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Head louse

January 29, 2023

This article is about the animal. For the infestation known as pediculosis capitis, see Head lice infestation.

The head louse (Pediculus humanus capitis) is an obligate ectoparasite of humans.[1] Head lice are wingless insects that spend their entire lives on the human scalp and feeding exclusively on human blood.[1] 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.

Head louse
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Psocodea
Family: Pediculidae
Genus: Pediculus
Species:
P. humanus
Subspecies:
P. h. capitis
Trinomial name
Pediculus humanus capitis
De Geer, 1767
Synonyms

Pediculus capitis (De Geer, 1767)

Pediculus humanus capitis by Des Helmore

Lice differ from other hematophagic ectoparasites such as fleas in spending their entire lifecycle on a host.[2] Head lice cannot fly, and their short, stumpy legs render them incapable of jumping, or even walking efficiently on flat surfaces.[2]

The non-disease-carrying head louse differs from the related disease-carrying body louse (Pediculus humanus humanus) in preferring to attach eggs to scalp hair rather than to clothing. The two subspecies are morphologically almost identical, but do not normally interbreed. From genetic studies, they are thought to have diverged as subspecies about 30,000–110,000 years ago, when many humans began to wear a significant amount of clothing.[3][4] A much more distantly related species of hair-clinging louse, the pubic or crab louse (Pthirus pubis), also infests humans. It is morphologically different from the other two species and is much closer in appearance to the lice which infest other primates.[5] Louse infestation of the body is known as pediculosis, pediculosis capitis for head lice, pediculosis corporis for body lice, and phthiriasis for pubic lice.[6]

Head lice (especially in children) have been, and still are, subject to various eradication campaigns. Unlike body lice, head lice are not the vectors of any known diseases, however rare secondary infections can result from scratching at bites. Head louse infestations may be beneficial in helping to foster a natural immune response against lice which helps humans in defense against the far more dangerous body louse, which is capable of transmitting dangerous diseases.[7]

Adult morphology

Head louse crawling on hairbrush showing how tiny it is

Like other insects of the suborder Anoplura, adult head lice are small (2.5–3 mm long), dorsoventrally flattened (see anatomical terms of location), and wingless.[8] The thoracic segments are fused, but otherwise distinct from the head and abdomen, the latter being composed of seven visible segments.[9] Head lice are grey in general, but their precise color varies according to the environment in which they were raised.[9] After feeding, consumed blood causes the louse body to take on a reddish color.[9]

Head

 
Male head louse, adult
 
Female head louse, adult

One pair of antennae, each with five segments, protrudes from the insect's head. Head lice also have one pair of eyes. Eyes are present in all species within the Pediculidae family, but are reduced or absent in most other members of the Anoplura suborder.[8] Like other members of the Anoplura, head louse mouthparts are highly adapted for piercing the skin and sucking blood.[8] These mouth parts are retracted into the insect's head except during feeding.[9][10]

Thorax

 
Head louse gripping a human hair

Six legs project from the fused segments of the thorax.[9] As is typical in the Anoplura, these legs are short and terminate with a single claw and opposing "thumb".[9] Between its claw and thumb, the louse grasps the hair of its host.[9] With their short legs and large claws, lice are well adapted to clinging to the hair of their host. These adaptations leave them incapable of jumping, or even walking efficiently on flat surfaces. Lice can climb up strands of hair very quickly, allowing them to move quickly and reach another host.[2]

Abdomen

Seven segments of the louse abdomen are visible.[9] The first six segments each have a pair of spiracles through which the insect breathes.[9] The last segment contains the anus and (separately) the genitalia.[9]

Sex differences

In male lice, the front two legs are slightly larger than the other four. This specialized pair of legs are used for holding the female during copulation. Males are slightly smaller than females and are characterized by a pointed end of the abdomen and a well-developed genital apparatus visible inside the abdomen. Females are characterized by two gonopods in the shape of a W at the end of their abdomens.

Eggs and nits

 
Head louse egg (nit) attached to hair shaft of host

Like most insects, head lice are oviparous. Females lay about three or four eggs per day. Louse eggs (also known as nits), are attached near the base of a host hair shaft.[11][12] Eggs are usually laid on the base of the hair, 3–5 mm off the scalp surface.[11][12] In warm climates, and especially the tropics, eggs may be laid 6 inches (15 cm) or more down the hair shaft.[13]

To attach an egg, the adult female secretes a glue from her reproductive organ. This glue quickly hardens into a "nit sheath" that covers the hair shaft and large parts of the egg except for the operculum, a cap through which the embryo breathes.[12] The glue was previously thought to be chitin-based, but more recent studies have shown it to be made of proteins similar to hair keratin.[12]

Each egg is oval-shaped and about 0.8 mm in length.[12] They are bright, transparent, and tan to coffee-colored so long as they contain an embryo, but appear white after hatching.[12][13] Head lice hatch typically six to nine days after oviposition.[11][14]

After hatching, the louse nymph leaves behind its egg shell, still attached to the hair shaft. The empty egg shell remains in place until physically removed by abrasion or the host, or until it slowly disintegrates, which may take six or more months.[14]

SEM images of a head louse egg
  •  

    Louse egg attached to a hair shaft of its host

  •  

    The female reproductive organ secretes a glue that quickly hardens into a "nit sheath" to cover the hair shaft and large parts of the egg, except for the operculum.

  •  

    The operculum allows the embryo to breathe.

  •  

    A first-stage nymph hatching from an egg

  •  

    A first-stage nymph hatching from an egg (detail)

Empty shells are mat, collapsed and white in color. The term nit may include any of the following:[15]

  • Viable eggs that will eventually hatch
  • Remnants of already-hatched eggs (nits)
  • Nonviable eggs (dead embryo) that will never hatch

Of these three, only eggs containing viable embryos have the potential to infest or reinfest a host.[16] However, a no nit policy is a common public health measure to prevent transmission of lice. Some authors have therefore restricted the definition of nit to describe only a hatched or nonviable egg:

 
Louse hatching

In many languages, the terms used for the hatched eggs, which were obvious for all to see, have subsequently become applied to the embryonated eggs that are difficult to detect. Thus, the term "nit" in English is often used for both. However, in recent years, my colleagues and I have felt the need for some simple means of distinguishing between the two without laborious qualification. We have, therefore, come to reserve the term "nit" for the hatched and empty egg shell and refer to the developing embryonated egg as an "egg".

— Ian F. Burgess (1995)[14]

The empty eggshell, termed a nit...

— J. W. Maunder (1983)[2]

...nits (dead eggs or empty egg cases)...

— Kosta Y. Mumcuoglu and others (2006)[17]

Others have retained the broad definition, while simultaneously attempting to clarify its relevance to infestation:

In the United States the term "nit" refers to any egg regardless of its viability.

— Terri Lynn Meinking (1999)[13]

Because nits are simply egg casings that can contain a developing embryo or be empty shells, not all nits are infective.

— L. Keoki Williams and others (2001)[11]

Head lice eggs (nits) are brown or white (empty shells) and attached to the hair

— NHS (2018)[18]

In British and Irish slang the term "nit" is often used, across different age groups, to refer to the head lice themselves.[19][20][21][22]

Development and nymphs

 
Development of Pediculus humanus humanus (body lice), which is similar to that of head lice (Pediculus humanus capitis)

Head lice, like other insects of the order Phthiraptera, are hemimetabolous.[1][10] Newly hatched nymphs will moult three times before reaching the sexually-mature adult stage.[1] Thus, mobile head lice populations may contain eggs, nits, three nymphal instars, and the adults (male and female) (imago).[1] Metamorphosis during head louse development is subtle. The only visible differences between different instars and the adult, other than size, is the relative length of the abdomen, which increases with each molt.[1], as well as the existence of reproductive organs in the adults. Aside from reproduction, nymph behavior is similar to the adult. Like adults, nymphs feed also only on human blood (hematophagia), and cannot survive long away from a host.[1] Outside their hosts lice can't survive more than 24 hrs.[23] The time required for head lice to complete their nymph development to the imago lasts for 12-15 days. [1]

Nymph mortality in captivity is about 38%, especially within the first two days of life.[1] In the wild, mortality may instead be highest in the third instar.[1] Nymph hazards are numerous. Failure to completely hatch from the egg is invariably fatal.[1] Death during molting can also occur, although it is reportedly uncommon.[1] During feeding, the nymph gut can rupture, dispersing the host's blood throughout the insect body. This results in death within a day or two.[1] Whether the high mortality recorded under experimental conditions is representative of conditions in the wild is unclear.[1]

Reproduction and lifespan

 
Copulation in Pediculus humanus humanus (Pediculus humanus capitis is similar), female is on top, with the male below. Dilation of the female's vagina has already occurred, and the male's dilator rests against his back (dorsal surface), out of the way. The male vesica, which contains the penis proper (not seen), is fully inserted into the vagina. Note the male's attachment with his specialized claws on the first leg pair to the specialized notch on the female's third leg pair.

Head lice reproduce sexually, and copulation is necessary for the female to produce fertile eggs. Parthenogenesis, the production of viable offspring by virgin females, does not occur in Pediculus humanus.[1] Pairing can begin within the first 10 hours of adult life.[1] After 24 hours, adult lice copulate frequently, with mating occurring during any period of the night or day.[1][24] Mating attachment frequently lasts more than an hour.[24] Young males can successfully pair with older females, and vice versa.[1]

Experiments with P. h. humanus (body lice) emphasize the attendant hazards of lice copulation. A single young female confined with six or more males will die in a few days, having laid very few eggs.[1] Similarly, death of a virgin female was reported after admitting a male to her confinement.[24] The female laid only one egg after mating, and her entire body was tinged with red—a condition attributed to rupture of the alimentary canal during the sexual act.[24] Old females frequently die following, if not during, copulation.[24] During its lifespan of 4 weeks a female louse lays 50-150 eggs. Eggs hatch within 6-9 days, each nymphal stage last for 4-5 days and accordingly the period from egg to adults lasts for 18-24 days. Adult lice live for an additional 3-4 weeks.[25]

Factors affecting infestation

Main article: Head lice infestation

The number of children per family, the sharing of beds and closets, hair washing habits, local customs and social contacts, healthcare in a particular area (e.g. school), and socioeconomic status were found to be significant factors in head louse infestation. Girls are two to four times more frequently infested than boys. Children between 4 and 14 years of age are the most frequently infested group.[26]

Behaviour

Feeding

All stages except eggs are blood-feeders and bite the skin four to five times daily to feed. They inject saliva which contains an anticoagulant and suck blood. The digested blood is excreted as dark red frass.[27]

Position on host

Although any part of the scalp may be colonized, lice favor the nape of the neck and the area behind the ears, where the eggs are usually laid. Head lice are repelled by light and move towards shadows or dark-coloured objects in their vicinity.[24][28]

Transmission

Lice have no wings or powerful legs for jumping, so they move using the claws on their legs to move from hair to hair.[27] Normally, head lice infest a new host only by close contact between individuals, making social contacts among children and parent-child interactions more likely routes of infestation than shared combs, hats, brushes, towels, clothing, beds, or closets. Head-to-head contact is by far the most common route of lice transmission.[29]

Distribution

About 6–12 million people, mainly children, are treated annually for head lice in the United States alone. In the UK, it is estimated that two thirds of children will experience at least one case of head lice before leaving primary school.[30] High levels of louse infestations have also been reported from all over the world, including Australia, Denmark, France, Ireland, Israel, and Sweden.[16][31]

Archaeogenetics

Analysis of the DNA of lice found on Peruvian mummies may indicate that some diseases (such as typhus) may have passed from the New World to the Old World, instead of the other way around.[32][33]

Genome

The sequencing of the genome of the body louse was first proposed in the mid-2000s[34] and the annotated genome was published in 2010.[35] An analysis of the body and head louse transcriptomes revealed these two organisms are extremely similar genetically.[36]

Mitochondrial clades

Human lice are divided into three deeply divergent mitochondrial clades known as A, B, and C.[37][38] Three subclades have been identified, D (a sister clade of A), E (a sister clade of C), and F (a sister clade of B).[39][40][41]

Clade A

  • head and body: worldwide
  • found in ancient Roman Judea[33]

Clade D (sister of clade A)

  • head and body: Central Africa, Ethiopia, United States

Clade B

  • head only: worldwide
  • found in ancient Roman Judea and 4,000-year-old Chilean mummy

Clade F (sister of clade B)

  • head and body: South America

Clade C

  • head only: Ethiopia, Nepal, Thailand

Clade E (sister of clade C)

  • head only: West Africa

See also

References

  1. ^ a b c d e f g h i j k l m n o p q r s Buxton, Patrick A. (1947). "The biology of Pediculus humanus". The Louse; an account of the lice which infest man, their medical importance and control (2nd ed.). London: Edward Arnold. pp. 24–72.
  2. ^ a b c d Maunder, J. W. (1983). "The Appreciation of Lice". Proceedings of the Royal Institution of Great Britain. 55: 1–31.
  3. ^ Kittler R, Kayser M, Stoneking M (August 2003). "Molecular evolution of Pediculus humanus and the origin of clothing". Current Biology. 13 (16): 1414–7. doi:10.1016/S0960-9822(03)00507-4. PMID 12932325.
  4. ^ Stoneking, Mark (29 December 2004). "Erratum: Molecular Evolution of Pediculus humanus and the Origin of Clothing". Current Biology. 14 (24): 2309. doi:10.1016/j.cub.2004.12.024.
  5. ^ Buxton, Patrick A. (1947). "The crab louse Phthirus pubis". The Louse; an account of the lice which infest man, their medical importance and control (2nd ed.). London: Edward Arnold. pp. 136–141.
  6. ^ "pediculosis – Definition from the Merriam-Webster Online Dictionary". Retrieved 2008-04-23.
  7. ^ Rozsa, L; Apari, P. (2012). "Why infest the loved ones – inherent human behaviour indicates former mutualism with head lice" (PDF). Parasitology. 139 (6): 696–700. doi:10.1017/s0031182012000017. PMID 22309598. S2CID 206247019.
  8. ^ a b c Buxton, Patrick A. (1947). "The Anoplura or Sucking Lice". The Louse; an account of the lice which infest man, their medical importance and control (2nd ed.). London: Edward Arnold. pp. 1–4.
  9. ^ a b c d e f g h i j Buxton, Patrick A. (1947). "The Anatomy of Pediculus humanus". The Louse; an account of the lice which infest man, their medical importance and control (2nd ed.). London: Edward Arnold. pp. 5–23.
  10. ^ a b "Lice (Pediculosis)". The Merck Veterinary Manual. Whitehouse Station, NJ USA: Merck & Co. 2008. Retrieved 2008-10-08.
  11. ^ a b c d Williams LK, Reichert A, MacKenzie WR, Hightower AW, Blake PA (May 2001). "Lice, nits, and school policy". Pediatrics. 107 (5): 1011–5. doi:10.1542/peds.107.5.1011. PMID 11331679. S2CID 26076461.
  12. ^ a b c d e f Burkhart CN, Burkhart CG (July 2005). "Head lice: scientific assessment of the nit sheath with clinical ramifications and therapeutic options". Journal of the American Academy of Dermatology. 53 (1): 129–33. doi:10.1016/j.jaad.2005.01.134. PMID 15965432.
  13. ^ a b c Meinking, Terri Lynn (May–June 1999). "Infestations". Current Problems in Dermatology. 11 (3): 75–118. doi:10.1016/S1040-0486(99)90005-4.
  14. ^ a b c Burgess, I. F. (1995). "Human lice and their management". Advances in Parasitology Volume 36. Advances in Parasitology. Vol. 36. pp. 271–342. doi:10.1016/S0065-308X(08)60493-5. ISBN 978-0-12-031736-3. PMID 7484466.
  15. ^ Pollack RJ, Kiszewski AE, Spielman A (August 2000). "Overdiagnosis and consequent mismanagement of head louse infestations in North America". The Pediatric Infectious Disease Journal. 19 (8): 689–93, discussion 694. doi:10.1097/00006454-200008000-00003. PMID 10959734. S2CID 2557006.
  16. ^ a b Burgess, I. F. (2004). "Human lice and their control". Annu. Rev. Entomol. 49: 457–81. doi:10.1146/annurev.ento.49.061802.123253. PMID 14651472.
  17. ^ Mumcuoglu KY, Meinking TA, Burkhart CN, Burkhart CG (August 2006). "Head louse infestations: the 'no nit' policy and its consequences". International Journal of Dermatology. 45 (8): 891–6. doi:10.1111/j.1365-4632.2006.02827.x. PMID 16911370. S2CID 38910169.
  18. ^ "Head lice and nits". nhs.uk. 2017-10-19. Retrieved 23 December 2018.
  19. ^ "Head lice: How to spot nits in hair and what to do about them". News Shopper. 13 September 2018. Retrieved 23 December 2018.
  20. ^ "Nit treatments are like diets. The truth is, nothing works". The Guardian. 21 June 2018. Retrieved 23 December 2018.
  21. ^ "How to get rid of head lice". 25 December 2021. Retrieved 5 August 2021.
  22. ^ "Back to school herbalism — natural ways to nuke nits". Irish Examiner. 1 September 2018. Retrieved 23 December 2018.
  23. ^ Mumcuoglu KY, Pollack RJ, Reed DL, Barker SC, Gordon S, Toloza AC, Picollo MI, Taylan-Ozkan A, Chosidow O, Habedank B, Ibarra J, Meinking TL, Vander Stichele RH (March 2020). "International recommendations for an effective control of head louse infestations". International Journal of Dermatology. 60 (3): 272–80. doi:10.1111/ijd.15096. PMC 7984059. PMID 32767380.
  24. ^ a b c d e f Bacot, A. (1917). "Contributions to the bionomics of Pediculus humanus (vestimenti) and Pediculus capitis". Parasitology. 9 (2): 228–258. doi:10.1017/S0031182000006065. S2CID 86846228.
  25. ^ Mumcuoglu KY, Miller J, Gofin R, et al. (September 1990). "Epidemiological studies on head lice infestation in Israel. I. Parasitological examination of children". International Journal of Dermatology. 29 (7): 502–6. doi:10.1111/j.1365-4362.1990.tb04845.x. PMID 2228380. S2CID 39798857.
  26. ^ Mumcuoglu KY (May 2006). "Effective treatment of head louse with pediculicides". Journal of Drugs in Dermatology. 5 (5): 451–2. PMID 16703782.
  27. ^ a b Weems, H. V. Jr.; Fasulo, T. R. (June 2007). "Human Lice: Body Louse, Pediculus humanus humanus Linnaeus and Head Louse, Pediculus humanus capitis De Geer (Insecta: Phthiraptera (=Anoplura): Pediculidae)". University of Florida, Institute of Food and Agricultural Sciences. Retrieved 2008-02-21.
  28. ^ Nuttall, George H. F. (1919). "The biology of Pediculus humanus, Supplementary notes". Parasitology. 11 (2): 201–221. doi:10.1017/s0031182000004194. S2CID 251061971.
  29. ^ . Lice Lifters New Jersey. Archived from the original on 2013-01-12. Retrieved 2012-11-22.
  30. ^ "Two thirds of British children will catch head lice during school years, study finds". instituteofmums.com. 2017-04-20. Retrieved 2017-09-28.
  31. ^ Mumcuoglu KY, Barker SC, Burgess IE, et al. (April 2007). "International guidelines for effective control of head louse infestations". Journal of Drugs in Dermatology. 6 (4): 409–14. PMID 17668538.
  32. ^ Anderson, Andrea (February 8, 2008). "DNA from Peruvian Mummy Lice Reveals History". GenomeWeb Daily News. GenomeWeb LLC. Retrieved August 31, 2014.
  33. ^ a b Amanzougaghene N, Mumcuoglu KY, Fenollar F, Alfi S, Yesilyurt G, Raoult D, Mediannikov O (2016). "High Ancient Genetic Diversity of Human Lice, Pediculus humanus, from Israel Reveals New Insights into the Origin of Clade B Lice". PLOS ONE. 14 (2016 Oct 14, 11(10):e01646595): e0164659. Bibcode:2016PLoSO..1164659A. doi:10.1371/journal.pone.0164659. PMC 5065229. PMID 27741281.
  34. ^ Pittendrigh BR, Clark JM, Johnston JS, Lee SH, Romero-Severson J, Dasch GA (November 2006). "Sequencing of a new target genome: the Pediculus humanus humanus (Phthiraptera: Pediculidae) genome project". Journal of Medical Entomology. 43 (6): 1103–11. doi:10.1603/0022-2585(2006)43[1103:SOANTG]2.0.CO;2. PMID 17162941. S2CID 25046936.
  35. ^ Kirkness EF, Haas BJ, Sun W, et al. (July 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 of the United States of America. 107 (27): 12168–73. Bibcode:2010PNAS..10712168K. doi:10.1073/pnas.1003379107. PMC 2901460. PMID 20566863.
  36. ^ Olds BP, Coates BS, Steele LD, et al. (April 2012). "Comparison of the transcriptional profiles of head and body lice". Insect Molecular Biology. 21 (2): 257–68. doi:10.1111/j.1365-2583.2012.01132.x. PMID 22404397. S2CID 175421.
  37. ^ Morand, Serge; Krasnov, Boris R.; Littlewood, D. Timothy J. (26 February 2015). Parasite Diversity and Diversification: Evolutionary Ecology Meets Phylogenetics. Cambridge University Press. p. 208. ISBN 978-1-316-23993-3. Retrieved 30 December 2017.
  38. ^ Knapp, Michael; Boutellis, Amina; Drali, Rezak; Rivera, Mario A.; Mumcuoglu, Kosta Y.; Raoult, Didier (2013). "Evidence of Sympatry of Clade A and Clade B Head Lice in a Pre-Columbian Chilean Mummy from Camarones". PLOS ONE. 8 (10): e76818. Bibcode:2013PLoSO...876818B. doi:10.1371/journal.pone.0076818. ISSN 1932-6203. PMC 3813697. PMID 24204678.
  39. ^ Gao, Feng; Amanzougaghene, Nadia; Mumcuoglu, Kosta Y.; Fenollar, Florence; Alfi, Shir; Yesilyurt, Gonca; Raoult, Didier; Mediannikov, Oleg (2016). "High Ancient Genetic Diversity of Human Lice, Pediculus humanus, from Israel Reveals New Insights into the Origin of Clade B Lice". PLOS ONE. 11 (10): e0164659. Bibcode:2016PLoSO..1164659A. doi:10.1371/journal.pone.0164659. ISSN 1932-6203. PMC 5065229. PMID 27741281.
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External links

 
Look up nit in Wiktionary, the free dictionary.
 
Wikimedia Commons has media related to Pediculus humanus.
 
Look up head louse in Wiktionary, the free dictionary.
  • Centers for Disease Control and Prevention: Division of Parasitic Diseases
  • University of Nebraska: Head Lice Resources You Can Trust
  • body and head lice on the UF / IFAS Featured Creatures Web site
  • Head Louse infestations

January 29, 2023
head, louse, this, article, about, animal, infestation, known, pediculosis, capitis, head, lice, infestation, head, louse, pediculus, humanus, capitis, obligate, ectoparasite, humans, head, lice, wingless, insects, that, spend, their, entire, lives, human, sca. This article is about the animal For the infestation known as pediculosis capitis see Head lice infestation The head louse Pediculus humanus capitis is an obligate ectoparasite of humans 1 Head lice are wingless insects that spend their entire lives on the human scalp and feeding exclusively on human blood 1 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 Head louseScientific classificationKingdom AnimaliaPhylum ArthropodaClass InsectaOrder PsocodeaFamily PediculidaeGenus PediculusSpecies P humanusSubspecies P h capitisTrinomial namePediculus humanus capitisDe Geer 1767SynonymsPediculus capitis De Geer 1767 Pediculus humanus capitis by Des Helmore Lice differ from other hematophagic ectoparasites such as fleas in spending their entire lifecycle on a host 2 Head lice cannot fly and their short stumpy legs render them incapable of jumping or even walking efficiently on flat surfaces 2 The non disease carrying head louse differs from the related disease carrying body louse Pediculus humanus humanus in preferring to attach eggs to scalp hair rather than to clothing The two subspecies are morphologically almost identical but do not normally interbreed From genetic studies they are thought to have diverged as subspecies about 30 000 110 000 years ago when many humans began to wear a significant amount of clothing 3 4 A much more distantly related species of hair clinging louse the pubic or crab louse Pthirus pubis also infests humans It is morphologically different from the other two species and is much closer in appearance to the lice which infest other primates 5 Louse infestation of the body is known as pediculosis pediculosis capitis for head lice pediculosis corporis for body lice and phthiriasis for pubic lice 6 Head lice especially in children have been and still are subject to various eradication campaigns Unlike body lice head lice are not the vectors of any known diseases however rare secondary infections can result from scratching at bites Head louse infestations may be beneficial in helping to foster a natural immune response against lice which helps humans in defense against the far more dangerous body louse which is capable of transmitting dangerous diseases 7 Contents 1 Adult morphology 1 1 Head 1 2 Thorax 1 3 Abdomen 1 4 Sex differences 2 Eggs and nits 3 Development and nymphs 4 Reproduction and lifespan 5 Factors affecting infestation 6 Behaviour 6 1 Feeding 6 2 Position on host 6 3 Transmission 7 Distribution 8 Archaeogenetics 9 Genome 10 Mitochondrial clades 10 1 Clade A 10 2 Clade D sister of clade A 10 3 Clade B 10 4 Clade F sister of clade B 10 5 Clade C 10 6 Clade E sister of clade C 11 See also 12 References 13 External linksAdult morphology Edit source source source source source source source source source source source source Head louse crawling on hairbrush showing how tiny it is Like other insects of the suborder Anoplura adult head lice are small 2 5 3 mm long dorsoventrally flattened see anatomical terms of location and wingless 8 The thoracic segments are fused but otherwise distinct from the head and abdomen the latter being composed of seven visible segments 9 Head lice are grey in general but their precise color varies according to the environment in which they were raised 9 After feeding consumed blood causes the louse body to take on a reddish color 9 Head Edit Male head louse adult Female head louse adult One pair of antennae each with five segments protrudes from the insect s head Head lice also have one pair of eyes Eyes are present in all species within the Pediculidae family but are reduced or absent in most other members of the Anoplura suborder 8 Like other members of the Anoplura head louse mouthparts are highly adapted for piercing the skin and sucking blood 8 These mouth parts are retracted into the insect s head except during feeding 9 10 Thorax Edit Head louse gripping a human hair Six legs project from the fused segments of the thorax 9 As is typical in the Anoplura these legs are short and terminate with a single claw and opposing thumb 9 Between its claw and thumb the louse grasps the hair of its host 9 With their short legs and large claws lice are well adapted to clinging to the hair of their host These adaptations leave them incapable of jumping or even walking efficiently on flat surfaces Lice can climb up strands of hair very quickly allowing them to move quickly and reach another host 2 Abdomen Edit Seven segments of the louse abdomen are visible 9 The first six segments each have a pair of spiracles through which the insect breathes 9 The last segment contains the anus and separately the genitalia 9 Sex differences Edit In male lice the front two legs are slightly larger than the other four This specialized pair of legs are used for holding the female during copulation Males are slightly smaller than females and are characterized by a pointed end of the abdomen and a well developed genital apparatus visible inside the abdomen Females are characterized by two gonopods in the shape of a W at the end of their abdomens Eggs and nits Edit Head louse egg nit attached to hair shaft of host Like most insects head lice are oviparous Females lay about three or four eggs per day Louse eggs also known as nits are attached near the base of a host hair shaft 11 12 Eggs are usually laid on the base of the hair 3 5 mm off the scalp surface 11 12 In warm climates and especially the tropics eggs may be laid 6 inches 15 cm or more down the hair shaft 13 To attach an egg the adult female secretes a glue from her reproductive organ This glue quickly hardens into a nit sheath that covers the hair shaft and large parts of the egg except for the operculum a cap through which the embryo breathes 12 The glue was previously thought to be chitin based but more recent studies have shown it to be made of proteins similar to hair keratin 12 Each egg is oval shaped and about 0 8 mm in length 12 They are bright transparent and tan to coffee colored so long as they contain an embryo but appear white after hatching 12 13 Head lice hatch typically six to nine days after oviposition 11 14 After hatching the louse nymph leaves behind its egg shell still attached to the hair shaft The empty egg shell remains in place until physically removed by abrasion or the host or until it slowly disintegrates which may take six or more months 14 SEM images of a head louse egg Louse egg attached to a hair shaft of its host The female reproductive organ secretes a glue that quickly hardens into a nit sheath to cover the hair shaft and large parts of the egg except for the operculum The operculum allows the embryo to breathe A first stage nymph hatching from an egg A first stage nymph hatching from an egg detail Empty shells are mat collapsed and white in color The term nit may include any of the following 15 Viable eggs that will eventually hatch Remnants of already hatched eggs nits Nonviable eggs dead embryo that will never hatchOf these three only eggs containing viable embryos have the potential to infest or reinfest a host 16 However a no nit policy is a common public health measure to prevent transmission of lice Some authors have therefore restricted the definition of nit to describe only a hatched or nonviable egg Louse hatching In many languages the terms used for the hatched eggs which were obvious for all to see have subsequently become applied to the embryonated eggs that are difficult to detect Thus the term nit in English is often used for both However in recent years my colleagues and I have felt the need for some simple means of distinguishing between the two without laborious qualification We have therefore come to reserve the term nit for the hatched and empty egg shell and refer to the developing embryonated egg as an egg Ian F Burgess 1995 14 The empty eggshell termed a nit J W Maunder 1983 2 nits dead eggs or empty egg cases Kosta Y Mumcuoglu and others 2006 17 Others have retained the broad definition while simultaneously attempting to clarify its relevance to infestation In the United States the term nit refers to any egg regardless of its viability Terri Lynn Meinking 1999 13 Because nits are simply egg casings that can contain a developing embryo or be empty shells not all nits are infective L Keoki Williams and others 2001 11 Head lice eggs nits are brown or white empty shells and attached to the hair NHS 2018 18 In British and Irish slang the term nit is often used across different age groups to refer to the head lice themselves 19 20 21 22 Development and nymphs Edit Development of Pediculus humanus humanus body lice which is similar to that of head lice Pediculus humanus capitis Head lice like other insects of the order Phthiraptera are hemimetabolous 1 10 Newly hatched nymphs will moult three times before reaching the sexually mature adult stage 1 Thus mobile head lice populations may contain eggs nits three nymphal instars and the adults male and female imago 1 Metamorphosis during head louse development is subtle The only visible differences between different instars and the adult other than size is the relative length of the abdomen which increases with each molt 1 as well as the existence of reproductive organs in the adults Aside from reproduction nymph behavior is similar to the adult Like adults nymphs feed also only on human blood hematophagia and cannot survive long away from a host 1 Outside their hosts lice can t survive more than 24 hrs 23 The time required for head lice to complete their nymph development to the imago lasts for 12 15 days 1 Nymph mortality in captivity is about 38 especially within the first two days of life 1 In the wild mortality may instead be highest in the third instar 1 Nymph hazards are numerous Failure to completely hatch from the egg is invariably fatal 1 Death during molting can also occur although it is reportedly uncommon 1 During feeding the nymph gut can rupture dispersing the host s blood throughout the insect body This results in death within a day or two 1 Whether the high mortality recorded under experimental conditions is representative of conditions in the wild is unclear 1 Reproduction and lifespan Edit Copulation in Pediculus humanus humanus Pediculus humanus capitis is similar female is on top with the male below Dilation of the female s vagina has already occurred and the male s dilator rests against his back dorsal surface out of the way The male vesica which contains the penis proper not seen is fully inserted into the vagina Note the male s attachment with his specialized claws on the first leg pair to the specialized notch on the female s third leg pair Head lice reproduce sexually and copulation is necessary for the female to produce fertile eggs Parthenogenesis the production of viable offspring by virgin females does not occur in Pediculus humanus 1 Pairing can begin within the first 10 hours of adult life 1 After 24 hours adult lice copulate frequently with mating occurring during any period of the night or day 1 24 Mating attachment frequently lasts more than an hour 24 Young males can successfully pair with older females and vice versa 1 Experiments with P h humanus body lice emphasize the attendant hazards of lice copulation A single young female confined with six or more males will die in a few days having laid very few eggs 1 Similarly death of a virgin female was reported after admitting a male to her confinement 24 The female laid only one egg after mating and her entire body was tinged with red a condition attributed to rupture of the alimentary canal during the sexual act 24 Old females frequently die following if not during copulation 24 During its lifespan of 4 weeks a female louse lays 50 150 eggs Eggs hatch within 6 9 days each nymphal stage last for 4 5 days and accordingly the period from egg to adults lasts for 18 24 days Adult lice live for an additional 3 4 weeks 25 Factors affecting infestation EditMain article Head lice infestation The number of children per family the sharing of beds and closets hair washing habits local customs and social contacts healthcare in a particular area e g school and socioeconomic status were found to be significant factors in head louse infestation Girls are two to four times more frequently infested than boys Children between 4 and 14 years of age are the most frequently infested group 26 Behaviour EditFeeding Edit All stages except eggs are blood feeders and bite the skin four to five times daily to feed They inject saliva which contains an anticoagulant and suck blood The digested blood is excreted as dark red frass 27 Position on host Edit Although any part of the scalp may be colonized lice favor the nape of the neck and the area behind the ears where the eggs are usually laid Head lice are repelled by light and move towards shadows or dark coloured objects in their vicinity 24 28 Transmission Edit Lice have no wings or powerful legs for jumping so they move using the claws on their legs to move from hair to hair 27 Normally head lice infest a new host only by close contact between individuals making social contacts among children and parent child interactions more likely routes of infestation than shared combs hats brushes towels clothing beds or closets Head to head contact is by far the most common route of lice transmission 29 Distribution EditAbout 6 12 million people mainly children are treated annually for head lice in the United States alone In the UK it is estimated that two thirds of children will experience at least one case of head lice before leaving primary school 30 High levels of louse infestations have also been reported from all over the world including Australia Denmark France Ireland Israel and Sweden 16 31 Archaeogenetics EditAnalysis of the DNA of lice found on Peruvian mummies may indicate that some diseases such as typhus may have passed from the New World to the Old World instead of the other way around 32 33 Genome EditThe sequencing of the genome of the body louse was first proposed in the mid 2000s 34 and the annotated genome was published in 2010 35 An analysis of the body and head louse transcriptomes revealed these two organisms are extremely similar genetically 36 Mitochondrial clades EditHuman lice are divided into three deeply divergent mitochondrial clades known as A B and C 37 38 Three subclades have been identified D a sister clade of A E a sister clade of C and F a sister clade of B 39 40 41 Clade A Edit head and body worldwide found in ancient Roman Judea 33 Clade D sister of clade A Edit head and body Central Africa Ethiopia United StatesClade B Edit head only worldwide found in ancient Roman Judea and 4 000 year old Chilean mummyClade F sister of clade B Edit head and body South AmericaClade C Edit head only Ethiopia Nepal ThailandClade E sister of clade C Edit head only West AfricaSee also EditBody louse Crab louse Lindane List of parasites of humans Nitpicking Pediculosis Treatment of human head liceReferences Edit a b c d e f g h i j k l m n o p q r s Buxton Patrick A 1947 The biology of Pediculus humanus The Louse an account of the lice which infest man their medical importance and control 2nd ed London Edward Arnold pp 24 72 a b c d Maunder J W 1983 The Appreciation of Lice Proceedings of the Royal Institution of Great Britain 55 1 31 Kittler R Kayser M Stoneking M August 2003 Molecular evolution of Pediculus humanus and the origin of clothing Current Biology 13 16 1414 7 doi 10 1016 S0960 9822 03 00507 4 PMID 12932325 Stoneking Mark 29 December 2004 Erratum Molecular Evolution of Pediculus humanus and the Origin of Clothing Current Biology 14 24 2309 doi 10 1016 j cub 2004 12 024 Buxton Patrick A 1947 The crab louse Phthirus pubis The Louse an account of the lice which infest man their medical importance and control 2nd ed London Edward Arnold pp 136 141 pediculosis Definition from the Merriam Webster Online Dictionary Retrieved 2008 04 23 Rozsa L Apari P 2012 Why infest the loved ones inherent human behaviour indicates former mutualism with head lice PDF Parasitology 139 6 696 700 doi 10 1017 s0031182012000017 PMID 22309598 S2CID 206247019 a b c Buxton Patrick A 1947 The Anoplura or Sucking Lice The Louse an account of the lice which infest man their medical importance and control 2nd ed London Edward Arnold pp 1 4 a b c d e f g h i j Buxton Patrick A 1947 The Anatomy of Pediculus humanus The Louse an account of the lice which infest man their medical importance and control 2nd ed London Edward Arnold pp 5 23 a b Lice Pediculosis The Merck Veterinary Manual Whitehouse Station NJ USA Merck amp Co 2008 Retrieved 2008 10 08 a b c d Williams LK Reichert A MacKenzie WR Hightower AW Blake PA May 2001 Lice nits and school policy Pediatrics 107 5 1011 5 doi 10 1542 peds 107 5 1011 PMID 11331679 S2CID 26076461 a b c d e f Burkhart CN Burkhart CG July 2005 Head lice scientific assessment of the nit sheath with clinical ramifications and therapeutic options Journal of the American Academy of Dermatology 53 1 129 33 doi 10 1016 j jaad 2005 01 134 PMID 15965432 a b c Meinking Terri Lynn May June 1999 Infestations Current Problems in Dermatology 11 3 75 118 doi 10 1016 S1040 0486 99 90005 4 a b c Burgess I F 1995 Human lice and their management Advances in Parasitology Volume 36 Advances in Parasitology Vol 36 pp 271 342 doi 10 1016 S0065 308X 08 60493 5 ISBN 978 0 12 031736 3 PMID 7484466 Pollack RJ Kiszewski AE Spielman A August 2000 Overdiagnosis and consequent mismanagement of head louse infestations in North America The Pediatric Infectious Disease Journal 19 8 689 93 discussion 694 doi 10 1097 00006454 200008000 00003 PMID 10959734 S2CID 2557006 a b Burgess I F 2004 Human lice and their control Annu Rev Entomol 49 457 81 doi 10 1146 annurev ento 49 061802 123253 PMID 14651472 Mumcuoglu KY Meinking TA Burkhart CN Burkhart CG August 2006 Head louse infestations the no nit policy and its consequences International Journal of Dermatology 45 8 891 6 doi 10 1111 j 1365 4632 2006 02827 x PMID 16911370 S2CID 38910169 Head lice and nits nhs uk 2017 10 19 Retrieved 23 December 2018 Head lice How to spot nits in hair and what to do about them News Shopper 13 September 2018 Retrieved 23 December 2018 Nit treatments are like diets The truth is nothing works The Guardian 21 June 2018 Retrieved 23 December 2018 How to get rid of head lice 25 December 2021 Retrieved 5 August 2021 Back to school herbalism natural ways to nuke nits Irish Examiner 1 September 2018 Retrieved 23 December 2018 Mumcuoglu KY Pollack RJ Reed DL Barker SC Gordon S Toloza AC Picollo MI Taylan Ozkan A Chosidow O Habedank B Ibarra J Meinking TL Vander Stichele RH March 2020 International recommendations for an effective control of head louse infestations International Journal of Dermatology 60 3 272 80 doi 10 1111 ijd 15096 PMC 7984059 PMID 32767380 a b c d e f Bacot A 1917 Contributions to the bionomics of Pediculus humanus vestimenti and Pediculus capitis Parasitology 9 2 228 258 doi 10 1017 S0031182000006065 S2CID 86846228 Mumcuoglu KY Miller J Gofin R et al September 1990 Epidemiological studies on head lice infestation in Israel I Parasitological examination of children International Journal of Dermatology 29 7 502 6 doi 10 1111 j 1365 4362 1990 tb04845 x PMID 2228380 S2CID 39798857 Mumcuoglu KY May 2006 Effective treatment of head louse with pediculicides Journal of Drugs in Dermatology 5 5 451 2 PMID 16703782 a b Weems H V Jr Fasulo T R June 2007 Human Lice Body Louse Pediculus humanus humanus Linnaeus and Head Louse Pediculus humanus capitis De Geer Insecta Phthiraptera Anoplura Pediculidae University of Florida Institute of Food and Agricultural Sciences Retrieved 2008 02 21 Nuttall George H F 1919 The biology of Pediculus humanus Supplementary notes Parasitology 11 2 201 221 doi 10 1017 s0031182000004194 S2CID 251061971 NJ Head Lice Philadelphia and South New Jersey Hair Lice Lice Lifters New Jersey Archived from the original on 2013 01 12 Retrieved 2012 11 22 Two thirds of British children will catch head lice during school years study finds instituteofmums com 2017 04 20 Retrieved 2017 09 28 Mumcuoglu KY Barker SC Burgess IE et al April 2007 International guidelines for effective control of head louse infestations Journal of Drugs in Dermatology 6 4 409 14 PMID 17668538 Anderson Andrea February 8 2008 DNA from Peruvian Mummy Lice Reveals History GenomeWeb Daily News GenomeWeb LLC Retrieved August 31 2014 a b Amanzougaghene N Mumcuoglu KY Fenollar F Alfi S Yesilyurt G Raoult D Mediannikov O 2016 High Ancient Genetic Diversity of Human Lice Pediculus humanus from Israel Reveals New Insights into the Origin of Clade B Lice PLOS ONE 14 2016 Oct 14 11 10 e01646595 e0164659 Bibcode 2016PLoSO 1164659A doi 10 1371 journal pone 0164659 PMC 5065229 PMID 27741281 Pittendrigh BR Clark JM Johnston JS Lee SH Romero Severson J Dasch GA November 2006 Sequencing of a new target genome the Pediculus humanus humanus Phthiraptera Pediculidae genome project Journal of Medical Entomology 43 6 1103 11 doi 10 1603 0022 2585 2006 43 1103 SOANTG 2 0 CO 2 PMID 17162941 S2CID 25046936 Kirkness EF Haas BJ Sun W et al July 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 of the United States of America 107 27 12168 73 Bibcode 2010PNAS 10712168K doi 10 1073 pnas 1003379107 PMC 2901460 PMID 20566863 Olds BP Coates BS Steele LD et al April 2012 Comparison of the transcriptional profiles of head and body lice Insect Molecular Biology 21 2 257 68 doi 10 1111 j 1365 2583 2012 01132 x PMID 22404397 S2CID 175421 Morand Serge Krasnov Boris R Littlewood D Timothy J 26 February 2015 Parasite Diversity and Diversification Evolutionary Ecology Meets Phylogenetics Cambridge University Press p 208 ISBN 978 1 316 23993 3 Retrieved 30 December 2017 Knapp Michael Boutellis Amina Drali Rezak Rivera Mario A Mumcuoglu Kosta Y Raoult Didier 2013 Evidence of Sympatry of Clade A and Clade B Head Lice in a Pre Columbian Chilean Mummy from Camarones PLOS ONE 8 10 e76818 Bibcode 2013PLoSO 876818B doi 10 1371 journal pone 0076818 ISSN 1932 6203 PMC 3813697 PMID 24204678 Gao Feng Amanzougaghene Nadia Mumcuoglu Kosta Y Fenollar Florence Alfi Shir Yesilyurt Gonca Raoult Didier Mediannikov Oleg 2016 High Ancient Genetic Diversity of Human Lice Pediculus humanus from Israel Reveals New Insights into the Origin of Clade B Lice PLOS ONE 11 10 e0164659 Bibcode 2016PLoSO 1164659A doi 10 1371 journal pone 0164659 ISSN 1932 6203 PMC 5065229 PMID 27741281 Liao Chien Wei Cheng Po Ching Chuang Ting Wu Chiu Kuan Chih Chiang I Chen Kuo Juo Han Tu Yun Hung Fan Yu Min Jiang Hai Tao Fan Chia Kwung 2017 Prevalence of Pediculus capitis in schoolchildren in Battambang Cambodia Journal of Microbiology Immunology and Infection 52 4 585 591 doi 10 1016 j jmii 2017 09 003 ISSN 1684 1182 PMID 29150362 Amanzougaghene Nadia Fenollar Florence Davoust Bernard Djossou Felix Ashfaq Muhammad Bitam Idir Raoult Didier Mediannikov Oleg June 2019 Mitochondrial diversity and phylogeographic analysis of Pediculus humanus reveals a new Amazonian clade F Infection Genetics and Evolution 70 1 8 doi 10 1016 j meegid 2019 02 006 PMID 30769089 S2CID 73476298 Retrieved 26 January 2022 External links Edit Look up nit in Wiktionary the free dictionary Wikimedia Commons has media related to Pediculus humanus Look up head louse in Wiktionary the free dictionary Centers for Disease Control and Prevention Division of Parasitic Diseases James Cook University Australia Head Lice Information Sheet University of Nebraska Head Lice Resources You Can Trust body and head lice on the UF IFAS Featured Creatures Web site Head Louse infestations Retrieved from https en wikipedia org w index php title Head louse amp oldid 1136208848, wikipedia, wiki, book, books, library,

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