Head louse

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The head louse (Pediculus humanus capitis) is an obligate ectoparasite of humans.<ref name="Buxton3">Template:Cite book</ref> Head lice are wingless insects that spend their entire lives on the human scalp and feed exclusively on human blood.<ref name="Buxton3" /> 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.

Lice differ from other hematophagic ectoparasites such as fleas in spending their entire lifecycle on a host.<ref name="maunder">Template:Cite journal</ref> Head lice cannot fly, and their short, stumpy legs render them incapable of jumping, or even walking efficiently on flat surfaces.<ref name="maunder"/>

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.<ref>Template:Cite journal</ref><ref name="Stoneking">Template:Cite journal</ref> However, the degree of separation is contentious as they can produce fertile offspring in a laboratory.<ref name="s648">Template:Cite journal</ref>

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.<ref name="Buxton6">Template:Cite book</ref> Louse infestation of the body is known as pediculosis, pediculosis capitis for head lice, pediculosis corporis for body lice, and phthiriasis for pubic lice.<ref name="urlpediculosis - Definition from the Merriam-Webster Online Dictionary">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Adult morphologyEdit

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.<ref name="buxton1">Template:Cite book</ref> The thoracic segments are fused, but otherwise distinct from the head and abdomen, the latter being composed of seven visible segments.<ref name="buxton2">Template:Cite book</ref> Head lice are grey in general, but their precise color varies according to the environment in which they were raised.<ref name="buxton2"/> After feeding, consumed blood causes the louse body to take on a reddish color.<ref name="buxton2"/>

HeadEdit

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.<ref name="buxton1"/> Like other members of the Anoplura, head louse mouthparts are highly adapted for piercing the skin and sucking blood.<ref name="buxton1"/> These mouth parts are retracted into the insect's head except during feeding.<ref name="buxton2"/><ref name="MerckVet"> {{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

ThoraxEdit

Six legs project from the fused segments of the thorax.<ref name="buxton2"/> As is typical in the Anoplura, these legs are short and terminate with a single claw and opposing "thumb".<ref name="buxton2"/> Between its claw and thumb, the louse grasps the hair of its host.<ref name="buxton2"/> 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.<ref name="maunder"/>

AbdomenEdit

Seven segments of the louse abdomen are visible.<ref name="buxton2"/> The first six segments each have a pair of spiracles through which the insect breathes.<ref name="buxton2"/> The last segment contains the anus and (separately) the genitalia.<ref name="buxton2"/>

Sex differencesEdit

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.

Template:AnchorEggs and nitsEdit

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.<ref name="Williams2001">Template:Cite journal</ref><ref name="pmid15965432">Template:Cite journal</ref> Eggs are usually laid on the base of the hair, 3–5 mm off the scalp surface.<ref name="Williams2001"/><ref name="pmid15965432"/> In warm climates, and especially the tropics, eggs may be laid Template:Convert or more down the hair shaft.<ref name="Meinking1999">Template:Cite journal</ref>

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.<ref name="pmid15965432"/> 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.<ref name="pmid15965432"/>

Each egg is oval-shaped and about 0.8 mm in length.<ref name="pmid15965432"/> They are bright, transparent, and tan to coffee-colored so long as they contain an embryo, but appear white after hatching.<ref name="pmid15965432"/><ref name="Meinking1999"/> Head lice hatch typically six to nine days after oviposition.<ref name="Williams2001"/><ref name="Burgess1995">Template:Cite book</ref>

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.<ref name="Burgess1995"/>

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Empty shells are matte, collapsed and white in color. The term nit may include any of the following:<ref name="pmid10959734">Template:Cite journal</ref>

• 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.<ref name="pmid14651472">Template:Cite journal</ref> 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:

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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".{{#if:|{{#if:|}}

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The empty eggshell, termed a nit...{{#if:|{{#if:|}}

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...nits (dead eggs or empty egg cases)...{{#if:|{{#if:|}}

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

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In the United States the term "nit" refers to any egg regardless of its viability.{{#if:|{{#if:|}}

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Because nits are simply egg casings that can contain a developing embryo or be empty shells, not all nits are infective.{{#if:|{{#if:|}}

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Head lice eggs (nits) are brown or white (empty shells) and attached to the hair{{#if:NHS (2018)<ref>{{#invoke:citation/CS1|citation

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In British and Irish slang the term "nit" is often used, across different age groups, to refer to the head lice themselves.<ref>Template:Cite news</ref><ref>Template:Cite news</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>Template:Cite news</ref>

Development and nymphsEdit

Head lice, like other insects of the order Phthiraptera, are hemimetabolous.<ref name="Buxton3"/><ref name="MerckVet"/> Newly hatched nymphs will moult three times before reaching the sexually mature adult stage.<ref name="Buxton3"/> Thus, mobile head lice populations may contain eggs, nits, three nymphal instars, and the adults (male and female) (imago).<ref name="Buxton3"/> 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,<ref name="Buxton3"/> 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.<ref name="Buxton3"/> Outside their hosts lice cannot survive more than 24 hrs.<ref name="Mumcuoglu et al. 2020">Template:Cite journal</ref> The time required for head lice to complete their nymph development to the imago lasts for 12–15 days.<ref name="Buxton3"/>

Nymph mortality in captivity is about 38%, especially within the first two days of life.<ref name="Buxton3"/> In the wild, mortality may instead be highest in the third instar.<ref name="Buxton3"/> Nymph hazards are numerous. Failure to completely hatch from the egg is invariably fatal.<ref name="Buxton3"/> Death during molting can also occur, although it is reportedly uncommon.<ref name="Buxton3"/> 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.<ref name="Buxton3"/> Whether the high mortality recorded under experimental conditions is representative of conditions in the wild is unclear.<ref name="Buxton3"/>

Reproduction and lifespanEdit

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.<ref name="Buxton3"/> Pairing can begin within the first 10 hours of adult life.<ref name="Buxton3"/> After 24 hours, adult lice copulate frequently, with mating occurring during any period of the night or day.<ref name="Buxton3"/><ref name="Bacot">Template:Cite journal</ref> Mating attachment frequently lasts more than an hour.<ref name="Bacot"/> Young males can successfully pair with older females, and vice versa.<ref name="Buxton3"/>

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.<ref name="Buxton3"/> Similarly, death of a virgin female was reported after admitting a male to her confinement.<ref name="Bacot"/> 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.<ref name="Bacot"/> Old females frequently die following, if not during, copulation.<ref name="Bacot"/> 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.<ref name="IJD">Template:Cite journal</ref>

Factors affecting infestationEdit

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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.<ref name="Mumcuoglu 2006">Template:Cite journal</ref>

BehaviourEdit

FeedingEdit

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.<ref name="UF">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Position on hostEdit

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.<ref name="Bacot"/><ref name="Nuttall1919">Template:Cite journal</ref>

TransmissionEdit

Lice have no wings or powerful legs for jumping, so they use the claws on their legs to move from hair to hair.<ref name="UF"/> 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.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

DistributionEdit

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.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> High levels of louse infestations have also been reported from all over the world, including Australia, Denmark, France, Ireland, Israel, and Sweden.<ref name="pmid14651472"/><ref name="JDD">Template:Cite journal</ref>

ArchaeogeneticsEdit

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.<ref name="Peru">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="Amanzougaghene et al. 2016">Template:Cite journal</ref>

GenomeEdit

The sequencing of the genome of the body louse was first proposed in the mid-2000s<ref>Template:Cite journal</ref> and the annotated genome was published in 2010.<ref>Template:Cite journal</ref> An analysis of the body and head louse transcriptomes revealed these two organisms are extremely similar genetically.<ref>Template:Cite journal</ref>

Unlike other bilateral animals, the 37 mitochondrial genes of human lice are not on a single circular chromosome but extensively fragmented. For the head louse, and the body louse, they are on 20 minichromosomes, for the pubic louse 14 minichromosomes and the chimpanzee louse,18 minichromosomes.<ref name="p038">Template:Cite journal</ref>

Mitochondrial cladesEdit

Human lice are divided into three deeply divergent mitochondrial clades known as A, B, and C.<ref name="MorandKrasnov2015">Template:Cite book</ref><ref name="KnappBoutellis2013">Template:Cite journal</ref> Three subclades have been identified, D (a sister clade of A), E (a sister clade of C), and F (a sister clade of B).<ref name="GaoAmanzougaghene2016">Template:Cite journal</ref><ref name="LiaoCheng2017">Template:Cite journal</ref><ref name="Amanzougaghene2019">Template:Cite journal</ref>

Clade AEdit

• head and body: worldwide
• found in ancient Roman Judea<ref name="Amanzougaghene et al. 2016" />

Clade D (sister of clade A)Edit

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

Clade BEdit

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

Clade F (sister of clade B)Edit

• head and body: South America

Clade CEdit

• head only: Ethiopia, Nepal, Thailand

Clade E (sister of clade C)Edit

• head only: West Africa

See alsoEdit

• Body louse
• Crab louse
• Lindane
• List of parasites of humans
• Nitpicking
• Pediculosis
• Treatment of human head lice

ReferencesEdit

Template:Reflist

External linksEdit

Template:Sister project Template:Sister project Template:Sister project

• 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

Template:Human lice Template:Arthropod infestations Template:Taxonbar