Pediculosis

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Pediculosis
Classification and external resources
The head louse (Pediculus humanus var. capitis)
ICD-10 B85.0-B85.2
ICD-9 132.0-132.1
DiseasesDB 9725 29587
MedlinePlus 000840
eMedicine med/1769 
MeSH D010373

Pediculosis is an infestation of lice, blood-feeding ectoparasitic insects of the suborder Anoplura. The condition can occur in almost any species of mammal, but is commonly used to refer to the infestation of humans.

Contents

[edit] Presentation

Head lice (Pediculus humanus capitis) infestation is most frequent on children aged 3-10 and their families. Females get head lice more often than males, and infestation in blacks is rare.[1]

Head lice are spread through direct head-to-head contact with an infested person. Body lice are spread through direct contact with the body, clothing or other personal items of a person already carrying lice. Pubic lice are most often spread by intimate contact with an infested person. Head lice occur on the head hair, body lice on the clothing, and pubic lice mainly on the hair near the groin. Human lice do not occur on pets or other animals. Lice do not have wings and cannot jump.

From each egg or "nit" may hatch one nymph that will grow and develop to the adult louse. Full-grown lice are about the size of a sesame seed. Lice feed on blood once or more often each day by piercing the skin with their tiny needle-like mouthparts. Lice cannot burrow into the skin.

Head lice and body lice (Pediculus humanus) are similar in appearance, although the head louse is often smaller.[2] Pubic lice (Pthirus pubis), on the other hand, are quite distinctive. They have shorter bodies and pincer-like claws, making them look like crabs (hence, the nickname for pubic lice: "crabs").

[edit] Diagnosis

In order to diagnose infestation, the entire scalp should be combed thoroughly with a louse comb and the teeth of the comb should be examined for the presence of living lice after each time the comb passes through the hair. The use of a louse comb is the most effective way to detect living lice.[3] In cases of children with long and curly/frizzy hair, an alternative method of diagnosis is examination by parting the hair at 2 cm intervals to look for moving lice near the scalp. With both methods, special attention should be paid to the area near the ears and the nape of the neck. The examiner should examine the scalp for at least 5 min. The use of a magnifying glass to examine the material collected between the teeth of the comb could prevent misdiagnosis. The presence of nits alone however (Fig. 4), is not an accurate indicator of an active head louse infestation. Children with nits on their hair have a 35-40% chance of also being infested with living lice and eggs.[3][4] If lice are detected, the entire family needs to be checked (especially children up to the age of 13 years) with a louse comb and only those who are infested with living lice should be treated. As long as no living lice are detected, the child should be considered negative for head louse infestation. Accordingly, a child should be treated with a pediculicide ONLY when living lice are detected on his/her hair (not because he/she has louse eggs/nits on the hair and not because the scalp is itchy).[5]

[edit] Clinical symptoms

The most characteristic symptom of infestation is pruritus (itching) on the head which normally intensifies 3 to 4 weeks after the initial infestation. The bite reaction (Fig. 5) is very mild and it can be rarely seen between the hairs. Bites can be seen, especially in the neck of long-haired individuals when the hair is pushed aside. In rare cases, the itch scratch cycle can lead to secondary infection with impetigo and pyoderma. Swelling of the local lymph nodes and fever are rare. Head lice are not known to transmit any pathogenic microorganisms.

Fig. 4. Louse nits

Fig. 5. Louse bites

[edit] The "no-nit" policy

The "no-nit" policy, which is implemented in approximately 80% of schools in the United States[citation needed] and in parts of Canada and Australia, requires the dismissal of a child from a school, camp or childcare setting until all head lice, eggs and nits have been removed from the hair of an infested individual. The efficacy of the no-nit policy has been called into question by different groups of scientists and by several agencies, including The American Academy of Pediatrics and National Association of School Nurses (USA).[citation needed] There are no convincing studies proving that enforced exclusion policies are effective in reducing the transmission of lice. Therefore, some scientists and policy makers argue that the "no-nit" policy is ineffective and harmful and should be discontinued.[6]

In Australia, the National Health and Medical Research Council's Guidelines for Infectious Diseases warranting school exclusion exclude head lice if treatment begins before the child's next day of school or care.[7]

[edit] Symptoms

The most common symptom of lice infestation is itching. Excessive scratching of the infested areas can cause sores, which may become infected. In addition, body lice can be a vector for louse-borne typhus, louse-borne relapsing fever or trench fever.

[edit] Treatment

Main article: Treatment of human head lice

The number of cases of human louse infestations (or pediculosis) has increased worldwide since the mid-1960s, reaching hundreds of millions annually.[8] There is no product or method which 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.

Lice on the hair and body are usually treated with medicated shampoos or cream rinses. Nit combs can be used to remove lice and nits from the hair. Laundering clothes using high heat can eliminate body lice. Efforts to treat should focus on the hair or body (or clothes), and not on the home environment.

Some lice have become resistant to certain (but not all) insecticides used in commercially available anti-louse products. A physician or pharmacist can prescribe or suggest treatments. Because empty eggs of head lice may remain glued on the hair long after the lice have been eliminated, treatment should be considered only when live (crawling) lice are discovered.

[edit] Prevention

Examination of the child’s head at regular intervals using a louse comb allows the diagnosis of louse infestation at an early stage. Early diagnosis makes treatment easier and reduces the possibility of infesting others. In times and areas when louse infestations are common, weekly examinations of children, especially those 4–13 yrs old, carried out by their parents will aid control. Additional examinations are necessary, if the child came in contact with infested individuals, if the child frequently scratches his/her head, or if nits suddenly appear on the child’s hair. Keeping long hair tidy could be helpful in the prevention of infestations with head lice. In order to prevent new infestations, the hair of the child could be treated with 2–4 drops of concentrated rosemary oil every day, before he/she leaves for school or kindergarten. The oils can be combed through the hair using a regular comb or brush.[9] Clothes, towels, bedding, combs and brushes, which came in contact with the infested individual, can be disinfected either by leaving them outside for at least 3 days or by washing them at 60°C for 30 minutes. An insecticidal treatment of the house and furniture is not necessary.[5]

[edit] Epidemiology

About 6-12 million people, mainly children, are treated annually for head lice in the United States alone. High levels of louse infestations have also been reported from all over the world including Israel, Denmark, Sweden, U.K., France and Australia.[10][5] 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, brushes, towels, clothing, beds or closets. Head-to-head contact is by far the most common route of lice transmission. 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 socio economic status were found to be significant factors in head louse infestation . Girls are 2-4 times more frequently infested than boys. Children between 4 and 13 years of age are the most frequently infested group.[11]

[edit] Vectorial capacity

Head lice (Pediculus humanus capitis) are not known to be vectors of diseases, unlike body lice(Pediculus humanus humanus), which are known vectors of epidemic or louse-borne typhus (Rickettsia prowazeki), trench fever (Rochalimaea quintana) and louse-borne relapsing fever (Borrellia recurrentis).

[edit] See also

[edit] References

  1. ^ Lice (Pediculosis). The Merck Manual (2005 November). Retrieved on 2008-02-19.
  2. ^ Bacot A (1917). "Contributions to the bionomics of Pediculus humanus (vestimenti) and Pediculus capitis". Parasitology 9: 228–258. 
  3. ^ a b Mumcuoglu, KY; Friger M, Ioffe Uspensky I, Ben Ishai F, Miller J. (January 2001). "Louse Comb Versus Direct Visual Examination for the Diagnosis of Head Louse Infestations". Pediatric Dermatology 18 (1): 9-12. Society for Pediatric Dermatology, International Society of Pediatric Dermatology, Dutch Pediatric Dermatology Society, Belgian Pediatric Dermatology Society, Latin American Pediatric Dermatology Society and the Spanish Society of Pediatric Dermatology. doi:10.1046/j.1525-1470.2001.018001009.x. 
  4. ^ Williams LK, Reichert A, MacKenzie WR, Hightower AW, Blake PA (2001). "Lice, nits, and school policy". Pediatrics 107 (5): 1011–5. PMID 11331679. 
  5. ^ a b c Mumcuoglu, Kosta Y.; Barker CS, Burgess IF, Combescot-Lang C, Dagleish RC, Larsen KS, Miller J, Roberts RJ, Taylan-Ozkan A. (2007). "International Guidelines for Effective Control of Head Louse Infestations". Journal of Drugs in Dermatology 6: 409-414. 
  6. ^ Mumcuoglu, Kosta Y.; Meinking, Terri A; Burkhart, Craig N; Burkhart, Craig G. (August 2006). "Head Louse Infestations: The "No Nit" Policy and Its Consequences". International Journal of Dermatology 45 (8): 891-896. Palm Coast, FL: International Society of Dermatology. doi:10.1111/j.1365-4632.2006.02827.x. 
  7. ^ Staying Healthy in Child Care: Preventing infectious diseases in child care (4th ed.), Canberra: National Health and Medical Research Council, December 2005, <http://www.nhmrc.gov.au/publications/synopses/_files/ch43.pdf> 
  8. ^ Gratz, N. (1998). "Human lice, their prevalence and resistance to insecticides.". Geneva: World Health Organization (WHO). 
  9. ^ Mumcuoglu, Kosta Y.; R. Galun, U. Bach, J. Miller, and S. Magdassi (1996). "Repellency of Essential Oils and Their Components to the Human Body Louse, Pediculus humanus humanus". Entomologia Experimentalis et Applicata 78 (3): 309-314. Wezep: The Netherlands Entomological Society. 
  10. ^ Burgess, Ian (January 2004). "Human Lice and their Control". Annual Review of Entomology 49: 457-481. Annual Reviews. doi:10.1146/annurev.ento.49.061802.123253. 
  11. ^ Mumcuoglu, Kosta Y.; Miller J, Gofin R, Adler B, Ben-Ishai F, Almog R, Kafka D, Klaus S. (1990). "Epidemiological studies on head lice infestation in Israel. I. Parasitological examination of children.". International Journal of Dermatology 29: 502-506. Palm Coast, FL: International Society of Dermatology. doi:10.1111/j.1365-4362.1990.tb04845.x. 

[edit] External links


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Human lice and pediculosis
Species
Infestation

Pediculosis · Phthiriasis
Treatment
Other terms of interest
v  d  e
Parasitic disease: ectoparasites - pediculosis, acariasis and other infestations (B85-B89, 132-134)
Lice
Pediculosis - Phthiriasis
Acariasis
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