Respiritory Parasites

Question 1

Describe the life cycle of some of the species of parasites which live in the nasal tract and trachea

Question 2

Describe the life cycle of Oestrus ovis and discuss its importance in UK agriculture

Question 3

Describe the life cycle of Syngamus trachea and discuss its importance in UK agriculture

Question 4

Give examples of the different ways in which nasal and tracheal parasites may be diagnosed

Question 5

List the nasotracheal arthropods

Answer 5

Tongue Worms
Linguatula serrata

The Bot Fly
Oestrus ovis

The Nasal Mite
Pneumonyssus caninum

Question 6

List the nasotracheal nomatodes

Answer 6

Eucoleus (Capillaria) boehmi Dogs & foxes

Oslerus osleri (Filaroides osleri) Dogs

Eucoleus aerophilus (syn. Capillaria aerophila) Dogs

Filaroides spp (F. hirthi and F. milksi) Dogs

Crenosoma vulpis Dogs & foxes

Syngamus trachea (Gapeworm) Non-aquatic birds

Question 7

Explain the lifecycle of Linguatula serrata (tongue worm)

Answer 7

The adults live in the upper respiratory system and nasal airways and frontal sinuses of the carnivores, especially dogs as final hosts.

Eggs which discharge with nasopharyngeal secretions of the definitive host can be swallowed by herbivores (as intermediate hosts) such as cattle, buffalo, sheep, goat, etc.

Then, the larvae hatch from the eggs and migrate mainly to mesenteric lymph nodes (MLNs) and other visceral organs (such as liver, lung, spleen, heart, etc.).

The parasite can be transferred to the final host through consumption of meat or viscera of infected intermediate host

Question 8

Outline the structural features of Linguatula serrata

Answer 8

Pentastomid (not an arthropod)
- Anterior end of the body, mouth hook and 4 clawed legs

- Chitinous cuticle

- Nervous system similar to arthropods 

    - Lacks many organs e.g., respiratory, excretory

Males ~ 20 mm & females 30-130 mm

Question 9

List the clinical signs for Linguatula serrata

Answer 9

Mucopurulent nasal discharge (contains mucus & pus)

Epistaxis (bleeding from the nose)

Sneezing

Question 10

Outline the diagnosis of Linguatula serrata

Answer 10

Fecal Examination: Fecal examination can reveal L. serrata organisms in some cases.10,11

Nasal Cytology: Occasionally, L. serrata can be diagnosed by examination of nasal swabs/washings or seen grossly in nasal discharge (Figures 1, 2).11

Rhinoscopy: L. serrata can be visualized on rhinoscopy. Inflammation of the nasal cavity may also be present

Question 11

Provide an overview of the treatments available for Linguatula serrata

Answer 11

Nasal flushing using warm salt water can help to detach the adult parasite

Treatment with Milbemycin oxime 

Dogs are able to expel the adult stage through nasal discharge

Question 12

Explain the lifecycle for Oestrus Ovis (Bot Fly)

Answer 12

The female is viviparous and infects the host by squirting larvae into the nostrils of sheep in a jet of liquid.

The larvae crawl caudally into the nasal cavity and feed on the nasal mucosa and mature, before returning to the nostrils.

The larvae move to the frontal sinuses, where they transform from L2 to L3.

They only move to the frontal sinuses under warm conditions. If these conditions are not achieved, the larvae will stay in the nostrils for an extended period of time, until the warm conditions come about.

The larvae are then sneezed out into the ground, and pupate on the ground. The adults develop, and are active throughout the year. Adult flies only live for 2-3 weeks

Question 13

Outline the epidemiology of Oestrus Ovis

Answer 13

Endemic areas in UK south of latitude 520

Abattoir surveys in 1999 showed 13% of sheep in endemic areas were infected

Prevalence within flock may be as high as 80% (Bates et al., 1999. Med. Vet. Entomology)

Studies have reported between 50-100% flock infestation in France, Turkey, Spain, Russia, USA, Australia, Africa, South America and Central Asia

Economic importance in many countries not considered high

Question 14

List the clinical signs of Oestrus Ovis

Answer 14

Avoidance behaviour

Excess (sometimes bloody) nasal discharge

Laboured breathing

Loss of appetite

May induce non-localised symptoms due to secondary bacterial infection (e.g., lung abscess/interstitial pneumonia)

Question 15

Outline the diagnosis of Oestrus Ovis

Answer 15

Serological testing using ELISA may be used in some countries

Question 16

Outline the treatments used for Oestrus Ovis

Answer 16

Nitroxinyl, moxidectin, ivermectin, closantel

Question 17

Explain the pathology for Nasopharyngeal myiasis (The Nasal Mite)

Answer 17

Fly deposits larvae in or around nostrils of the host

Pathology associated with feeding on mucous membranes in nasal cavity and sinuses

Other examples of myiasis occurs with blow flies e.g. ‘fly strike’ in sheep and rabbits

Question 18

Explain the pathology of Pneumonyssus caninum (Nasal mite in dogs)

Answer 18

Lives in the nasal and paranasal sinuses of dogs. It also may be found around the nares and on the muzzle.

Nasal mites can cause an inflammatory reaction in the nasal cavity and sinuses.

Question 19

List the clinical signs of Pneumonyssus caninum

Answer 19

The extent of clinical signs varies, and some affected patients are asymptomatic

Sneezing/snuffling to nasal discharge/bleeding (epistaxis)

The olfactory mucosa and tonsils may also become inflamed.

Question 20

Describe the etiology of Pneumonyssus caninum

Answer 20

Mobile, oval in shape, pale yellow, and 1-1.5 mm in length. All legs are found on the anterior half of the body

Question 21

Outline the diagnosis of Pneumonyssus caninum

Answer 21

From nasal swabs (adult mites)

Physical examination

Complete blood counts

Question 22

Outline the treatment available for Pneumonyssus caninum

Answer 22

Sub-cutaneous selamectin, moxidectin, milbemycin oxime. No drug licensed as yet

Question 23

Explain the life cycle pf Eucoleus (capillaria) boehmi (nasal worm of dogs and foxes)

Answer 23

Unknown

Likely via ingesting of eggs discharged from the nasal tract of infected dogs, or earthworm involved as a paratenic host (This is the case with E. aerophilia)

Question 24

Outline the epidemiology of Eucoleus (capillaria) boehmi

Answer 24

Infects mucosa of nasal cavity/passage and the frontal and paranasal sinuses.
Known as ‘nasal capillariasis’

Most reports from the USA

Rhinoscopically (1.5 cm-4 cm) on the epithelial lining of the nasal turbinates

Question 25

List the clinical signs of Eucoleus (capillaria) boehmi

Answer 25

Sneezing
Rhinitis
Serous to mucopurulent nasal discharge
(Sometimes) severe epistaxis (requires blood transfusion).

Reverse sneezing (air quickly inhaled through nostrils-response to nasopharyngeal irritation-dog makes honking/gagging sounds)

Question 26

Outline the diagnosis for Eucoleus (capillaria) boehmi

Answer 26

Eggs (diagnostic stage) can be found in dog faeces by faecal flotation , and from nasal swabs/flushes.
Although nasal washings to remove adults have been most successful

Eggs are confused with whipworm (Trichuris vulpis) and another lungworm (E. aerophilus). Eggs of the 3 species have an average size of 60-30 μm and two polar plugs at both ends

Question 27

Explain how to differentiate between the eggs of whipworm (Trichuris vulpis), E. Aerophilus (lungworm) & Eucoleus (capillaria) boehmi

Answer 27

E. boehmi egg has a rough ‘pitted’ surface;

E. aerophilus egg has a shell with striation;

Trichuris vulpis egg has a smooth shell

Question 28

Outline the treatments available for Eucoleus (capillaria) boehmi

Answer 28

Rx: Fenbendazole at 50 mg/kg PO q 24 hr for 2 wk.

Ivermectin has been also used.

Dog are treated with antibiotics, antihistamines, and steroids prior to diagnosis of nasal worm infection

Question 29

Explain the lifecycle for Oslerus Osleri (Filaroides osleri)

Answer 29

Females are ovoviviparous; the eggs hatch inside the female.

Both larvated eggs and larvae are passed by the female nematode.

The first-stage larvae – which are the infective stage - are released into the tracheal lumen and move up to the pharynx, are swallowed and then pass out in the faeces.

Infection of the definitive hosts is by ingestion of first-stage larvae.

First stage larvae cross the intestinal wall and travel via lymphatics or blood to the lungs.

Auto-infection may occur with O. osleri, in which the infective first-stage larvae penetrate into the intestinal wall without leaving the host, migrate to the trachea, and develop into adult parasites.

Question 30

Explain the pathology of Oslerus Osleri (Filaroides osleri)

Answer 30

Metastrongyloid nematode with direct life cycle

Infection occurs via ingesting L1-infected faeces or by direct transfer of L1 in sputum (hence NO GASTROPODS ARE INVOLVED)

Adults live (within nodules on the mucosa) in the distal trachea and tracheal bifurcation

World-wide distribution, but unknown prevalence in UK

Question 31

List the clinical signs of Oslerus Osleri (Filaroides osleri)

Answer 31

Chronic cough
Wheezing, and may develop to exercise intolerance
Dyspnoea
(Sometimes) death

Immune response to adults in trachea and bronchi causes the worm to encapsulate

Question 32

Outline the diagnosis for Oslerus Osleri (Filaroides osleri)

Answer 32

Bronchoscope: Characteristic nodules can be seen particularly at the tracheal bifurcation

L1 in faeces or in BAL fluid (+ many eosinophils)

Resolution of tracheal/bronchiole nodes may take several weeks post-treatment

Question 33

Explain the lifecycle in Eucoleus aerophilus (syn. Capillaria aerophila)

Answer 33

In the direct life cycle, a definitive host ingests the infective larvated egg from the environment, the larva hatches and travels through the small intestine wall, enters the lymphatics or bloodstream to the lungs, breaks out into the airways and completes its development to adult.

In the indirect life cycle the eggs are ingested by an earthworm intermediate host in which the eggs hatch to release the infective first stage larva. A definitive host then ingests the earthworm and the larva follows the same path as in the direct life cycle. The prepatent period is 6 weeks.

Question 34

Outline the pathology of Eucoleus aerophilus (syn. Capillaria aerophila)

Answer 34

Inhabits trachea, bronchi & bronchioles of dogs, cats, foxes, wolves, racoon dogs, hedgehogs, lynxes, and mustelids

Animal ingests an infective egg or an earthworm (paratenic host) containing an infective larva in its tissues. Then, larva will find its way to the lung

Question 35

List the clinical signs associated with Eucoleus aerophilus (syn. Capillaria aerophila)

Answer 35

Apart from a slight cough, infection is usually asymptomatic in dogs and cats

Question 36

Outline the diagnosis for Eucoleus aerophilus (syn. Capillaria aerophila)

Answer 36

Using faecal floatation or tracheal wash of eggs with characteristic bipolar plugs and a rough ‘netted’ surface.

Question 37

Outline the pathology of Filaroides spp (F. hirthi and F. milksi)

Answer 37

Live in the terminal airways, bronchioles and alveoli in dogs

Question 38

Explain the lifecycle of Filaroides spp (F. hirthi and F. milksi)

Answer 38

Direct, and infection occurs via ingestion of L1s

First stage larvae passed in the faeces or in saliva and is immediately infective to another dog

Question 39

Outline the diagnosis of Filaroides spp (F. hirthi and F. milksi)

Answer 39

Detection of L1s or embryonated eggs in faeces or in airway cytology specimens
Radiographic examination may show a diffuse interstitial or focal nodular pattern

Question 40

Explain the life cycle of Crenosoma vulpis (Fox Lungworm)

Answer 40

Indirect and transmission requires ingestion of molluscs as intermediate hosts (e.g., common garden snail Helix aspersa)

Question 41

List the hosts of Crenosoma vulpis (Fox Lungworm)

Answer 41

Foxes,
wolves,
coyotes,
raccoon dogs and
badgers
in Europe and N. America

domestic dog in the UK (1992_MF & MC)

Question 42

What are the target sites of Crenosoma vulpis (Fox Lungworm)?

Answer 42

Trachea, bronchi and bronchioles

Question 43

Explain the life cycle of Syngamus trachea (Gapeworm)

Answer 43

L1-L3 develops in the egg. Infection may be via ingestion of L3 in the egg, or a hatched L3, or ingestion of a paratenic host, most commonly the earthworm and the slug.

The L3 penetrate the intestine and then enter the lungs. The L3 then undergo two further moults, and copulation occurs in the trachea a few days later.

The prepatent period of S. trachea is between 16 and 20 days.

Question 44

List the clinical signs of Syngamus trachea (Gapeworm)

Answer 44

Infection may be sub-clinical

Bird size and level of infection is important (younger birds with smaller trachea most affected)

‘Gaping’- Bird opens mouth wide and extends neck

Weight loss

Question 45

Outline the Diagnosis for Syngamus trachea (Gapeworm)

Answer 45

Eggs (containing larvae) in faeces/ adults in trachea following post mortem

Question 46

Outline the available treatments for Syngamus trachea (Gapeworm)

Answer 46

Flubendazole, mebendazole and fenbendazole