ear mites are found all around the world. In
a survey performed in domestic owned cats in Europe, O. cynotis was the most frequently
identified species (17.4%) [5]. In another survey conducted in Italy, O. cynotis was
identified as the primary cause of external otitis in 53.3% of 1087 stray cats examined
[42]. Ear mites may be tolerated without clinical signs in some animals, but can cause
pruritus with ear scratching or rubbing, ear pinnae hematoma, and self-inflicted trauma.
Cat endoparasites
Gastrointestinal nematodes
Infections with gastrointestinal nematodes (ascarids Toxocara cati and Toxascaris
leonina, and hookworms, Ancylostoma spp. and Uncinaria stenocephala) occur by ingestion
of larvated eggs or free larvae from the environment, for ascarids and hookworms,
respectively. Other modes of infections include larvae ingestion through the milk
in young kittens, or the ingestion of paratenic hosts, such as small rodents in hunting
cats.
Toxocara cati is the most common digestive parasite of the cat worldwide. Except in
young animals or when there is a massive infestation, T. cati usually induces limited
digestive clinical signs (e.g. vomiting, diarrhea). The pulmonary migration of L4
larvae also causes pneumonia with coughing [49].
Toxocara cati has zoonotic potential. Human infections are mainly asymptomatic, but
fever, persistent eosinophilia, and hepatomegaly (sometimes with pulmonary involvement)
may occur, resulting in a condition known as visceral larva migrans [14].
Toxascaris leonina infection is rare and mainly occurs in rural environments. Paratenic
hosts play a major role as a source of the parasite.
Cats can become infected with several hookworm species, including Ancylostoma tubaeforme,
the main hookworm species observed in cats, and Ancylostoma braziliense or Ancylostoma
ceylanicum in tropical countries. All species are blood-suckers, but they usually
cause only mild digestive disorders and occasional diarrhea in cats. They may also
induce hypoalbuminemia and anemia. The main importance of A. braziliense and A. ceylanicum
is related to their zoonotic potential. A. braziliense can cause cutaneous larva migrans
or “creeping eruption” in humans [17], while A. ceylanicum develops into the adult
stage and is the second most common hookworm species observed in humans in Asia. People
become infected when the zoonotic hookworm infective larvae penetrate unprotected
skin.
Toxocara cati and Toxascaris leonina are found in cats all over Europe. T. cati has
been shown to have a high prevalence, ranging between 11% and 60% in various coprological
and postmortem surveys [2, 56].
The hookworm Ancylostoma tubaeforme is endemic in domestic cats throughout the world.
In Europe, it is most frequently observed in Italy, Austria, Belgium and Spain, with
prevalence ranging from 1% to over 30% depending on the surveys [10, 50].
Gastrointestinal cestodes
Infection by gastrointestinal cestodes is common in cats. The route of infestation
by the various tapeworms differs: the intermediate host of Dipylidium caninum is the
flea, while that of Taenia taeniaeformis and Echinococcus multilocularis is small
rodents hunted by the cat. Recent findings have demonstrated that cats are infected
by a different genotype of Dipylidium than dogs. These two genotypes, i.e. canine
and feline, are also clearly distinguished in the fleas collected on dogs or on cats,
the dog genotype being the only one observed in Ctenocephalides canis. The genetic
and biological differences, i.e. absence of hybrids and difficulty to infect cats
with the dog genotypes and vice versa, have led authors to suggest that these are
two distinct species of Dipylidium [7, 33].
Adult tapeworm infections seldom cause severe clinical signs in the cat, unless large
numbers of tapeworms are present [8].
Cestode infections may represent a risk to human health [13]. Dipylidium caninum can
exceptionally cause zoonotic infection in children following the accidental ingestion
of fleas carrying the larval stage of the tapeworm. Although human infection is mostly
nonpathogenic, it may lead to anorexia and weight loss in infected children [38].
A far more important zoonotic agent is Echinococcus multilocularis which causes alveolar
echinococcosis in humans. Human infections are fortunately rare, but can be fatal
without extensive chemotherapy and/or surgery. Cats are generally thought to be less
suitable hosts for E. multilocularis than canids, with a reduced rate of worm development
[53]. However, cases of heavily infected cats are known to occur [18].
Cat infection with Dipylidium caninum and Taenia taeniaeformis is extremely common
in Europe. As an illustration, an Austrian survey found that 33% of cats were infected
with T. taeniaeformis [28], as were 20–28% of cats sampled in Belgium [56].
One difficult aspect of teniosis is its diagnosis. The sensitivity of coproscopy remains
very low. Dipylidium proglottids usually exit the rectum mechanically, with no link
to defecation. This enables proglottids and eggs present in the cat environment, pet
bedding, and sofas to be ingested by flea larvae, which are not on feces. Recent studies
comparing necropsy and coproscopy in feral cats have indicated sensitivity of around
10% for coproscopy [51]. Regarding infection by Taenia taeniaeformis, sensitivity
is higher, around 30–40%, as some proglottids disrupt and lay eggs in the large intestine
[51].
Another way of assessing the epidemiological status of Dipylidium caninum is the check
fleas for flea larvae through PCR techniques. On average, 4% of fleas are found to
be infected in Europe [6].
Echinococcus multilocularis, which is primarily a parasite of foxes, occurs in large
areas of Europe and is endemic in countries of Central and Eastern Europe [22]. Several
studies have reported E. multilocularis infections in domestic cats. As an example,
3.7% of cats were found to be infected in a survey in the east of France [43], and
they are able to excrete proglottids and eggs [40].
Joyeuxiella species, such as Joyeuxiella pasqualei and Joyeuxiella fuhrmanni, are
common cestodes of cats from the Middle East, Southern Asia, and Africa [8]. Data
on diagnoses/findings of infections with Joyeuxiella cestodes are rare in Central
European countries. However, cases of Joyeuxiella infestations are reported in other
European countries, especially in South–Eastern European countries and those bordering
the Mediterranean Sea [10, 27, 30, 36, 37, 41, 44, 45, 46, 48, 57].
Cardiopulmonary worms
Heartworm
Dirofilaria immitis, the canine and feline heartworm, is a nematode transmitted by
mosquitoes, living in the arteries of the lungs, and occasionally in the right side
of the heart of dogs and cats.
Heartworm infection is an unpredictable disease in cats. Most cats show no clinical
signs for a long time after infection. These cats may undergo spontaneous self-cure
due to the natural death of parasites or they may suddenly show a dramatic acute syndrome
with respiratory signs. Sudden death in apparently healthy cats is not an infrequent
consequence of infection. In most cases, the onset of clinical signs seems to be related
to the natural death of parasites or to the arrival of pre-adult heartworms in the
pulmonary arteries. Ectopic localizations in the brain, eyes, testis or aorta occur
rarely, and are more frequent in cats than in dogs [22].
Dirofilaria immitis is endemic in the Mediterranean region, including many southern
and south-eastern European countries. The prevalence rate of naturally acquired infections
in cats is between 5% and 20% that for dogs in the same geographical area [34]. Various
studies have shown that in endemic areas in Italy, up to 27% of cats may be infected.
The infestation is seasonal, linked to the presence of the vectors (mosquitoes), generally
active from April to October.
It should be noted that mosquito density and the rate of Dirofilaria maturation to
infective third-stage larvae in the mosquito vector depend mainly on environmental
temperature and humidity. A rise in average temperatures as well as the emergence
of a new vector, Aedes albopictus in Europe, has tended to extend the risk areas and
the risk season for infection, and this contributes to an increased prevalence rate
[54].
Lungworms
Aelurostrongylus abstrusus infects the lung parenchyma, the terminal respiratory bronchioles,
and alveolar ducts of lungs in cats and has an indirect cycle [8]. Feline aelurostrongylosis
may be asymptomatic, depending on worm burden, age and immune response of the infected
animal. However, the disease is generally characterized by respiratory signs that
may be severe and may result in death in the young, debilitated, and/or immunosuppressed
cat [55]. Complications may include interstitial emphysema, pulmonary edema, and secondary
bacterial pneumonia.
Troglostrongylus brevior is a respiratory nematode with an indirect lifecycle like
Aelurostrongylus abstrusus. Clinical signs in cats infected with Troglostrongylus
brevior can be severe, and may include cough, dyspnea, and nasal discharge, and may
lead to fatal respiratory failure. Kittens and young cats seem to be more likely to
develop clinical signs than adult animals [9, 20].
Recent reports support the presence of A. abstrusus everywhere in Europe. There are
endemic areas in Europe, like Portugal and Italy where the prevalence of this lungworm
is about 20% [55]. The overall prevalence of T. brevior in domestic cats within Europe
is low in general and cases are mostly found in countries bordering the Mediterranean
Sea [19, 21, 26, 29, 31, 52].
Vesical worms
Capillaria plica is a nematode that infects the urinary bladder of carnivores, and
occurs worldwide, mostly in wild animals [30]. This infection is rarely reported in
domestic carnivores, but the available data indicate reports in cats, which have more
frequent contact with the external environment. Capillaria plica infection can induce
cystitis, and the infection is often diagnosed accidentally, when examining urine
sediment. Consequently, this infection may also cause pollakiuria, dysuria, and hematuria
[47].
Co-infections
The parasites targeted by NexGard® Combo (fleas, ticks, ear mites, nematodes and cestodes)
are commonly found in cats in Europe and can be present simultaneously in the same
animal. This explains why many endectoparasiticide medicinal products have been developed
for pets in recent years (e.g. Advocate [Bayer AH], Broadline [Boehringer Ingelheim],
Bravecto Plus [MSD], and Stronghold Plus [Zoetis]).
The risk of cats being infected by any type of gastrointestinal helminth seems to
be high in Europe. Recent European studies revealed the occurrence of concurrent nematode
and cestode infection in 5%–14% of client-owned cats [1, 11]. Even higher prevalences
are reported in stray cats.
In addition, an epidemiological survey was conducted in 2014 and highlighted for the
first time that multiparasitism is frequent in European owned cat populations. This
survey demonstrated that more than half of the owned cat population carries at least
one parasite at a given time, with a high level of co-infestations. Overall, 50.7%
of cats were found to be positive for at least one internal or one external parasite
species. Co-infection with endoparasites and ectoparasites was found in 14% of the
cats, and 11.9% harbored both ectoparasites and gastro-intestinal helminths [5, 25].
The same findings regarding cat parasites are made for other countries or regions
of the world like the United States [39] and Asia [16]. Given the zoonotic considerations
and the clinical importance, it is strongly advisable to promote effective and regular
parasite control in cats for both ectoparasites and endoparasites.
Due to the modalities of infestation (e.g. ingestion of eggs or larvae, preying small
mammals), cats that go outdoors are obviously at greater risk of exposure to both
nematode and cestode infections. Interestingly, there is also evidence that even cats
without outdoor access are at risk of helminth infections: in an evaluation on the
helminth prevalence in cats in Germany and France, 20% of cats that were positive
for helminth infection did not have outdoor access [15]. Other risk factors should
be considered such as age (kittens and geriatric animals are at greater risk than
healthy adults for T. cati infection), environment (co-housed cats in catteries or
individual households, and multi-pet households), health status of the animals including
ectoparasite infestation, or geographic location and travel that may make exposure
to certain parasites more likely.
Conclusion
The parasites targeted by broad spectrum endectoparasiticides (fleas, ticks, mites,
gastrointestinal nematodes, cestodes, heartworms, and lungworms) are quite commonly
found in cats, and can occur simultaneously as concurrent infestations (ecto- and
endoparasitism). Therefore, there is an interest for veterinarians and cat owners
to provide a product combining such treatment claims.
NexGard® Combo for cats
In the following articles, the major development studies regarding the pharmacokinetics,
and safety and efficacy of the association of the three active ingredients (esafoxolaner,
eprinomectin and praziquantel) are described.
It was first demonstrated that the three active substances do not interact with one
another. Thereafter, the pharmacokinetic profile supported the deworming curative
effect and sustained insecticidal-acaricidal activity for at least one month.
The required frequency of treatment of cats with this broad-spectrum combination will
vary, as it depends on parasitological and epidemiological considerations. Certain
factors may dictate more intensive monitoring and/or treatments, while others may
suggest less frequent use. Regarding identification of the parasitic risk, the veterinarian
is paramount for the prescription recommendation and the frequency of treatment. He/she
should consider the cat’s individual risk factors such as age, health status, housing,
lifestyle, family environment (zoonotic risk), and geographical location or travel.
It is important to be aware of the limited understanding of owners regarding the need
to protect cats against several types of parasites, and not only fleas [35].
Thus, the veterinary prescription must be based on a comprehensive reasoned risk assessment
of each individual cat.