Ticks Flashcards
Tick morphology and characteristics
Larva, nymph and adult stages feed on blood and look very similar (hemimetabolous)
Toothed mouthpart (hypos tome)
very small larvae (<2 mm) but large adults (0.5-2.5cm)
long lived (months-years)
resistant to environmental stresses and can survive long periods of time without hosts and feeding
high reproductive potential (<15,000 eggs per female)
How can ticks be classified
Soft - Argasidae
Hard - Ixodidae
Differences between hard and soft ticks
Hard ticks spend a long time on the host and drop off into vegetation
soft ticks spend a short time on the host and drop off into the home
mouthparts/gnathosoma/capitulm of hard ticks visible and hidden in soft ticks
hard ticks have a scutum/shield but soft ticks do not
life cycle of hard ticks
egg, larva, nymph, adult
each stage feeds only once
attach to host for days (larva and nymph) or weeks (adults –> adult female feeds once, drops off the host, lays 1000s of eggs and dies
1000s of larvae quest on the tips of vegetation and await hosts
large adults less common on humans than larvae or nymph
rest in cooler shaded vegetation to moult and wait for hosts
types of hard tick
one-host ticks - all stages on 1 individual (Boophilus)
two host ticks - larva, nymph on 1, adult on second individual (Hyalomma)
three host ticks - each stage on a different individual (Ixodes, Dermacentor, Rhipicephalus, Haemaphysalis)
Features of hard ticks
chelicera
hypostome
palp
why do hard ticks have high vector potential
Firmly attached and persistent blood feeders
trans-ovarial transmission (passed to offspring)
trans-stadial transmission (passed between egg-larval-nymph-adult)
ticks are both reservoir and vector
they are long lived
slow feeding aids in dispersal while attached
wide host range in many spp
Why are hard ticks important in humans
vectors to humans for arboviruses, rickettsias, spirochetes, other bacteria
tick paralysis
Human disease transmission by hard ticks
Tick borne encephalitis Omsk haemorrhagic fever Kyasanur forest disease Crimean congo haemorrhagic fever Colorado tick fever Rocky Mountain spotted fever Mediterranean spotted fever African tick bite fever Q fever Human ehrlichiosis Lyme disease Tularaemia Tick paralysis
Kyasanur forest disease
400-500 human cases per year
Haemaphysalis ticks In Southern India - 3 host
larvae on birds in forest and nymphs on small mammals and monkeys
foresters, herders and their cattle pick up adult ticks
trans-stadial transmission of virus in tick but also amplification within monkeys in the forest - monkey deaths are sentinel to human outbreaks
agric development and deforestation results in a decrease in disease and disease is spreading out of the Kyasanur forest
vaccine exists for KFD
Tick paralysis
Hard ticks only as they are attached for a long time
Toxin in saliva pumped continually during feeding
5-7 days after tick attaches - ascending paralysis, speech, swallowing, breathing difficulties, respiratory failure and death
easily confused with poliomyelitis
younger children most effected
removal of ticks results in quick recovery
Control of hard ticks
Treatment of livestock and pets with any range of insecticides applied by dipping or ear tags
ivermectin at 4 week intervals
personal protection
treatment of infested areas - UL V suitable
Soft ticks (Argasidae) of importance
Ornithodoros sp
Painful bites, sometimes in large numbers within houses
Vector of tick borne relapsing fever in humans
Vector of African swine fever virus (pigs)
Soft ticks life cycle
eggs, larvae, nymph 1, 2, 3, 4, adult
tick borne relapsing fever
only very important soft tick transmitted human disease
various Borrelia sp. transmitted by various Ornithodoros sp in most of the tropics and subtropics –> most important in Africa
East Africa - Borrelia duttonii and Ornithodoros moubata - no non human reservoirs
West Africa - Borrelia crocidurae - zoonotic and humans occasional
