Environmental Dermatology

What’s Eating You? Head Lice (Pediculus humanus capitis)

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The head louse (Pediculus humanus capitis) is a blood-sucking arthropod of the suborder Anoplura. Infestation continues in epidemic proportions in children of all socioeconomic groups. Although not implicated as a disease vector, infestation can lead to considerable distress, missed days of school, and secondary infections. Pyrethroids are recommended for treatment, but resistance is common. Newer agents, including benzyl alcohol and spinosad, have been developed to address this gap in care.

Practice Points

  • Transmission of head lice occurs most frequently from direct head-to-head contact; however, head lice can survive up to 4 days on fomites.
  • Patients present with scalp pruritus and bite reactions (papules or wheals), but pediculosis can be asymptomatic, particularly with the first exposure before the immune system has developed sensitivity to the louse saliva.
  • Topical pyrethroids are available over-the-counter and are considered first-line therapy; however, resistance to pyrethroids has become an important problem in the United States and worldwide.
  • Newer topical treatments such as benzyl alcohol lotion 5%, spinosad topical suspension 0.9%, and ivermectin lotion 0.5% can be prescribed as alternative therapies, particularly if resistance to pyrethroids is a concern.


 

References

The head louse (Pediculus humanus capitis) is a blood-sucking arthropod of the suborder Anoplura. Lice are obligate human parasites that have infested humans since antiquity. Pediculosis capitis is an infestation of the scalp by head lice. It is estimated that 6 to 12 million individuals in the United States are affected with head lice per year.1 Resistance to topical chemical pediculicides is widespread, and new agents have been developed to address this gap in care.

Characteristics of Head Lice

The head louse is a tan-gray–colored, wingless insect measuring approximately 2- to 3-mm long with 3 body segments. It has 6 legs with claws used to grasp individual hairs, and it moves by crawling; it does not fly or jump.2,3 The head louse has an elongated abdomen and a small head with short antennae and anterior piercing mouthparts (Figure 1).4 Nits are transparent, flask-shaped, 0.5- to 0.8-mm egg cases found firmly cemented to the hair shafts approximately 1 to 4 mm above the level of the scalp (Figure 2).5 The head louse resides on scalp hair and feeds off the scalp itself. Both lice and nits can be present throughout the scalp but are most commonly found in the postauricular and occipital scalp.3,4

Figure 1. Identifying characteristics of the head louse.

Figure 2. Hair shaft with an attached nit.

Female lice live approximately 30 days and lay 5 to 10 eggs per day. Eggs incubate individually in nits laid close to the scalp for 8 to 10 days before hatching.1,6 The newly hatched nymphs (also called instars) have multiple exoskeletons that are shed as they grow.7 Nymphs mature into adults in approximately 2 weeks, and the life cycle begins again.8 Head lice are obligate human parasites, feeding approximately every 4 to 6 hours on the blood of the host; however, they can survive up to 4 days without a blood meal on fomites if the climate and conditions are favorable.5,9

Epidemiology and Transmission

Head lice infestations commonly occur in children aged 3 to 11 years and are more prevalent in girls and women.1,10 Infestation rates are not reliably recorded, and few population-based studies have been performed; however, it is estimated that 6 to 12 million individuals are infested annually in the United States.1 Prevalence in some European populations has been estimated to range from 1% to 20%.11 A 2008 literature review found that worldwide prevalence varied across populations from 0.7% to 59%.10

Transmission occurs most frequently from direct head-to-head contact. One study found that transmission is most likely to occur when hairs are arranged in a parallel alignment and move slowly in relation to one another.12 Although controversial and probably less notable, transmission also may occur indirectly via fomites or the sharing of hairbrushes, hats, or other headgear.13,14 Classrooms are a common place for transmission.1 A 2009 study in Germany found an increase in health department consultations for head lice when schools reopened after vacations. The investigators also found that pediculicide sales peaked from mid-September through October, subsequent to schools reopening after the summer holiday.15 There is some evidence that overcrowded housing also can lead to increased incidence and transmission.16,17 There is no consistent correlation of infestation with socioeconomic status.1,17,18

Clinical Manifestations and Diagnosis

Clinically, patients with head lice present with scalp pruritus and sometimes posterior cervical or occipital lymphadenopathy. Pediculosis also can be asymptomatic. With the first exposure, symptoms may not develop for up to 4 to 6 weeks as the immune system develops sensitivity to the louse saliva.6 Bite reactions consisting of papules or wheals are related to immune sensitization.5 Louse feces and excoriations from scratching to relieve itch also may be present on examination. Secondary infection of excoriations also is possible.1

Diagnosis of an active infestation is made by identifying living lice. Because lice move quickly and can be difficult to detect, tightly attached nits on the hair shaft within 4 mm of the scalp are at least indicative of a historic infestation and can be suggestive of active infestation.1,19 Dermoscopy is a helpful tool in differentiating eggs containing nymphs from the empty cases of hatched lice and also from amorphous pseudonits (hair casts)(Figure 3).19,20 Wet combing improves the accuracy of diagnosing an active infection.21

Figure 3. Amorphous keratin forming a pseudonit on the hair shaft.

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