Plant / dispersed
leg of Acarina spreads or disperses gemma of Schistostega pennata
Animal / predator
Aeolothrips melaleucus is predator of Acarina
Animal / predator
Blepharidopterus angulatus is predator of Acarina
Animal / parasite / endoparasite
cysticercoid of Cittotaenia denticulata endoparasitises Acarina
Animal / parasite / endoparasite
cysticercoid of Cittotaenia pectinata endoparasitises Acarina
Animal / predator
adult of Compsidolon salicellus is predator of Acarina
Remarks: season: (7)8-9(10)
Animal / predator
Himacerus apterus is predator of Acarina
Animal / predator
nymph of Loricula elegantula is predator of Acarina
Animal / predator
Malacocoris chlorizans is predator of Acarina
Other: major host/prey
Fungus / infection vector
conidium of Troposporella dematiaceous anamorph of Troposporella monospora is spread by Acarina
Remarks: Other: uncertain
Molecular Biology and Genetics
Barcode data: Dermatophagoides pteronyssinus
There are 2 barcode sequences available from BOLD and GenBank. Below is a sequence of the barcode region Cytochrome oxidase subunit 1 (COI or COX1) from a member of the species. See the BOLD taxonomy browser for more complete information about this specimen and other sequences.
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Download FASTA File
Statistics of barcoding coverage: Dermatophagoides pteronyssinus
Public Records: 3
Specimens with Barcodes: 3
Species With Barcodes: 1
House dust mite
The house dust mite (sometimes referred to by allergists as HDM) is a cosmopolitan guest in human habitation. Dust mites feed on organic detritus such as flakes of shed human skin and flourish in the stable environment of dwellings. House dust mites are a common cause of asthma and allergic symptoms worldwide. The mite's gut contains potent digestive enzymes (notably proteases) that persist in their feces and are major inducers of allergic reactions such as wheezing. The mite's exoskeleton can also contribute to allergic reactions. The European house dust mite (Dermatophagoides pteronyssinus) and the American house dust mite (Dermatophagoides farinae) are two different species, but are not necessarily confined to Europe or North America; a third species Euroglyphus maynei also occurs widely.
House dust mites, due to their very small size and translucent bodies, are barely visible to the unaided eye. A typical house dust mite measures 0.25–0.3 millimetres (0.010–0.012 in) in length. For accurate identification, one needs at least 10× magnification. The body of the house dust mite has a striated cuticle. Like all acari, house dust mites have eight legs (except the first instar, which has six).
The average life cycle for a male house dust mite is 10 to 19 days. A mated female house dust mite can last up to 70 days, laying 60 to 100 eggs in the last 5 weeks of her life. In a 10-week life span, a house dust mite will produce approximately 2,000 fecal particles and an even larger number of partially digested enzyme-covered dust particles.
Habitat and food
The house dust mite survives in all climates, even at high altitude. House dust mites thrive in the indoor environment provided by homes, specifically in bedrooms and kitchens. Dust mites survive well in mattresses, carpets, furniture and bedding, with figures around 100–500 animals/g dust. Even in dry climates, house dust mites survive and reproduce easily in bedding (especially in pillows), which takes up moisture from body contact.
House dust mites consume minute particles of organic matter. Like all acari, house dust mites have a simple gut; they have no stomach but rather diverticulae, which are sacs or pouches that divert out of hollow organs. Like many decomposer animals, they select food that has been already partially decomposed by fungi.
Asthma and allergies
Allergens produced by house dust mites are among the most common triggers of asthma. There are at least 15 mite allergens which are subdivided into groups. Group 1 and 2 allergens are the most problematic. Group 1 consists of proteins with a catalytic activity, for example Der p 1 (Dermatophagoides pteronyssinus group 1) allergen is a cysteine protease, as is its American counterpart Der f 1 (Dermatophagoides farinae group 1). Group 2 are proteins important for the mite. Proteins from the other groups affect only few patients.
Studies have shown the mean attributable fraction of adult asthma due to atopic sensitization was 30% and 18% for sensitization to dust mites. Taken into consideration this could mean as many as 1.2 billion people could have some form of chronic sensitization to dust mites.
The allergy occurs because the immune system of allergy-affected individuals, for reasons not fully understood, misinterprets a usually innocuous substance as a disease agent and begins producing a type of antibody against it, called immunoglobulin E (IgE). This is called the 'primary antibody response.' The IgE produced during this response binds to basophils in the bloodstream and to a similar type of cell called mast cells in the tissues. When the person again encounters the allergen, these basophils and mast cells that have bound to IgE release histamine, prostaglandins and leukotrienes, which causes inflammation of the surrounding tissues, resulting in allergic symptoms. Most treatment has relied so far on trying to counteract the released chemicals with anti-histamines, corticosteroids or Salbutamol. Commercial brands of these medications most commonly prescribed to treat Asthma include Ventolin and Seretide.
Newer methods to try to treat house dust mite allergy involve immunotherapy. A safety and tolerability clinical trial (Phase IIa) has been completed with positive results by Cytos Biotechnology using an immunotherapeutic (CYT003-QbG10) for treatment of house dust mite-triggered allergies. Contrary to popular belief, dust mites cannot be removed from bedding by separating bedding from skin. In some cases, that will cause dust mite populations to grow. An easier way to treat dust mites allergies is to buy a HEPA filter for or commonly used rooms or for rooms high in dust mites. HEPA filters filter dust mites out of the air and help dispose of allergens in the room.
A 10-year controlled study in 60 mite sensitised, asthmatic children, showed almost complete remission of asthma in those treated with sublingual immunotherapy (SLIT), and that this remission was still apparent 5 years beyond the completion of treatment.
This finding was supported by a review of 39 mite-triggered asthmatic children, who were suffering an average of 8 acute exacerbations per year. After treatment with SLIT, the exacerbation rate was reduced by 95%.
The French biopharmaceutical company Stallergenes is developing, via the Stalair Program, sublingual desensitization treatments for house dust mite allergy. The immunotherapy tablet, "Actair", has demonstrated efficacy after 4 months of treatment and the persistence of its therapeutic effect after only one year of treatment. (study VO57.07 conducted in Europe) Stallergenes is now preparing filing NDA in Germany. A phase-III pediatric study has been launched.
Typical symptoms of house dust mite allergies are itchiness; sneezing; inflamed or infected eczema skin; watering/reddening eye; sneezing repeatedly and frequently, e.g. on waking up or sneezing 10 or more times; runny nose; and clogging in the lungs.
Dust mite immunotherapy is still not widespread, especially in countries such the UK. If allergic asthmatic children cannot get access to desensitisation, then the best form of treatment for dust mite allergies remains one of avoidance, although this requires a high level of commitment from patient/parents. It is important however, to maintain use of medication such as anti-histamines, corticosteroids or Salbutamol. The environment of bedding is optimal for most dust mites, and comparative studies have shown that the density of dust mites in mattresses is on average greater than 2500/gram of dust. Cleaning beds with most vacuum cleaners will not remove dust mite allergens, but instead throw them into the air and increase their volatility. Some polyethylene bedding is beneficial as it makes the environment difficult for the dust mites. This bedding should also be breathable and be able to withstand frequent washing. A home allergen reduction plan has been recognized as being an essential part to the management of asthma symptoms, and therefore all aspects of the home environment should be considered (proper vacuuming, use of air cleaners, etc.). The Asthma and Allergy Foundation of America as well as the Asthma Society of Canada certify products that may be used in a home allergen reduction plan in a Program called Asthma and Allergy Friendly.
Common beliefs and misconceptions
It is commonly believed that the accumulated detritus from dust mites can add significantly to the weight of mattresses and pillows. While some recent studies have supported this claim, other reports dispute it. However, more scientific evidence is needed for a complete consensus.
Allergy and asthma sufferers are also often advised to avoid feather pillows due to the presumed increased presence of the house dust mite allergen (Der p I). However, according to a 1996 study from the British Medical Journal, the reverse is true. The study showed that polyester fibre pillows contained more than 8 times the total weight of Der p I and 3.57 times more micrograms of Der p I per gram of fine dust than feather pillows.
House dust mites reproduce quickly enough that their effect on human health can be significant. Since dust mites depend on moisture to survive, they are most often found in bedding such as pillows and duvets. Dust mites numbers can be reduced by replacing carpets with flat surfaces that are easier to vacuum and maintaining relative humidity below 50%. Existing mites can be eradicated through ten minutes' exposure to the lethal temperatures – near 105 °C (221 °F) – in a household clothes dryer, or using disodium octaborate tetrahydrate (DOT) powder. A side-effect of DOT is irritation of eyes.
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- Ella Davies (December 21, 2010). "Dust mites 'swarm' around houses". BBC News. Retrieved September 11, 2012.
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