Dietiltoluamida

Uses

Dietiltoluamida is an insect repellant, also known as DEET.

Dietiltoluamida, or DEET, is an active ingredient that is predominantly indicated for as an insect repellant used to repel biting pests like mosquitoes and ticks . Products containing DEET currently are available to the public in a variety of liquids, lotions, sprays, and impregnated materials like towelettes or roll-ons .

Dietiltoluamida is also used to associated treatment for these conditions: Insect Bites, Sunburn

How Dietiltoluamida works

The exact mechanism(s) of action by which both (a) insects are repelled by diethyltoluamide (DEET), and (b) humans can be affected deleteriously by exposure to toxic amounts of DEET have not yet been formally elucidated .

Research is ongoing regarding the exact mechanism of action by which DEET is capable of repelling insects. However, the most longstanding mechanism proposes that the DEET chemical blocks the olfactory receptors of insects for the volatile 1-octen-3-ol compound that is an element in human sweat and breath . As a consequence, this proposed mechanism suggests that the blockade of insects' senses for this 1-octen-3-ol blinds and prevents the triggering of their biting and/or feeding instinct on humans and other animals that produce that compound . Nevertheless, this theory has not yet been fully elucidated.

Furthermore, recent studies have demonstrated that DEET binds to certain molecular targets like the Anopheles gambiae odorant binding protein 1 (AgamOBP1) with high shape complementarity and the antennae-specific odorant receptor CquiOR136 of the southern house mosquito, Culex quinquefasciatus . In southern house mosquitos with reduced CquiOR136 transcript levels, behavioral tests demonstrated that this phenotype showed demonstrably lower responses/repulsion to DEET . Again, however, such findings require continued research and do not formally elucidate the mechanism of action by which DEET can repel insects.

And finally, the mechanism of toxicity in which DEET is capable of eliciting effects of neurotoxicity in humans who have been exposed to toxic levels of the agent is also poorly understood . A recent study proposes that DEET is capable of blocking Na+ and K+ channels in the rat animal model . This ion channel blocking activity of DEET in neurons may subsequently contribute to the kind of neuro-sensory adverse effects like numbness experienced after inadvertent application to the lips or mouth of humans .

Toxicity

Ingestion of diethyltoluamide (DEET) in adults may lead to hypotension, seizures, and/or coma within as little as an hour . Deaths have been associated with serum concentrations of 1 mmol/L . Psychosis was described in an adult who had applied a product containing 70% DEET to the skin .

Food Interaction

Volume of Distribution

After dermal application, about 17% of the absorbed diethyltoluamide (DEET) dose enters the bloodstream . DEET accumulates in the skin, contributing to local irritation and possibly even bullous dermatitis . Accumulation within the body, however, has not been reported and experimentally there have been no cumulative effects of subtoxic doses of DEET; but various case reports of toxicity in man suggests that accumulation of the repellent could occur, and with deleterious effects .

Elimination Route

Most diethyltoluamide (DEET) formulations employ the agent as a liquid to be applied onto human skin in an effort to repel mosquitoes from feeding on the skin. Topical application and absorption is consequently the most common route of absorption. When used appropriately, DEET formulations are generally not indicated for too many other routes of absorption or administration, like parenterally or orally.

DEET is absorbed quickly through intact skin; 48% of the applied dose is totally absorbed within 6 hours . Topical absorption is the usual route of entry as DEET is normally applied to the skin as a mosquito repellent . DEET applied to the skin has also been shown to accumulate in the dermis . DEET is rapidly absorbed after oral ingestion . Additionally, animal experiments demonstrate that DEET can cross the placenta .

DEET is efficiently absorbed across the skin and by the gut . Blood concentrations of about 3 mg/L have been reported several hours after dermal application in the prescribed fashion .

Between 9% and 56% of dermally applied DEET is absorbed through the skin with peak blood levels being attained within 1 hour . Absorption through the skin varies according to the site exposed to the DEET . In animal model surfaces corresponding to the human palmar surface (an area that is typically heavily exposed during the application of liquid DEET), 68% of administered topical DEET was absorbed . As a consequence, small children are at increased risk of excessive absorption of DEET applied to the skin because of their relatively higher surface to volume ratio compared to adults .

Half Life

The elimination half-life of diethyltoluamide (DEET) is observed to be about 2.5 hours .

Clearance

Readily accessible data regarding the clearance of diethyltoluamide (DEET) is not available.

Elimination Route

Dietiltoluamida (DEET) is principally excreted via the kidneys, where the initial phase is initially rapid but not more than 50% of the absorbed dose is excreted during the first 5 days . In a study with a human volunteer weighing 65.8 kg and having been treated with 15 g of 95% DEET, urinary levels of DEET and a metabolite were measurable 4 hours after the initial exposure and persisted 48 hours later . Maximum urinary levels of DEET observed were 207 mg/L at 8 hours .

Innovators Monograph

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