Gamasoidosis
Gamasoidosis | |
---|---|
Other names | Acariasis, avian mite dermatitis, bird mite dermatitis, fowl mite dermatitis, dermanyssosis dermal capillaries (not to scale). |
Specialty | Dermatology, medical parasitology |
Symptoms | Pruritic erythematous papules, macules, urticaria, itching, skin irritation |
Causes | Avian mite infestation |
Treatment |
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Gamasoidosis, also known as dermanyssosis, is a frequently unrecognized form of
Diagnosis is challenging due to the small size of the mites, requiring microscopic examination by a medical entomologist for species identification. Misdiagnosis is also common due to ignorance and misinformation among medical professionals, scientists and pest controllers. Gamasoidosis is linked to avian mites infesting residential, public and agricultural spaces, with a potential health threat due to the transmission of zoonotic pathogens by D. gallinae. Treatment involves eradicating mites from the environment, with resistance to pesticides posing a challenge. The condition's epidemiology raises concerns about its impact on public health, emphasizing the need for awareness, interdisciplinary collaboration, improved diagnostic tools and a "One Health" approach.
Signs and symptoms
The species
Additional symptoms include pinpricks,
Causes
Gamasoidosis occurs after human contact with avian
Diagnosis
Diagnosis can be challenging as the small size of avian mites make them "barely visible to the unaided eye".[24] Identification of the species is best carried out by a medical entomologist using a microscope;[17] positive identification of species is critical for recommendation of suitable treatment methods.[4]
Diagnoses of gamasoidosis have a long history, with "cases [...] reported since the 17th century, documented in the leading medical literature since at least the 1920s."[23] Avian and rodent mites have been documented as infesting residential buildings, work spaces, schools and hospitals.[7][23] Despite this, there is considered to be widespread ignorance and misinformation "regarding human infestation with D. gallinae across healthcare, science and pest control fields", which in turn has led to increasing numbers of infestations and a dangerous propagation of the disease.[12]
Due to it being an uncommon diagnosis, physicians are generally not aware of the condition,
Many cases of gamasoidosis go unreported, suggesting that the actual incidence is higher than generally believed.[15] As a result, in cases of unexplained bites in residential areas, the involvement of D. gallinae should always be considered,[25] especially during late spring and early summer when wild birds make their nests.[8]
The life cycle of the mite is another important method of diagnosis.[12] Hematophagic mites generally feed at night,[26] but may also feed during the day if the room is sufficiently dark.[27] Attacks in public and office buildings tend to occur during the daytime.[4] O. bursa is an exception as it generally remains on its hosts and will feed during the day.[28] D. gallinae may be commonly found in the bedroom or where the patient sleeps, as they prefer to stay close to their host for optimal feeding.[29] D. gallinae generally visit their host for up to 1–2 hours, leave after completing their blood meal,[citation needed] and typically feed every 2–4 days.[23] They are able to move extremely quickly,[5] and can take less than 1 second to bite; enough time to inject their saliva and to induce rash and itching.[citation needed] They locate potential hosts through temperature changes, vibrations, chemical signals and CO2.[23]
It has been hypothesized the D. gallinae is capable of 'learning'[30] "to associate non-host skin with a blood-meal if the host selection process permitted feeding."[23] Combined with a generalist approach to finding hosts and the capability of digesting non-avian blood could potentially explain their documented host expansion to mammals and humans.[23]
There is documented "co-occurrence of gamasoidosis and various immunosuppressive disorders"[23] and physicians should bear in mind that immunocompromised patients, patients that take corticosteroids, and patients with dementia may have a more severe infestation than healthy patients,[12] Despite this, while immunosuppression can "increase susceptibility, it is not necessarily a pre-requisite for infestation".[23]
Dermatoscopy can help to exclude the diagnosis of delusional parasitosis.[31]
Pets such as canaries,[13] cats,[32] dogs,[33] hamsters,[citation needed] and gerbils[5] can be infested also. As a result, it has been argued that veterinarians should be aware that non-avian attacks of D. gallinae are possible, and may be underestimated, and that there is a need for increased awareness among practitioners.[33]
Prevention
Preventing gamasoidosis in residential areas is achieved by avoiding the proliferation of avian mites, by refraining from feeding birds and utilizing nets on building terraces to deter nesting in close proximity to human homes. It is crucial to remove and clean nests during the nesting season before birds can establish them and lay eggs.[34]
Treatment
Treatment of gamasoidosis can be difficult; avian mites have developed resistance to multiple pesticides and the different species concerned display varied ecologies that necessitate divergent treatment approaches.[12]
For a patient to achieve full recovery, the mites must be eradicated from the person's environment through the removal of nests and appropriate disinfestation of infested areas by a pest control professional.[21] Total eradication can be difficult to achieve as D. gallinae can survive for longer than nine months without a blood meal,[35][36] and is capable of both digesting,[37] and completing its life cycle on human blood alone.[10] Additionally, populations can expand rapidly, with a single female capable of laying up to "30 eggs in their lifetime";[38] prolonged darkness has been found to significantly promote mite population growth.[39]
Patients are advised to:[4]
- Shower frequently.
- Wash clothes at 60 °C.
- Remove the source of the mites, such as bird nests.
- Perform regular intensive vacuum cleaning and steam cleaning — the vacuum bag should be placed in a sealed bag and thrown away outside in a contained bin.
- Disinfect infested areas with pyrethroids.
- Wash of textiles or steam cleaning (cushions, carpets, curtains) at 60 °C, and drying them using an automated laundry drier.
Antihistamines and topical corticosteroids can be used for temporary relief of symptoms.[40]
In the case of scalp infestation, treatments with 1% permethrin shampoo can be used to remove the mites.[26] For ear canal infestation, aural toilet is recommended with a course of 1% permethrin to be used as ear drops and for infected wax to be removed by a professional.[9]
Ineffective and often prolonged attempts to eradicate infestations can result in economic issues, due to a significant financial outlay when patients relocate or attempt to control these infestations, as well as psychological problems such as depression.[12]
For pets, there are currently no registered products for treating gamasoidosis in mammals. The scientific literature documents medications which have been used off-label to treat the condition, including sarolaner in dogs, selamectin in cats and permethrin in horses.[41]
Epidemiology
Gamasoidosis, particularly caused by D. gallinae, is source of growing concern in
D. gallinae may pose a threat to
See also
- Acariasis
- Chigger bite
- Rodent mite dermatitis
- Skin lesion
References
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- ^ a b c d e f Sparagano O, Finn R, Mul M, Giangaspero A, Cafiero MA, Willingham N, Lyons K, Lovers A, George D (2017). "The emergence of Dermanyssus gallinae as an arthropod pest in urban context and the "one Health" approach" (PDF). Proceedings of the Ninth International Conference on Urban Pests: 203–208.
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- ^ a b Cafiero MA, Camarda A, Galante D, Mancini G, Circella E, Cavaliere N, Santagada G, Caiazzo M, Lomuto M (2013). "Outbreaks of red mite (Dermanyssus gallinae) dermatitis in city-dwellers: an emerging urban epizoonosis". Hypothesis in Clinical Medicine: 413–24.
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Further reading
- Kumavat, Shrikant (2021-08-02). "Avian Mite Dermatitis: A Diagnostic Challenge". Indian Dermatology Online Journal. 12 (5): 784–785. PMID 34667779.
- Moroni, Barbara; Barlaam, Alessandra; Misia, Ambra Lisa; Peano, Andrea; Rossi, Luca; Giangaspero, Annunziata (2021-10-01). "Dermanyssus gallinae in non-avian hosts: A case report in a dog and review of the literature". Parasitology International. 84: 102378. PMID 33975002.
- Sioutas, Georgios; Minoudi, Styliani; Tiligada, Katerina; Chliva, Caterina; Triantafyllidis, Alexandros; Papadopoulos, Elias (March 2021). "Case of Human Infestation with Dermanyssus gallinae (Poultry Red Mite) from Swallows (Hirundinidae)". Pathogens. 10 (3): 299. PMID 33806588.
- Cafiero, Maria Assunta; Viviano, Enza; Lomuto, Michele; Raele, Donato Antonio; Galante, Domenico; Castelli, Elena (2018). "Dermatitis due to Mesostigmatic mites (Dermanyssus gallinae, Ornithonyssus [O.] bacoti, O. bursa, O. sylviarum) in residential settings". JDDG: Journal der Deutschen Dermatologischen Gesellschaft. 16 (7): 904–906. S2CID 49378890.