No nit 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 and the National Association of School Nurses advocate that "no-nit" policies should be discontinued, 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.

Nits

A nit is the egg of a louse. They are white, resembling dandruff, and 0.8 mm long. They cement to the hair base where they are difficult to remove, and may survive for three weeks away from the host. In British and Irish slang the term "nit" commonly refers to a head louse.
Only the presence of live crawling lice constitutes an infestation. Much of the controversy surrounding school head lice policy centers on the question of what to do with children discovered to have nits, but no visible lice. Indeed, one-third to three-fourths of children with nits fall into this category. The nits-only population therefore represents a significant fraction of children potentially subject to school exclusion and/or treatment with insecticides. Such children have evidence of infestation, but the infestation may be extinct.
Unfortunately, false negative conclusions regarding infestation have long been recognized as a problem in head lice diagnosis. Depending on the methods used, live lice can be easily missed during inspection. For example, a 1998 Israeli study found that 76% of live lice infestations were missed by visual inspection. Although lice cannot fly or jump, they are fast and agile in their native environment, and will try to avoid the light used during inspection. Lice populations are also sparse, which can contribute to difficulty in finding live specimens. Two-thirds of infestations are composed of 10 or fewer individual lice. Further, lice populations consist predominantly of immature nymphs, which are even smaller and harder to detect than adult lice.
These difficulties have, at times, led to the recommendation that the presence of nits alone be used to infer infestation:
A 1998 American study attempted to clarify the infestation risk associated with a "nits-only" diagnosis. They found that 18% of children with nits became infested 14 days later. Whether these new lice came from viable eggs or via transmission from other hosts was not clear. Transmission from other hosts would tend to overestimate the infestation risk associated with nits. In addition, some children were treated with pediculicides during this 14-day period. Successful treatments tend to underestimate the infestation risk associated with nits. These limitations of the study notwithstanding, the authors concluded:
Although "nits-only" children are unlikely to become infested, this is not to say that a nit-free population is without value. Much of the difficulty in accurately diagnosing head lice stems from the possibility that observed nits are due to an extinct infestation. However, if a policy of required nit removal is enforced, this is no longer an issue. Against a background of nit-free children, spotting new infestations through routine screening becomes as easy as spotting the nits. This ease in screening comes at a price, though, namely the effort expended in removing nits. And to the extent that no-nit policies result in absenteeism, the child's education suffers, and the school's funding may be reduced.

Inspection

A 1991 survey of American nurses reported that 27% have regular inspection programs in place at their schools. 85% reported inspection on an "as-needed" basis. Routine inspection of children is advocated by a variety of nurses, researchers, organizations, and governments.
Head lice cannot live more than a day or two away from a host. Any remaining eggs will hatch in one to two weeks, and absent a host, the emerging nymphs will die within hours. Thus, simply leaving the school vacant for a week or two is sufficient to disinfect all fomite sources of head louse infection. The return of children to this now-clean environment is an ideal time to check for infestations and attempt to keep the environment lice-free. The California Department of Public Health encourages inspections to be performed on Fridays.
Some health researchers oppose regular inspections. This opposition to school inspections coincides with opposition to no-nit policies, and is based on similar reasoning.
Lice infestation is not a reportable disease, so data on head lice incidence are sparse., no control-matched study exists on the effect of school screening programs on head lice prevalence. Further, although some authors note a stubborn prevalence of head lice during the latter half of the 20th century, this has occurred in an environment of rather lax screening efforts. For example, a 1991 survey of American nurses reported that only 27% had regular screening programs in place at their schools. Anecdotal evidence suggests that school screening programs can reduce head lice prevalence. Certainly, the effectiveness of these programs must be determined before their cost effectiveness can be evaluated.
Barbara Frankowski, a critic of school screenings, argues that time spent screening children by school nurses is better spent on other tasks. This attitude reflects those held by some American school nurses themselves, 27% of whom believe that eliminating lice infestations is not an important role of school nursing. Even more telling, only 11% of American school nurses find treating head lice to be professionally gratifying. Similar attitudes exist among Canadian school nurses.
School inspections are often short—about one minute per child. Frankowski argues that such inspections are not thorough enough to be accurate, and so may lead to a false sense of security. Indeed, a 1998 study of Israeli children found that live lice took an average of 57 – 116 seconds to detect depending on the technique used. L. Keoki Williams and others acknowledge this shortcoming of school screening, and suggest that children found to have nits undergo an additional 5- to 10-minute examination to exclude the presence of live lice. In contrast, the American Academy of Pediatrics argues not for increased inspection time, but elimination of the school screenings altogether, with parents being educated and encouraged to inspect their own children at home. This attitude, coupled with the AAP's opposition to the no-nit policy, would essentially absolve school administrators of responsibility to directly manage pediculosis in their student body.

Discovery of infested students

Immediate exclusion from school

Discovery of infested students typically occurs during a school day. Assuming the presence of live lice is the criteria used to infer infestation, an ethical dilemma is presented to school nurses and administrators. Should this student, now known to be infectious, be returned to class where transmission to other students could occur? Or alternatively, should the student be immediately removed from the group setting? Schools have very limited capacity to individually supervise students outside of the classroom, so removal from the classroom means requesting that the child's parents pick up their child.
Parents often become upset when the school nurse telephones their place of employment to inform them of their child's infestation and to request they come and collect their child. Nonetheless, immediate exclusion policies are explicitly advocated by some nurses. A 1998 survey revealed that almost all American school nurses send home infested students upon discovery.
Opponents to immediate exclusion policies point out that the discovery of infestation is merely recognition of what has been an infectious condition for a number of months. Given that context, they argue, one more day of group contact is unlikely to result in more transmission than has already occurred. This contrasts with more short-term and highly communicable viral diseases such as chickenpox, influenza, or measles where immediate exclusion might reasonably reduce disease spread within the school.
The value of immediate exclusion for lice depends to some extent on the frequency of asymptomatic screening at the school. More frequent screening would tend to decrease the average time between infestation and discovery of that infestation. This would make the one day associated with immediate exclusion a more significant fraction of the total time the student was infectious. But even ardent supporters of asymptomatic screening do not advocate screenings more than once every three months. This suggests that the effect of immediate exclusion might be an exposure time reduction of as little as 1.6%, even under strict screening guidelines.
These changing attitudes on immediate exclusion appear to be affecting public policy. For example, in Australia, the National Health and Medical Research Council states that infested children need not be sent home upon discovery. Similarly, the California Department of Public Health advocates a head lice policy that does not immediately exclude infested children.

Communicability in school settings

Evaluating immediate exclusion policies is difficult, because the communicability of head lice in school settings has not been carefully studied. This has not, however, prevented authors from confidently asserting their opinion:
Two studies have noted clustering of head louse infestation by classroom. However, the authors differ in their interpretation of this clustering. In 1997, Richard Speare and Petra Buettner noted prevalence ranges of 0% to 72.2% across classrooms in the same grade and in the same Australian school. This led them to favor the idea that "opportunities for transmission are prominent within the classroom". Indeed, their data suggest that classrooms synchronize in terms of infestation status.
In contrast, Janis Hootman suggests that school communicability is low. In 1998 she found that infestations within American classrooms were restricted to a minority of chronically infested students. Hootman concluded that the infested students have access to an infectious source that their classmates do not. Similarly, she found that clusters of pediculosis within classrooms were associated with social interactions outside school. This indicates that transmission can occur between classmates, but again, these transmission events may be occurring away from school grounds.