Sarcoptes scabiei: Difference between revisions
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Upon infesting a human host, the adult female burrows into the ''[[stratum corneum]]'' (outermost layer of skin), where she deposits two or three eggs per day. These oval eggs are {{convert|0.1|-|0.15|mm|abbr=on}} long and hatch as larvae in three to four days. A female can lay up to 30 eggs, then dies at the end of a burrow. Upon hatching, the six-legged larvae migrate to the skin surface and then burrow into molting pouches, usually into hair follicles, where vesicles form (these are shorter and smaller than the adult burrows). After three to four days, the larvae molt, turning into eight-legged nymphs. This form molts a second time into slightly larger nymphs, before a final molt into adult mites. Adult mites then mate when the male penetrates the molting pouch of the female. Mating occurs only once, as that one event leaves the female fertile for the rest of her life (one to two months). The impregnated female then leaves the molting pouch in search of a suitable location for a permanent burrow. Once a site is found, the female creates her characteristic S-shaped burrow, laying eggs in the process. The female will continue lengthening her burrow and laying eggs for the duration of her life.<ref name="CDC"/> |
Upon infesting a human host, the adult female burrows into the ''[[stratum corneum]]'' (outermost layer of skin), where she deposits two or three eggs per day. These oval eggs are {{convert|0.1|-|0.15|mm|abbr=on}} long and hatch as larvae in three to four days. A female can lay up to 30 eggs, then dies at the end of a burrow. Upon hatching, the six-legged larvae migrate to the skin surface and then burrow into molting pouches, usually into hair follicles, where vesicles form (these are shorter and smaller than the adult burrows). After three to four days, the larvae molt, turning into eight-legged nymphs. This form molts a second time into slightly larger nymphs, before a final molt into adult mites. Adult mites then mate when the male penetrates the molting pouch of the female. Mating occurs only once, as that one event leaves the female fertile for the rest of her life (one to two months). The impregnated female then leaves the molting pouch in search of a suitable location for a permanent burrow. Once a site is found, the female creates her characteristic S-shaped burrow, laying eggs in the process. The female will continue lengthening her burrow and laying eggs for the duration of her life.<ref name="CDC"/> |
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== Scabies and |
== Scabies and COVID-19 == |
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In France, in an accommodation facility for dependent elderly people (EHPAD), in March 2020, [[ivermectin]] was used to treat profuse scabies. |
In France, in an accommodation facility for dependent elderly people (EHPAD), in March 2020, [[ivermectin]] was used to treat profuse scabies. |
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During the same period, probable or confirmed cases (PCR) of [[COVID-19]] were identified in several nursing homes in the region. Several residents presented "prefactors of risk, severity and mortality".]] |
During the same period, probable or confirmed cases (PCR) of [[COVID-19]] were identified in several nursing homes in the region. Several residents presented "prefactors of risk, severity and mortality".]] |
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Of the residents of the EHPAD treated with ivermectin, 90.9% (10/11) had minimal COVID-19, without oxygen or hospitalization, without any deaths. |
Of the residents of the EHPAD treated with ivermectin, 90.9% (10/11) had minimal COVID-19, without oxygen or hospitalization, without any deaths. |
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The medical team concluded that "Ivermectin may have a protective role" against severe forms of [[ |
The medical team concluded that "Ivermectin may have a protective role" against severe forms of [[COVID-19]] <ref>https://www.sciencedirect.com/science/article/pii/S015196382030627X</ref> |
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According to another hypothesis, it would be the [[scabies]] parasite which confers this protective role against |
According to another hypothesis, it would be the [[scabies]] parasite which confers this protective role against COVID-19. |
||
This hypothesis is based on the ability of [[Sarcoptes scabiei]] to modulate “for 4 to 8 weeks after initial infestation … the host’s inflammatory and immune responses” <ref>{{cite journal| vauthors = Morgan MS, Arlian LG, Markey MP | title = Sarcoptes scabiei Mites Modulate Gene Expression in Human Skin Equivalents | volume = 8(8) | pages = e71143 | year = 2013 | doi = 10.1371/journal.pone.0071143| journal = PLoS One }}</ref> <ref>{{cite journal | vauthors = Bhat SA, Mounsey KE, Liu X, et al. | title = Host immune responses to the itch mite, Sarcoptes scabiei, in humans. | volume = 10 | pages = 385 | year = 2017 | doi = 10.1186/s13071-017-2320-4 | journal = Parasites Vectors }}</ref>. |
This hypothesis is based on the ability of [[Sarcoptes scabiei]] to modulate “for 4 to 8 weeks after initial infestation … the host’s inflammatory and immune responses” <ref>{{cite journal| vauthors = Morgan MS, Arlian LG, Markey MP | title = Sarcoptes scabiei Mites Modulate Gene Expression in Human Skin Equivalents | volume = 8(8) | pages = e71143 | year = 2013 | doi = 10.1371/journal.pone.0071143| journal = PLoS One }}</ref> <ref>{{cite journal | vauthors = Bhat SA, Mounsey KE, Liu X, et al. | title = Host immune responses to the itch mite, Sarcoptes scabiei, in humans. | volume = 10 | pages = 385 | year = 2017 | doi = 10.1186/s13071-017-2320-4 | journal = Parasites Vectors }}</ref>. |
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It would be the modulation of the host's inflammatory and immune responses elicited by Sarcoptes scabiei, and not [[ivermectin]], that would have protected EHPAD residents from severe forms of |
It would be the modulation of the host's inflammatory and immune responses elicited by Sarcoptes scabiei, and not [[ivermectin]], that would have protected EHPAD residents from severe forms of COVID-19 <ref>https://www.beaubiophilo.com/2021/04/la-gale-et-la-covid-19-dans-une-ehpad.l-enigme-de-l-ivermectine-resolu.html</ref> |
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== See also == |
== See also == |
Revision as of 13:39, 18 April 2021
Sarcoptes scabiei | |
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Subphylum: | Chelicerata |
Class: | Arachnida |
Order: | Sarcoptiformes |
Family: | Sarcoptidae |
Genus: | Sarcoptes |
Species: | S. scabiei
|
Binomial name | |
Sarcoptes scabiei |
Sarcoptes scabiei or the itch mite is a parasitic mite (an arthropod) that burrows into skin and causes scabies. The mite is found in all parts of the world. Humans are not the only mammals that can become infected. Other mammals, such as wild and domesticated dogs and cats (in which it is one cause of mange) as well as ungulates, wild boars, bovids, wombats, koalas, and great apes are affected.[1]
The Italian biologists Giovanni Cosimo Bonomo and Diacinto Cestoni showed in the 17th century that scabies is caused by Sarcoptes scabiei; this discovery of the itch mite in 1687 marked scabies as the first disease of humans with a known microscopic causative agent.[2] The disease produces intense, itchy skin rashes when the impregnated female tunnels into the stratum corneum of the skin and deposits eggs in the burrow. The larvae, which hatch in three to 10 days, move about on the skin, moult into a nymphal stage, and then mature into adult mites. The adult mites live three to four weeks in the host's skin.
Clinical significance
The action of the mites moving within the skin and on the skin itself produces an intense itch that may resemble an allergic reaction in appearance. A delayed Type IV hypersensitivity reaction to the mites, their eggs, or scybala (packets of feces) occurs approximately 30 days after infestation. The presence of the eggs produces a massive allergic response that, in turn, produces more itching. Individuals who already are sensitized from a prior infestation can develop symptoms within hours.
Sarcoptes is a genus of skin parasites, and part of the larger family of mites collectively known as "scab mites". They are also related to the scab mite Psoroptes, also a mite that infests the skin of domestic animals. Sarcoptic mange affects domestic animals and similar infestations in domestic fowls cause the disease known as "scaly leg". The effects of S. scabiei are the most well-known, causing "scabies", or "the itch". The adult female mite, having been fertilized, burrows into the skin (usually at the hands or wrists, but other parts of the body may also be affected), and lays its eggs.
The burrowing is carried out using the mouth parts and special cutting surfaces on the front legs. While these are being used, the mite anchors itself with suckers on its feet. Eggs are laid in small numbers as the mite burrows, and, as these hatch, six-legged larvae climb out on to the skin and search for hair follicles, where they feed and moult (discard old cuticles to grow). In the hair follicles, the larvae show the first nymphal stages, with eight legs.
In the nymphal stages, the creature feeds and moults, and if male, gives rise to the adult. In the case of females, another moult occurs before adulthood. The female has more moults than a male, so takes longer—17 days compared to 9 to 11 days for a male—to reach adulthood. The female is about twice the size of the male.
Although the life-cycle is only about two weeks, individual patients are seldom found to have more than about a dozen mites on them. Even so, this number can cause agonising itching, especially at night, and severe damage to the skin often comes as a result of scratching, in particular by the introduction of infective bacteria, which may lead to impetigo or eczema.
The eggs are laid by the female at a rate of about two to three eggs a day for about two months. About 2% of the British population is thought to be infected with these mites, which take about 25 minutes to an hour to burrow into the skin.[citation needed]
The best conditions in which to harbor S. scabiei is in areas with frequent skin-to-skin contact, such as the hands and wrists, as the mites are transmitted by skin contact with carriers, and they very easily spread. Infestations of S. scabiei are commonly found in pigs. They significantly depress growth and feeding rate, but usually die out in around five days in typical farm conditions. However, once in a herd, the mites are very difficult to eliminate without great measures taken.
Morphology
Adult scabies mites are spherical, eyeless mites with four pairs of legs (two pairs in front and two pairs behind).[3] They are recognizable by their oval, ventrally flattened and dorsally convex tortoise-like bodies and multiple cuticular spines.[4] No demarcation into cephalothorax or abdomen occurs, and the mite's surface has folds covered with short bristles. The front legs end in long, tubular processes known as suckers, and the hind legs end in long bristles. The male has suckers on all legs except the third pair, which distinguishes it from the female. Females are 0.3–0.45 mm (0.012–0.018 in) long and 0.25–0.35 mm (0.0098–0.0138 in) wide, and males are just over half that size.[3]
Life cycle
The scabies mite Sarcoptes scabiei var. hominis goes through four stages in its lifecycle: egg, larva, nymph, and adult.
Upon infesting a human host, the adult female burrows into the stratum corneum (outermost layer of skin), where she deposits two or three eggs per day. These oval eggs are 0.1–0.15 mm (0.0039–0.0059 in) long and hatch as larvae in three to four days. A female can lay up to 30 eggs, then dies at the end of a burrow. Upon hatching, the six-legged larvae migrate to the skin surface and then burrow into molting pouches, usually into hair follicles, where vesicles form (these are shorter and smaller than the adult burrows). After three to four days, the larvae molt, turning into eight-legged nymphs. This form molts a second time into slightly larger nymphs, before a final molt into adult mites. Adult mites then mate when the male penetrates the molting pouch of the female. Mating occurs only once, as that one event leaves the female fertile for the rest of her life (one to two months). The impregnated female then leaves the molting pouch in search of a suitable location for a permanent burrow. Once a site is found, the female creates her characteristic S-shaped burrow, laying eggs in the process. The female will continue lengthening her burrow and laying eggs for the duration of her life.[3]
Scabies and COVID-19
In France, in an accommodation facility for dependent elderly people (EHPAD), in March 2020, ivermectin was used to treat profuse scabies. During the same period, probable or confirmed cases (PCR) of COVID-19 were identified in several nursing homes in the region. Several residents presented "prefactors of risk, severity and mortality".]] Of the residents of the EHPAD treated with ivermectin, 90.9% (10/11) had minimal COVID-19, without oxygen or hospitalization, without any deaths. The medical team concluded that "Ivermectin may have a protective role" against severe forms of COVID-19 [5] According to another hypothesis, it would be the scabies parasite which confers this protective role against COVID-19. This hypothesis is based on the ability of Sarcoptes scabiei to modulate “for 4 to 8 weeks after initial infestation … the host’s inflammatory and immune responses” [6] [7]. It would be the modulation of the host's inflammatory and immune responses elicited by Sarcoptes scabiei, and not ivermectin, that would have protected EHPAD residents from severe forms of COVID-19 [8]
See also
References
- ^ D. B. Pence; E. Ueckermann (2002). "Sarcoptic mange in wildlife" (PDF). Revue Scientifique et Technique de l'OIE. 21 (2): 385–98. doi:10.20506/rst.21.2.1335. PMID 11974622.
- ^ "The cause of scabies"
- ^ a b c "Scabies". Laboratory Identification of Parasites of Public Health Concern. Centers for Disease Control Division of Parasitic Diseases. 5 December 2008. Retrieved 9 February 2009.
- ^ L. Arlian (1989). "Biology, host relations and epidemiology of Sarcoptes scabiei". Annual Review of Entomology. 34: 139–61. doi:10.1146/annurev.en.34.010189.001035. PMID 2494934.
- ^ https://www.sciencedirect.com/science/article/pii/S015196382030627X
- ^ Morgan MS, Arlian LG, Markey MP (2013). "Sarcoptes scabiei Mites Modulate Gene Expression in Human Skin Equivalents". PLoS One. 8(8): e71143. doi:10.1371/journal.pone.0071143.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ Bhat SA, Mounsey KE, Liu X, et al. (2017). "Host immune responses to the itch mite, Sarcoptes scabiei, in humans". Parasites Vectors. 10: 385. doi:10.1186/s13071-017-2320-4.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ https://www.beaubiophilo.com/2021/04/la-gale-et-la-covid-19-dans-une-ehpad.l-enigme-de-l-ivermectine-resolu.html