Body louse

Last updated

Body louse
Body lice.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Psocodea
Family: Pediculidae
Genus: Pediculus
Species:
P. humanus
Subspecies:
P. h. humanus
Trinomial name
Pediculus humanus humanus

The body louse (Pediculus humanus humanus, also known as Pediculus humanus corporis) or the cootie is a hematophagic ectoparasite louse that infests humans. [1] It is one of three lice which infest humans, the other two being the head louse, and the crab louse or pubic louse. [2]

Contents

Body lice may lay eggs on the host hairs and clothing, [3] but clothing is where the majority of eggs are usually secured. [4]

Since body lice cannot jump or fly, they spread by direct contact with another person or more rarely by contact with clothing or bed sheets that are infested. [5]

Body lice are disease vectors and can transmit pathogens that cause human diseases such as epidemic typhus, trench fever, and relapsing fever. [6] In developed countries, infestations are only a problem in areas of poverty where there is poor body hygiene, crowded living conditions, and a lack of access to clean clothing. [7] Outbreaks can also occur in situations where large groups of people are forced to live in unsanitary conditions. These types of outbreaks are seen globally in prisons, homeless populations, refugees of war, or when natural disasters occur and proper sanitation is not available. [8]

Life cycle and morphology

Pediculus humanus humanus (the body louse) is indistinguishable in appearance from Pediculus humanus capitis (the head louse), and the two subspecies will interbreed under laboratory conditions. [9] In their natural state, however, they occupy different habitats and do not usually meet. [10] They can feed up to five times a day. [11] Adults can live for about thirty days, but if they are separated from their host they will die within two days. [12] If the conditions are favorable, the body louse can reproduce rapidly. After the final molt, female and male lice will mate immediately. A female louse can lay up to 200–300 eggs during her lifetime. [13]

The life cycle of the body louse consists of three stages: egg, nymph, and adult.

  1. Eggs (also called nits, see head louse nits) are attached to the clothes or hairs by the female louse, using a secretion of the accessory glands that holds the egg in place until it hatches, while the nits (empty egg shells) may remain for months on the clothing. They are oval and usually yellow to white in color and at optimal temperature and humidity, the new lice will hatch from the egg within 6 to 9 days after being laid. [14]
  2. A nymph is an immature louse that hatches from the egg. Immediately after hatching it starts feeding on the host's blood and then returns to the clothing until the next blood-meal. The nymph will molt three times before the adult louse emerges. The nymph usually takes 9–12 days to develop into an adult louse. [14]
  3. The adult body louse is about 2.5–3.5 mm long, and like a nymph it has six legs. It is wingless and is tan to grayish-white in color.
Life cycle of Pediculus humanus capitis, which is similar to the body louse. The location of the body louse eggs differs from that of head louse eggs. The head louse will lay eggs on hair roots, whereas a body louse will lay eggs in articles of clothing. This picture represents the louse from egg to adult and the process of going through three molts to achieve adulthood. Pediculus humanus development numberedblackwhite.png
Life cycle of Pediculus humanus capitis, which is similar to the body louse. The location of the body louse eggs differs from that of head louse eggs. The head louse will lay eggs on hair roots, whereas a body louse will lay eggs in articles of clothing. This picture represents the louse from egg to adult and the process of going through three molts to achieve adulthood.

The two P. humanus subspecies are morphologically quite identical. Their heads are short with two antennae that are split into five segments each, compacted thorax, seven segmented abdomen with lateral paratergal plates. [14]

Origins

The body louse diverged from the head louse around 170,000 years ago, establishing the latest date for the adoption of clothing by humans. [15] [16] [17] [18] Body lice were first described by Carl Linnaeus in the 10th edition of Systema Naturae . The human body louse had its genome sequenced in 2010, and at that time it had the smallest known insect genome. [19] The body louse belongs to the phylum Arthropoda, class Insecta, order Phthiraptera and family Pediculidae. There are roughly 5,000 species of lice described, with 4,000 parasitizing birds and an additional 800 special parasites of mammals worldwide. [20] Lice on mammals originate on a common ancestor that lived on Afrotheria that originally acquired it from via host-switching from an ancient avian host. [21]

Signs and symptoms

Since an infestation can include thousands of lice, with each of them biting five times a day, the bites can cause strong itching, especially at the beginning of the infestation, that can result in skin excoriations and secondary infections. [5] If an individual is exposed to a long-term infestation, they may experience apathy, lethargy and fatigue.[ citation needed ]

Treatment

In principle, body louse infestations can be controlled by periodically changing clothes and bedding. Thereafter, clothes, towels, and bedding should be washed in hot water (at least 50 °C or 122 °F) and dried using a hot cycle. [22] The itching can be treated with topical and systemic corticosteroids and antihistamines. [23] In case of secondary infections, antibiotics can be used to control the bacterial infection. When regular changing of clothes and bedding is not possible, the infested items could be treated with insecticides. [22]

Diseases caused

Unlike other species of lice, body lice can act as vectors of disease. The most important pathogens which are transmitted by them are Rickettsia prowazekii (causes epidemic typhus), Borrelia recurrentis (causes relapsing fever), and Bartonella quintana (causes trench fever).

Epidemic typhus can be treated with one dose of doxycycline, but if left untreated, the fatality rate is 30%. [14] Relapsing fever can be treated with tetracycline and depending on the severity of the disease, if left untreated it has a fatality rate between 10 and 40%. [14] Trench fever can be treated with either doxycycline or gentamicin, if left untreated the fatality rate is less than 1%. [14]

See also

Related Research Articles

<span class="mw-page-title-main">Epidemic typhus</span> Medical condition

Epidemic typhus, also known as louse-borne typhus, is a form of typhus so named because the disease often causes epidemics following wars and natural disasters where civil life is disrupted. Epidemic typhus is spread to people through contact with infected body lice, in contrast to endemic typhus which is usually transmitted by fleas.

<span class="mw-page-title-main">Louse</span> Order of insects

Louse is the common name for any member of the clade Phthiraptera, which contains nearly 5,000 species of wingless parasitic insects. Phthiraptera has variously been recognized as an order, infraorder, or a parvorder, as a result of developments in phylogenetic research.

<span class="mw-page-title-main">Sucking louse</span> Suborder of insects

Sucking lice have around 500 species and represent the smaller of the two traditional superfamilies of lice. As opposed to the paraphyletic chewing lice, which are now divided among three suborders, the sucking lice are monophyletic.

<span class="mw-page-title-main">Crab louse</span> Species of insect

The crab louse or pubic louse is an insect that is an obligate ectoparasite of humans, feeding exclusively on blood. The crab louse usually is found in the person's pubic hair. Although the louse cannot jump, it can also live in other areas of the body that are covered with coarse hair, such as the perianal area, the entire body, and the eyelashes.

<span class="mw-page-title-main">Pediculosis</span> Medical condition

Pediculosis is an infestation of lice from the sub-order Anoplura, family Pediculidae. Accordingly, the infestation with head lice is named pediculosis capitis, while this with body lice, pediculosis corporis. Although pediculosis in humans may properly refer to lice infestation of any part of the body, the term is sometimes used loosely to refer to pediculosis capitis, the infestation of the human head with the specific head louse.

<span class="mw-page-title-main">Head louse</span> Insect parasite of humans

The head louse is an obligate ectoparasite of humans. Head lice are wingless insects that spend their entire lives on the human scalp and feed exclusively on human blood. Humans are the only known hosts of this specific parasite, while chimpanzees and bonobos host a closely related species, Pediculus schaeffi. Other species of lice infest most orders of mammals and all orders of birds.

<i>Pediculus humanus</i> Species of louse

Pediculus humanus is a species of louse that infects humans. It comprises two subspecies:

Trench fever is a moderately serious disease transmitted by body lice. It infected armies in Flanders, France, Poland, Galicia, Italy, Macedonia, Mesopotamia, Russia and Egypt in World War I. Three noted cases during WWI were the authors J. R. R. Tolkien, A. A. Milne, and C. S. Lewis. From 1915 to 1918 between one-fifth and one-third of all British troops reported ill had trench fever while about one-fifth of ill German and Austrian troops had the disease. The disease persists among the homeless. Outbreaks have been documented, for example, in Seattle and Baltimore in the United States among injection drug users and in Marseille, France, and Burundi.

<span class="mw-page-title-main">Treatment of human lice</span>

The treatment of human lice is the removal of head lice parasites from human hair. It has been debated and studied for centuries. However, the number of cases of human louse infestations has increased worldwide since the mid-1960s, reaching hundreds of millions annually. There is no product or method that assures 100% destruction of the eggs and hatched lice after a single treatment. However, there are a number of treatment modalities that can be employed with varying degrees of success. These methods include chemical treatments, natural products, combs, shaving, hot air, and silicone-based lotions.

<span class="mw-page-title-main">Menoponidae</span> Family of lice

Menoponidae is a monophyletic family of lice in the superfamily of chewing lice, Amblycera, often referred to as the chicken body louse family. They are ectoparasites of a wide range of birds including chickens, which makes them important to understand for veterinary science and for human health. However, Menoponidae are not exclusive to poultry and are common parasites for migratory birds, with more and more species being discovered every year.

Relapsing fever is a vector-borne disease caused by infection with certain bacteria in the genus Borrelia, which is transmitted through the bites of lice, soft-bodied ticks, or hard-bodied ticks.

Bartonella quintana, originally known as Rochalimaea quintana, and "Rickettsia quintana", is a bacterium transmitted by the human body louse that causes trench fever. This bacterial species caused outbreaks of trench fever affecting 1 million soldiers in Europe during World War I.

<span class="mw-page-title-main">Head lice infestation</span> Medical condition

Head lice infestation, also known as pediculosis capitis, is the infection of the head hair and scalp by the head louse. Itching from lice bites is common. During a person's first infection, the itch may not develop for up to six weeks. If a person is infected again, symptoms may begin much more quickly. The itch may cause problems with sleeping. Generally, however, it is not a serious condition. While head lice appear to spread some other diseases in Africa, they do not appear to do so in Europe or North America.

<span class="mw-page-title-main">No nit policy</span> Public health policy

No nit policy is a public health policy implemented by some education authorities to prevent the transmission of head lice infestation. The "no nit" policy requires the sending home and barring of all children who have nits on their hair from controlled settings such as school, summer camp or day care facilities. The CDC, American Academy of Pediatrics (AAP) and the National Association of School Nurses (NASN) advocate that "no-nit" policies should be discontinued, due in part because nits, the eggs or empty egg shells, are not transmissible and the burden of unnecessary absenteeism to the students, families and communities far outweighs the risks associated with head lice. Proponents of the no-nit policy counter that only a consistently nit-free child can be reliably shown to be infestation-free. That is, the presence of nits serves as a proxy for infestation status. Proponents argue that such a proxy is necessary because lice screening is prone to false negative conclusions.

Human parasites include various protozoa and worms.

<span class="mw-page-title-main">Pediculosis corporis</span> Medical condition

Pediculosis corporis or Vagabond's disease is a cutaneous condition caused by body lice that lay their eggs on clothing and to a lesser extent on human hairs.

<span class="mw-page-title-main">Pediculosis pubis</span> Infestation by the pubic louse

Pediculosis pubis is an infestation by the pubic louse, Pthirus pubis, a wingless insect which feeds on blood and lays its eggs (nits) on mainly pubic hair. Less commonly, hair near the anus, armpit, beard, eyebrows, moustache, and eyelashes may be involved. It is usually acquired during sex, but can be spread via bedding, clothing and towels, and is more common in crowded conditions where there is close contact between people.

<i>Trichodectes canis</i> Species of louse

Trichodectes canis, also known as canine chewing louse, is a chewing louse found on domesticated dogs and wild canids throughout the world. T. canis is a well-known vector for the dog tapeworm, Dipylidium caninum. T. canis usually does not present any major problems to the host, however, can be very irritating in heavy infestations. In North America and most developed countries, T. canis infestation of domesticated dogs is very uncommon as long as they are properly cared for and healthy. Poorly taken care of dogs are more prone to getting a lice infestation.

<i>Pediculus</i> Genus of lice

Pediculus is a genus of sucking lice, the sole genus in the family Pediculidae. Pediculus species are ectoparasites of primates.

Nakedness and clothing use are characteristics of humans related by evolutionary and social prehistory. The major loss of body hair distinguishes humans from other primates. Current evidence indicates that anatomically modern humans were naked in prehistory for at least 90,000 years before the invention of clothing. Today, isolated Indigenous peoples in tropical climates continue to be without clothing in many everyday activities.

References

  1. Zimmer, Carl (8 November 2023). "Lice Genes Offer Clues to Ancient Human History - The jumpy parasites have followed our ancestors around for at least 25 million years, adapting along with us through major upheavals". The New York Times . Archived from the original on 9 November 2023. Retrieved 9 November 2023.
  2. Prevention, CDC-Centers for Disease Control and (2021-01-11). "CDC - Lice". www.cdc.gov. Archived from the original on 2020-04-06. Retrieved 2024-05-03.
  3. Sulica, VI; Graham, JH (August 1981). "Generalized pediculosis corporis. Microscopic study of hairs". Journal of Cutaneous Pathology. 8 (4): 308–11. doi:10.1111/j.1600-0560.1981.tb01015.x. PMID   7309944.
  4. Nuttall, George H. F. (November 1917). "The Biology of Pediculus humanus". Parasitology. 10 (1): 80–185. doi:10.1017/S0031182000003747. ISSN   0031-1820. Archived from the original on 2024-07-26. Retrieved 2024-01-03.
  5. 1 2 "Body Lice". medlineplus.gov. Archived from the original on 2024-05-03. Retrieved 2024-05-03.
  6. Prevention, CDC-Centers for Disease Control and (2021-07-08). "CDC - Lice - Body Lice - Frequently Asked Quesetions (FAQs)". www.cdc.gov. Archived from the original on 2020-11-12. Retrieved 2024-05-03.
  7. Powers, Jim; Badri, Talel (2020), "Pediculosis Corporis", StatPearls, StatPearls Publishing, PMID   29489282, archived from the original on 2021-11-02, retrieved 2020-02-08
  8. "Lice (Phthiraptera) - Factsheet for health professionals". www.ecdc.europa.eu. 2022-02-15. Archived from the original on 2024-06-11. Retrieved 2024-05-03.
  9. Tovar-Corona, Jaime M.; Castillo-Morales, Atahualpa; Chen, Lu; Olds, Brett P.; Clark, John M.; Reynolds, Stuart E.; Pittendrigh, Barry R.; Feil, Edward J.; Urrutia, Araxi O. (2015). "Alternative Splice in Alternative Lice". Molecular Biology and Evolution. 32 (10): 2749–2759. doi:10.1093/molbev/msv151. ISSN   0737-4038. PMC   4576711 . PMID   26169943.
  10. "Head and body lice appear to be the same species, genetic study finds". ScienceDaily. Archived from the original on 2024-05-03. Retrieved 2024-05-03.
  11. Powers, Jim; Badri, Talel (2024), "Pediculosis Corporis", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID   29489282, archived from the original on 2021-11-02, retrieved 2024-05-03
  12. Prevention, CDC-Centers for Disease Control and (2019-09-12). "CDC - Lice - Body Lice - Biology". www.cdc.gov. Archived from the original on 2024-05-03. Retrieved 2024-05-03.
  13. "Body Lice". www.nyc.gov. Archived from the original on 2024-05-03. Retrieved 2024-05-03.
  14. 1 2 3 4 5 6 Raoult, Didier; Roux, Veronique (1999). "The Body Louse as a Vector of Reemerging Human Diseases". Clinical Infectious Diseases. 29 (4): 888–911. doi: 10.1086/520454 . ISSN   1058-4838. PMID   10589908.
  15. Ralf Kittler; Manfred Kayser; Mark Stoneking (2003). "Molecular evolution of Pediculus humanus and the origin of clothing" (PDF). Current Biology . 13 (16): 1414–1417. Bibcode:2003CBio...13.1414K. doi: 10.1016/S0960-9822(03)00507-4 . PMID   12932325. S2CID   15277254. Archived from the original on 2007-07-10. Retrieved 2008-09-01.{{cite journal}}: CS1 maint: bot: original URL status unknown (link)
  16. Stoneking, Mark. "Erratum: Molecular evolution of Pediculus humanus and the origin of clothing" . Retrieved March 24, 2008.[ permanent dead link ] Archive
  17. "Lice DNA study shows humans first wore clothes 170,000 years ago". January 7, 2011. Archived from the original on November 15, 2019. Retrieved November 26, 2022.
  18. Toups, MA; Kitchen, A; Light, JE; Reed, DL (2010). "Origin of Clothing Lice Indicates Early Clothing Use by Anatomically Modern Humans in Africa". Molecular Biology and Evolution. 28 (1): 29–32. doi:10.1093/molbev/msq234. PMC   3002236 . PMID   20823373.
  19. Kirkness EF, Haas BJ, et al. (2010). "Genome sequences of the human body louse and its primary endosymbiont provide insights into the permanent parasitic lifestyle". Proceedings of the National Academy of Sciences. 107 (27): 12168–12173. Bibcode:2010PNAS..10712168K. doi: 10.1073/pnas.1003379107 . ISSN   0027-8424. PMC   2901460 . PMID   20566863.
  20. Smith, V.S; Broom, Y.; Dalgleish, R. "Phthiraptera.info". International Society of Phthirapterists. Archived from the original on 23 November 2021. Retrieved 23 November 2021.
  21. Johnson, Kevin P.; Matthee, Conrad; Doña, Jorge (2022). "Phylogenomics reveals the origin of mammal lice out of Afrotheria". Nature Ecology & Evolution. 6 (8): 1205–1210. doi:10.1038/s41559-022-01803-1. ISSN   2397-334X.
  22. 1 2 "Body lice-Body lice - Diagnosis & treatment". Mayo Clinic. Archived from the original on 2024-05-03. Retrieved 2024-05-03.
  23. "Body Lice (Pediculosis): Symptoms, Treatment & Prevention". Cleveland Clinic. Archived from the original on 2024-05-03. Retrieved 2024-05-03.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.