Ticks

Author:Prof. Dr. med. Peter Altmeyer

All authors of this article

Last updated on: 28.06.2024

Dieser Artikel auf Deutsch

Synonym(s)

Argasidae; Ixodes; Ixodidae; Ixodinae

Requires free registration (medical professionals only)

Please login to access all articles, images, and functions.

Our content is available exclusively to medical professionals. If you have already registered, please login. If you haven't, you can register for free (medical professionals only).


Requires free registration (medical professionals only)

Please complete your registration to access all articles and images.

To gain access, you must complete your registration. You either haven't confirmed your e-mail address or we still need proof that you are a member of the medical profession.

Finish your registration now

General definitionThis section has been translated automatically.

Due to their way of life, ticks frequently transmit pathogens between hosts, but without themselves becoming ill. More types of pathogens are involved than in any other parasitic animal group. Threat to humans exists through transmission of the pathogens for:

A tick bite is a process that should be taken into account. The most important carriers in Central Europe are the species of the genus Ixodes with the most common native species, the so-called "common wood tick"(Ixodes ricinus), also the genera Rhipicephalus, Dermacentor, Haemaphysalis, Amblyomma and from the family of leather ticks the genera Argas and Ornithodorus.

PathogenThis section has been translated automatically.

Ticks (Ixodidae) are a superfamily within the mites (Acari) with leathery skin, which belong to the class of arachnids. Ticks belong to the largest mite species. Most species are ectoparasites (they do not penetrate the host's interior). Birds, reptiles and mammals serve as hosts. There are about 650 species of ticks worldwide (S.a. pigeon ticks).

Ixodidae lay eggs in various protected places such as the undersides of blades of grass. Six-legged larvae hatch out of them. After a few days, these larvae find an intermediate host (rodent), attach themselves there and take up blood within two to three days. After sucking, they let themselves fall off and after a few months, at the end of their development, they shed their skin to form the first eight-legged nymph, which is about 1.5 to 2 millimetres in size. This nymph in turn seeks out another intermediate host (cat). They then enter a dormant stage until the following spring. Only after this pause do they look for another host. After that, another moult to the second nymph (leather tick) or to the adult animal (shield tick) takes place. The adult tick then attacks the final host (human, cattle). The female is then mated with the tick. The female lays up to 3,000 eggs shortly afterwards. The male ticks die after mating, the females only after laying their eggs.

The tick incises the skin with its paired mouth parts (so-called cheliceren) and pushes the hypostome (stinging apparatus) into the wound. The hypostome is symmetrically covered with barbs. However, they only bore into the skin superficially and then "lick" the escaping blood. The procedure is colloquially known as a "tick bite", but the correct term is "tick bite".

The infection of ticks with Borrelia burgdorferi is rarely transovarian. In fact, the larvae are already infected via a blood meal of infected mice. The mice themselves form the largest natural reservoir.

Occurrence/EpidemiologyThis section has been translated automatically.

For the transmission of TBE, north-eastern and eastern Europe are considered to be the regions with the highest transmission risks of TBE. The risk zones include Bavaria, Baden-Württemberg, parts of Hesse, Rhineland-Palatinate, Thuringia, regions in Austria, Switzerland, Northeast and Eastern Europe, and Asia. The highest TBE risk in Europe, with several hundred cases per year, is found in the Baltic States, Slovenia, and the Czech Republic. Travelers in endemic areas are recommended to be vaccinated (information from the Center for Travel Medicine CRM).

TherapyThis section has been translated automatically.

  1. An attached tick should be removed as soon as possible after discovery.
  2. The tick is best grasped with fine tweezers or tick forceps as close to the skin as possible (not on the body, as this can cause pathogens to be squeezed into the wound) and slowly pulled out of the skin. Thorough removal of tick remains (usually the so-called hypostome of the tick). Thoroughly disinfect the puncture site afterwards. The use of oil or nail varnish for removal is not recommended because it is not certain that these procedures do not accelerate the penetration of germs. On the contrary, it can be assumed that aggressive agents cause the tick to release secretions and thus possible pathogens more quickly.
  3. Smaller ticks: Often small ticks cannot be safely grasped with tick tweezers. In this case, professional removal with a scalpel is recommended. The blunt side of the blade rests on the patient's skin and the tick is levered out.
  4. If a remnant of the biting apparatus (often misinterpreted as a "head") remains in the skin, this can be removed with a sterile needle or curette. As far as the transmission of Borrelia is concerned, leaving the "biting apparatus" in the skin is harmless.

  5. In principle, ticks can also be removed by means of a punch biopsy under local anesthesia. This procedure is recommended if the infected person has already manipulated the tick in some other way. There is no risk of the tick being crushed or tick remains remaining in the skin.
  6. Carefully search the body and, in the case of children, especially the head for other ticks.
  7. Lyme borreliosis can be completely cured in the early stages with antibiotic therapy in line with the guidelines. This prevents late manifestations.
  8. It is not advisable to test the tick for borrelia, as if the result is positive, it is not certain whether the borrelia have been transmitted into the skin at all and whether they will lead to a disease if they are transmitted. A negative result does not rule out transmission.
  9. Only a small proportion of people infected with Borrelia get sick! For this reason, preventive oral antibiotic therapy is not advisable.

ProphylaxisThis section has been translated automatically.

  • Wear sturdy shoes.
  • Wear light-coloured clothing to better detect ticks.
  • Walking on paths instead of in the field.
  • Putting socks over your trouser legs.
  • Examination especially of children after walks or hikes in the wild.
  • Rubbing the lower legs, wrists and neck with insect repellent e.g. Zanzarin Bio-Lotion or Nexa Lotte Skin Protection Milk (the effect lasts up to 6 hours).
  • Garlic: In studies, taking garlic capsules has been shown to reduce the tick bite rate in endemic areas by about 30%. Alternative: use of garlic spray.

Note(s)This section has been translated automatically.

Leather ticks often live close to their hosts and prefer rather dry dark shelters. Particularly well suited conditions are provided by forest edges and clearings with tall grasses, wet meadows and brook margins with similar vegetation, and also deciduous or mixed forest with grassy or herbaceous undergrowth. They normally carry out their activities from March to October. Their life span is between two and five years. Ticks can survive a full wash of clothing, so a tick bite can occur long after a walk in the forest.

In the next few years, tropical tick species of the genus Hyalomma could also spread to Central Europe. These tick species can carry the bacterium Rickettsia aschlimanni, the causative agent of spotted tick fever. Individual specimens have been found in Germany.

Ixodes inopinatus from the Mediterranean region has now spread as far as Denmark.

Rhipicephalus sanguineus, the "brown dog tick", originally native to Africa, has also been discovered on Hunades in Central Europe.

LiteratureThis section has been translated automatically.

  1. Carroll J (2007) Tough: Ticks survive the full wash cycle. Close to the skin 6: 318 (see also http://www.ars.usda.gov/is/pr/2007/071005.htm)
  2. Laursen K et al (2003) Tick-borne encephalitis: a retrospective study of clinical cases in Bornholm, Denmark. Scand J Infect Dis 35: 354-357
  3. Lesnicar G et al (2003) Pediatric tick-borne encephalitis in 371 cases from an endemic region in Slovenia, 1959 to 2000 Pediatric Infect Dis J 22: 612-617
  4. Oehme R et al (2002) Foci of tick-borne diseases in southwest Germany. Int J Med Microbiol 291(Suppl 33): 22-29
  5. Perkins SE et al (2003) Empirical evidence for key hosts in persistence of a tick-borne disease. Int J Parasitol 33: 909-917
  6. Spitalska E et al (2003) Tick-borne microorganisms in southwestern Slovakia. Ann NY Acad Sci 990: 196-200
  7. Stjernberg L et al (2000) Garlic as insect repellant. J Am Med Assoc 284: 831
  8. Thuile T et al (2015) Cutaneous and systemic Lyme disease. Act Dermatol 41: 234-241

Authors

Last updated on: 28.06.2024