House dust mite

House dust mite
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Arachnida
Subclass: Acarina
Order: Acariformes
Family: Pyroglyphidae
Genus: Dermatophagoides
Binomial name
Dermatophagoides farinae Hughes,
Dermatophagoides microceras,
Dermatophagoides pteronyssinus

Trouessart, 1897 (D. farinae Hughes, D. pteronyssinus),
Griffiths & Cunnington, 1971 (D. microceras)

House dust mite
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Arachnida
Subclass: Acarina
Order: Acariformes
Family: Pyroglyphidae
Genus: Euroglyphus
Binomial name
Euroglyphus maynei
Cooreman, 1950

House dust mites (HDM, or simply dust mites) are a large number of mites found in association with dust in dwellings.[1]

The main species are identified as:

Biology

Taxonomy

The dust mites are cosmopolitan pyroglyphids.

Characteristics

A scanning electron micrograph of a female dust mite

House dust mites, due to their very small size and translucent bodies, are barely visible to the unaided eye.[2] A typical house dust mite measures 0.2–0.3 millimetres (0.008–0.012 in) in length.[3] For accurate identification, one needs at least 10× magnification. The body of the house dust mite has a striated cuticle.

Diet

They feed on skin flakes from humans, and animals, and on some mold. Dermatophagoides farinae fungal food choices in 16 tested species commonly found in homes was observed in vitro to be Alternaria alternata, Cladosporium sphaerospermum, and Wallemia sebi, and they disliked Penicillium chrysogenum, Aspergillus versicolor, and Stachybotrys chartarum.[4]

Predators

The predators of dust mites are other allergenic mites (Cheyletus), Silverfish and pseudoscorpions.[5]

Reproduction

The average life cycle for a male house dust mite is 1019 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.

Health issues

Allergies

House dust mite allergy

The mite's gut contains potent digestive enzymes (notably Peptidase 1) 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. Unlike scabies mites or skin follicle mites, house dust mites do not burrow under the skin and are not parasitic.[6]

Severe dust mite infestation in the home has been linked to atopic dermatitis and epidermal barrier damage has been documented.[7]

House dust mites are associated with allergic rhinitis and asthma.[8] Efforts to remove these mites from the environment have not been found to be effective.[8] Immunotherapy may be useful in those affected.[8] Subcutaneous injections have better evidence than under the tongue dosing.[9] Topical steroids as nasal spray or inhalation may be used.[10]

Oral mite anaphylaxis

Dermatophagoides spp. can cause oral mite anaphylaxis (aka pancake syndrome) when found in flour.[11][12]

Dust mite control techniques

Bed linen

Dust mite-proof encasements to mattress, pillow, and duvet, prevents chronic contact with allergens.[10]

Weekly changing the bed linen reduces the risk of exposure to dust mites.[10]

Cotton covers not covered with complete mattress covers are very likely to become colonised by bacteria and molds; they must be cleaned periodically (at least every 2nd-3d month).[13]

Dust mite eggs are freeze tolerant (-70°C for 30 minutes); hatching can normally be prevented by exposure of fabrics to:[14]

Dust mite-proof bedclothes may reduce the exposure to 20%.[16]

Good properties of anti-mite fabrics have been identified as being:[17]

Indoor climate

A practical way to control dust mites and their allergens is to maintain a relative humidity of less than 45% with a dehumidifier during summer, and a room temperature of 22°C.[15]

References

  1. "house dust mites - Dermatophagoides spp.". entnemdept.ufl.edu.
  2. "Why Study the Mite". Retrieved September 29, 2013.
  3. "The House Dust Mite". Retrieved March 29, 2015.
  4. Naegele, Alexandre; Reboux, Gabriel; Scherer, Emeline; Roussel, Sandrine; Millon, Laurence (1 April 2013). "Fungal food choices of Dermatophagoides farinae affect indoor fungi selection and dispersal". International Journal of Environmental Health Research. 23 (2): 91–95. ISSN 0960-3123. doi:10.1080/09603123.2012.699029.
  5. "Acari.be". www.acari.be.
  6. Barb Ogg. "Managing House Dust Mites". University of Nebraska-Lincoln. Retrieved 29 March 2015.
  7. "New perspectives on epidermal barrier dysfunction in atopic dermatitis: Gene–environment interactions". www.sciencedirect.com.
  8. 1 2 3 Biagtan, M; Viswanathan, R; Bush, RK (December 2014). "Immunotherapy for house dust mite sensitivity: where are the knowledge gaps?". Current allergy and asthma reports. 14 (12): 482. PMC 5034865Freely accessible. PMID 25354663. doi:10.1007/s11882-014-0482-0.
  9. Eifan, AO; Calderon, MA; Durham, SR (November 2013). "Allergen immunotherapy for house dust mite: clinical efficacy and immunological mechanisms in allergic rhinitis and asthma.". Expert opinion on biological therapy. 13 (11): 1543–56. PMID 24099116. doi:10.1517/14712598.2013.844226.
  10. 1 2 3 Carrard, A; Pichler, C (April 2012). "[House dust mite allergy].". Therapeutische Umschau. Revue therapeutique. 69 (4): 249–52. PMID 22477664.
  11. Barrera, OM; Murgas, IL; Bermúdez, S; Miranda, RJ (June 2015). "[Oral anaphylaxis by ingestion of mite contaminated food in Panama City, 2011-2014].". Revista Alergia Mexico. 62 (2): 112–7. PMID 25958374.
  12. Sánchez-Borges, Mario; Suárez-Chacon, Raúl; Capriles-Hulett, Arnaldo; Caballero-Fonseca, Fernan; Iraola, Victor; Fernández-Caldas, Enrique (1 January 2009). "Pancake Syndrome (Oral Mite Anaphylaxis)". World Allergy Organization Journal. 2: 158. ISSN 1939-4551. doi:10.1186/1939-4551-2-5-91.
  13. Pitten, FA; Kalveram, CM; Krüger, U; Müller, G; Kramer, A (September 2000). "[Reduction of colonization of new mattresses with bacteria, moulds and house dust mites by complete mattress covers].". Der Hautarzt; Zeitschrift fur Dermatologie, Venerologie, und verwandte Gebiete. 51 (9): 655–60. PMID 11057391.
  14. Mahakittikun, V; Boitano, JJ; Ninsanit, P; Wangapai, T; Ralukruedej, K (December 2011). "Effects of high and low temperatures on development time and mortality of house dust mite eggs.". Experimental & applied acarology. 55 (4): 339–47. PMID 21751035.
  15. 1 2 Portnoy, Jay; Miller, Jeffrey D.; Williams, P. Brock; Chew, Ginger L.; Miller, J. David; Zaitoun, Fares; Phipatanakul, Wanda; Kennedy, Kevin; Barnes, Charles; Grimes, Carl; Larenas-Linnemann, Désirée; Sublett, James; Bernstein, David; Blessing-Moore, Joann; Khan, David; Lang, David; Nicklas, Richard; Oppenheimer, John; Randolph, Christopher; Schuller, Diane; Spector, Sheldon; Tilles, Stephen A.; Wallace, Dana (9 May 2017). "Environmental assessment and exposure control of dust mites: a practice parameter". Annals of allergy, asthma & immunology : official publication of the American College of Allergy, Asthma, & Immunology. 111 (6): 465–507. ISSN 1081-1206. PMC 5156485Freely accessible. doi:10.1016/j.anai.2013.09.018.
  16. "Expensive anti-dust mite bed covers 'are a waste of money'". Mail Online.
  17. Mite, House Dust. "Best fabrics to exclude dust mites". House Dust Mite Allergy Site.
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