Acariasis Explained

Acariasis
Field:Infectious disease

Acariasis is an infestation with mites.

Terminology

There are several complications with the terminology:

Acariasis is a term for a rash, caused by mites, sometimes with a papillae (pruritic dermatitis) or papule (papular urticaria), and usually accompanied by a hive (urticaria) and severe itching sensations. An example of such an infection is scabies or gamasoidosis.

The closely related term, mange, is commonly used with domestic animals and also livestock and wild mammals, whenever hair-loss is involved. Sarcoptes and Demodex species are involved in mange, but both of these genera are also involved in human skin diseases (by convention only, not called mange). Sarcoptes in humans is especially severe symptomatically, and causes the condition scabies noted above.

Another genus of mite which causing itching but rarely causes hair loss because it burrows only at the keratin level, is Cheyletiella. Various species of this genus of mite also affect a wide variety of mammals, including humans.

Mite infestation sometimes implies an ectoparasitic, cutaneous condition such as dermatitis. However, it is possible for mites to invade the gastrointestinal and urinary tracts.[1]

MeSH uses the term "Mite Infestations" as pertaining to Acariformes. However, mites not in this grouping can be associated with human disease. (See "Classification", below.)

The term Acari refers to ticks and mites together, which can cause ambiguity. (Mites are a paraphyletic grouping).

Mites can be associated with disease in at least three different ways: (1) cutaneous dermatitis, (2) production of allergin, and (3) as a vector for parasitic diseases. The language used to describe mite infestation often does not distinguish among these.

Classification

Most of the mites which cause this condition to humans are from the order Acari, hence the name Acariasis. The entire taxonomic classification to order would be:

Specific species involved include:

Some of these reflect reports existing of human infestation by mites previously believed not to prey on humans.[3]

Diagnosis

Medical doctors and dermatologists can still misdiagnose this rash as many are unfamiliar with parasitism, not trained in it, or if they do consider it, cannot see the mites.

Different methods for detection are recognized for different acariasis infections. Human acariasis with mites can occur in the gastrointestinal tract, lungs, urinary tracts and other organs which not have been well-studied. For intestinal acariasis, symptoms such as abdominal pain, diarrhea, and hematochezia have been reported. Diagnosis of intestinal acariasis is confirmed by the detection of mites in stools, which must be microscopically examined to confirm the specific species of mite causing the infestation. [4] For pulmonary acariasis, the presence of mites in sputum is determined by identifying the presence and number of mites in the sputum of patients with respiratory symptoms. Both physical and chemical methods for liquefaction of sputum have been developed.[5]

Notes and References

  1. 12679953 . 2003 . Li . CP . Cui . YB . Wang . J . Yang . QG . Tian . Y . Acaroid mite, intestinal and urinary acariasis . 9 . 4 . 874–77 . World Journal of Gastroenterology. 10.3748/wjg.v9.i4.874 . 4611470 . free .
  2. 63–80 . 10.1007/s10493-009-9239-1 . Candidate predators for biological control of the poultry red mite Dermanyssus gallinae . 2009 . Lesna . Izabela . Wolfs . Peter . Faraji . Farid . Roy . Lise . Komdeur . Jan . Sabelis . Maurice W. . Experimental and Applied Acarology . 48 . 19184469 . 1–2. 19319704 .
  3. http://www.birdmites.org/research.html "Research and Reference Articles"
  4. 17120963 . 2006 . Cui . YB . Ling . YZ . Zhou . Y . Feng . ZW . Xing . YR . Zhang . SW . An effective indirect fluorescent antibody test for diagnosis of intestinal acariasis . 37 . 3 . 452–55 . The Southeast Asian Journal of Tropical Medicine and Public Health.
  5. 55–59 . 10.1007/s10493-007-9076-z . Experimental method for isolating and identifying dust mites from sputum in pulmonary acariasis . 2007 . Martínez-Girón . Rafael . Woerden . Hugo Cornelis . Ribas-Barceló . Andrés . Experimental and Applied Acarology . 42 . 17549588 . 1. 19663480 .