Fact-checked by Grok 2 weeks ago

Transfluthrin

Transfluthrin is a synthetic characterized by its fast-acting knockdown effect and low environmental persistence, with the molecular formula C₁₅H₁₂Cl₂F₄O₂ and a molecular weight of 371.2 g/mol. It functions as a broad-spectrum primarily used in domestic and public hygiene applications to control flying such as mosquitoes, flies, moths, and , including their larvae and eggs. Developed by under the trade name Bayothrin, transfluthrin is formulated in products like aerosols, vaporizers, coils, and mats for indoor and spatial repellent use, and it was first registered for use in the United States in 2018. Transfluthrin exhibits low water solubility (0.057 mg/L) and high lipophilicity (log P = 5.46), leading to rapid degradation in the environment through photolysis (DT₅₀ of 0.6 days in water) and hydrolysis (DT₅₀ of 5 days at pH 7). Ecotoxicologically, it is highly toxic to aquatic organisms (e.g., LC₅₀ = 0.0007 mg/L for rainbow trout and 0.0012 mg/L for Daphnia magna), and it bioaccumulates significantly (BCF = 1226), though it poses moderate risk to bees (LD₅₀ > 2.0 μg/bee). For human health, transfluthrin demonstrates low acute oral and dermal toxicity (LD₅₀ > 5000 mg/kg in rats), but it can cause skin and eye irritation; carcinogenicity data are limited and it is classified as a suspected carcinogen (category 2) in the EU, with some studies suggesting potential genotoxicity, though potential kidney and liver effects warrant caution. It is classified as a Highly Hazardous Pesticide (Type II) and is not approved for use in the European Union under Regulation (EC) No 1107/2009 or in Great Britain. In recent applications, transfluthrin has been incorporated into innovative products like the EPA-registered AM 601 Pod, a wax-based repellent, and combined with other active ingredients such as in Bayer's Fludora® Co-Max for enhanced against resistant populations.

Chemical Properties

Structure and Nomenclature

Transfluthrin is a synthetic characterized by its linkage between a and a tetrafluorobenzyl alcohol moiety. The molecule consists of a substituted ring bearing gem-dimethyl groups at position 2 and a 2,2-dichlorovinyl substituent at position 3, esterified to the 2,3,5,6-tetrafluorobenzyl group. This structure incorporates halogenated elements, including atoms on the vinyl group and atoms on the benzyl ring, contributing to its and insecticidal properties. The molecular formula of transfluthrin is C₁₅H₁₂Cl₂F₄O₂, with a of 371.15 g/mol. Its IUPAC name is (2,3,5,6-tetrafluorophenyl)methyl (1R,3S)-3-(2,2-dichloroethenyl)-2,2-dimethylcyclopropane-1-carboxylate, and it is identified by the number 118712-89-3. Transfluthrin is a chiral with two asymmetric centers on the ring, existing predominantly as the trans isomer. The commercial technical material contains 96.5% of the active 1R-trans , specifically the (1R,3S) , while the remaining isomers (1S-trans, 1S-cis, and 1R-cis) are present as impurities. The trans is significant for its enhanced insecticidal activity compared to the cis isomer, as the spatial arrangement optimizes to target sites in nervous systems.

Physical and Chemical Properties

Transfluthrin is typically observed as a white to brown or , with the form varying based on purity levels. It melts at 32 °C and boils at 242 °C under standard . The compound has a of 1.386 g/, reflecting its relatively high per in pure form. In terms of , transfluthrin shows very low solubility of 0.057 mg/L at 20 °C and 7, which limits its dissolution in aqueous environments. Its octanol-water partition coefficient (log P) of 5.46 underscores significant , favoring partitioning into organic phases over . This property influences its behavior in biological and environmental systems. Transfluthrin exhibits notable volatility due to its of 0.1 mPa at 20 °C, allowing it to evaporate readily at ambient temperatures without external heating. Stability assessments reveal a of 5 days at 20 °C and 7, alongside a photolysis of 0.6 days in under relevant conditions. These traits align with the generally low persistence observed in pyrethroids.

Uses and Applications

Insect Control

Transfluthrin is effective against a range of flying insects, including mosquitoes, flies, and moths, as well as crawling insects such as . It primarily targets adult pests through contact and vapor action as a synthetic , and is also effective against their larvae and eggs in some applications. The finds primary application in indoor environments, such as households, commercial buildings, offices, and industrial sites, where it provides spatial repellency to deter insect entry and a rapid knock-down effect to immobilize pests upon exposure. This makes it suitable for protecting occupied spaces from without requiring direct surface treatments. As a volatile , transfluthrin is deployed to create airborne barriers that disperse through the air, offering fast-acting control with minimal residual activity on surfaces, thus emphasizing immediate protection over long-term persistence. It is often incorporated into simple formats like coils or mats to enhance this vapor release. In specific contexts, transfluthrin aids in controlling vectors, such as Anopheles species, by reducing indoor mosquito densities and preventing blood-feeding behavior in households. It also effectively manages common household pests like flies and in residential and commercial settings, contributing to overall and nuisance reduction.

Formulations and Delivery Methods

Transfluthrin is commonly formulated as s for direct spraying in settings, allowing for targeted application against flying such as mosquitoes. These water-based products, containing approximately 0.10% transfluthrin, enable safe use on and in-air dispersion. Vaporizers represent another key formulation, utilizing liquid or solid pad refills in plug-in electric devices for continuous, low-level release of transfluthrin vapor at room temperature. This method provides invisible airborne distribution, leveraging the compound's high volatility to achieve effective spatial coverage with minimal dosing due to its potency. Mosquito coils incorporate transfluthrin into combustible matrices for smoke-based dispersion, while heated mats in electric devices offer a flameless alternative for steady emission. Additional delivery methods include incorporation as additives in paints for long-term surface , where transfluthrin provides residual insecticidal activity influenced by and UV . For outdoor applications, transfluthrin is integrated into eave ribbons, treated screens, and passive emanators to create protective barriers. Recent innovations include combination with in Bayer's Fludora® Co-Max for enhanced control against resistant populations and wax-based pods like the EPA-registered AM 601 for spatial repellency. Commercial examples include water-based s and coils, as well as Bayothrin technical formulations used in various consumer products.

Biological Activity

Mechanism of Action

Transfluthrin belongs to the class of insecticides, which target voltage-gated sodium channels (VGSCs) in nerve cells. By binding to these channels, transfluthrin shifts their voltage-dependence of and slows inactivation, leading to prolonged sodium influx during action potentials. This results in repetitive neuronal firing, membrane , and disruption of impulse transmission, ultimately causing hyperexcitation, , and death. In mosquitoes such as , transfluthrin induces a unique persistent current in VGSCs rather than the characteristic tail current seen with other pyrethroids like or . This effect arises from its distinct binding to receptor sites involving the S5, P1, and S6 helices of the channel, as confirmed by studies that alter sensitivity at these locations. At sublethal doses, VGSC triggers neuronal hyperactivity, promoting spatial repellency through avoidance behaviors that disorient and prevent host-seeking, including blood-feeding in vectors. At higher concentrations, the same escalates to , causing rapid paralysis and incapacitation without significant mortality at repellent levels. Transfluthrin's high enables its molecules to disperse as vapor, interacting directly with sensory neurons and central nervous systems via or over spatial distances. This delivery facilitates fast knock-down by allowing quick penetration through the and into neural tissues, achieving effects within minutes. Compared to less volatile pyrethroids like , transfluthrin's enhanced vapor-phase activity supports non-contact repellency, while its low environmental persistence minimizes residual accumulation.

Efficacy Against Pests

Transfluthrin exhibits rapid knockdown action against various pests, particularly mosquitoes, with a median knockdown time (KD50) of 2 minutes for Anopheles arabiensis when deployed in treated landing boxes, maintaining efficacy up to 3 weeks post-impregnation, though KD50 extends to 7 minutes by week 3. This quick action is attributed to its high , enabling effective vapor dispersion in indoor and semi-field settings. For house flies (Musca domestica), transfluthrin provides substantial point protection, reducing trap captures by approximately 71% in the susceptible strain and 61% in the resistant strain compared to untreated controls in semi-field enclosures. In terms of repellency, transfluthrin demonstrates high spatial repellency rates, such as 95% reduction in mosquito landings in treated areas during laboratory wind tunnel assays against Aedes aegypti, with 89.2% knockdown after 60 minutes at 0.01706% concentration. Field studies in malaria-endemic regions, including Sumatra, Indonesia, have shown it reduces Anopheles host-seeking activity by approximately 70% when used in emanators paired with barrier screens, offering up to 68.9% protection against outdoor bites in simulated conditions. Compared to other pyrethroids like deltamethrin and permethrin, transfluthrin shows superior performance in volatile applications due to lower cross-resistance, with LC50 values of 0.023 mg/m² for susceptible Anopheles funestus and 0.0576 mg/m² for resistant strains (resistance ratio of 2.51), far below ratios exceeding 200 for residual pyrethroids. Regarding resistance, transfluthrin's non-residual, vapor-based mode limits widespread resistance development since its introduction in the , though some pyrethroid-resistant populations exhibit reduced behavioral sensitivity, with mortality dropping to 75% at discriminating concentrations in resistant A. aegypti. Long-term field use in has confirmed sustained efficacy without significant resistance escalation, attributed to its spatial repellent properties that avoid direct contact selection pressures common in insecticides.

Safety and Toxicology

Toxicity to Mammals

Transfluthrin exhibits low to mammals. In rats, the oral LD₅₀ is greater than 5000 mg/kg body weight, indicating minimal risk from . Similarly, the dermal LD₅₀ exceeds 5000 mg/kg body weight, showing low absorption and toxicity through skin contact. For , the 4-hour LC₅₀ in rats is greater than 0.513 mg/L, classifying it as having low respiratory hazard under acute exposure conditions. Subchronic and chronic exposure studies in rats show systemic toxicity at lower doses compared to acute, with a sub-chronic oral NOAEL of approximately 3.5 mg/kg/day (50 ppm) and (2-year) NOAEL of 1.0 mg/kg/day (20 ppm). In studies, liver adenomas were observed in females at 1000 ppm, and urinary bladder papillomas/carcinomas at 2000 ppm, indicating potential target organs including liver and urinary tract. However, at high doses, potential neurotoxic effects such as tremors have been observed, consistent with mechanisms disrupting nerve function. Transfluthrin is a mild irritant to and eyes in tests, classified under GHS III for irritation potential, but it does not cause skin sensitization. In mammals, transfluthrin undergoes rapid via enzymes, leading to quick and that minimizes . The classifies transfluthrin as Class U, unlikely to present an acute hazard in normal use, based on its low toxicity profile across exposure routes.

Human Health Effects and Exposure

Transfluthrin primarily exposes humans through of vapors from indoor vaporizers and sprays, dermal during application of or formulations, and accidental in rare cases such as suicidal attempts or child mishandling. is the dominant route in household settings, with indoor air concentrations typically ranging from 1.3 to 16.4 µg/m³ during device use, leading to estimated daily intakes below levels of concern for most users. Dermal exposure remains negligible for intended uses, as transfluthrin does not penetrate significantly and causes no systemic effects up to high doses. occurs infrequently but can result from product tampering or accidental consumption, often involving co-formulants like solvents that exacerbate effects. Low-level exposure generally produces mild symptoms, including eye and skin , sneezing, or upon direct contact. Higher acute exposures, particularly via , may induce neurotoxic effects such as , tremors, , , and tonic-clonic convulsions due to sodium disruption in the . In severe cases, symptoms can progress to altered consciousness, respiratory distress, , and ; for instance, a 25-year-old woman who ingested 90 mL of transfluthrin liquid experienced convulsions and required but recovered after . A fatal outcome was reported in a 20-month-old following of a transfluthrin-containing repellent, complicated by and , highlighting risks from of solvents alongside the . Another case involved a 62-year-old man whose death was attributed to transfluthrin poisoning, presenting with convulsions, , and . Children under 6 years represent a vulnerable group due to higher susceptibility from immature and greater time spent in treated indoor environments, potentially increasing up to 18 hours daily in confined spaces like campers. Overall assessments indicate low for proper use, with margins of exceeding 190 for children and up to 150,000 for adults, supporting no concerns from or dermal routes in residential settings. To mitigate risks, product labels mandate placement of vaporizers at least 5 feet above the floor, avoidance of direct handling, and use in well-ventilated areas to reduce vapor accumulation. In cases of , immediate medical attention with supportive care—such as anticonvulsants for and monitoring for respiratory complications—is recommended, as no specific exists. Household products carry "Caution" warnings emphasizing safe storage away from children and pets to prevent accidental access.

Environmental Impact

Ecotoxicity

Transfluthrin exhibits high toxicity to organisms, posing significant risks to freshwater ecosystems. For , the acute 96-hour LC₅₀ is greater than 0.0007 mg/L, indicating severe effects even at trace concentrations. Similarly, the 48-hour EC₅₀ for exceeds 0.0017 mg/L, highlighting its potent impact on invertebrate life. In terrestrial environments, transfluthrin shows high to key . Honeybees experience high effects via contact, with an acute LD₅₀ of 0.032 μg per . For earthworms, such as Eisenia foetida, the 14-day LC₅₀ is 184 mg/kg dry weight , suggesting limited but notable disruption to ecosystems. Toxicity to higher vertebrates is lower. Birds, including species like the northern bobwhite quail, have an acute oral LD₅₀ exceeding 2000 mg/kg body weight, classifying it as practically non-toxic on an acute basis. Mammals similarly show low to moderate sensitivity, with acute oral LD₅₀ values greater than 5000 mg/kg in rats. The compound's bioaccumulation potential is concerning due to its high octanol-water partition coefficient (log P = 5.46), which facilitates uptake in organisms, particularly in fatty tissues of aquatic species where bioconcentration factors can reach 1226 L/kg. However, its relatively low environmental persistence mitigates long-term bioaccumulation risks. Specific ecological concerns include threats to pollinators like bees from aerial exposure and to aquatic life via runoff from indoor applications, though its primary use in household settings generally limits widespread outdoor release.

Environmental Fate and Persistence

Transfluthrin undergoes rapid in environmental compartments primarily through microbial processes. In aqueous environments, limited data are available on photolysis; the compound is stable to direct . occurs slowly under neutral conditions, with a DT₅₀ greater than 950 days at 7 and 25°C, leading to breakdown into metabolites such as 2,3,5,6-tetrafluorobenzyl alcohol and 2,3,5,6-tetrafluorobenzoic acid. In water-sediment systems, the overall dissipation DT₅₀ is 11 days, with a water-phase DT₅₀ of 7 days, indicating moderately fast transformation under aerobic conditions. The compound's mobility in soil is limited due to its low water solubility (0.057 mg/L at 20°C) and high (log K₀w = 5.46), which promote strong adsorption to . Estimated organic carbon-water partition coefficient (Kₒc) values range from 50,000 to 80,000 L/kg, resulting in negligible potential and primary retention on surfaces or volatilization. Its semi-volatility ( of 1.5 × 10⁻⁵ at 25°C) facilitates aerial transport, but rapid indirect photolysis in air (estimated DT₅₀ of 1.6 days) contributes to short atmospheric residence times. Overall, transfluthrin is classified as non-persistent in most environmental media, with low persistence in air and attributable to its and degradative instability. In , aerobic yields DT₅₀ values of 1.0–1.9 days, further supporting its non-persistent . potential exists, with a bioconcentration factor (BCF) of 1226 L/kg in aquatic organisms, though risks are mitigated by rapid and depuration ( of 5.4–6.1 days). Field monitoring data on transfluthrin from indoor releases remain limited, with studies primarily focusing on indoor air concentrations rather than outdoor dispersal or long-term environmental impacts.

History and Regulation

Development and Introduction

Transfluthrin was developed by Bayer AG in the 1980s as a fourth-generation , evolving from earlier compounds like through structural modifications to enhance volatility and suitability for indoor . This innovation involved replacing the 4-fluorine atom in fenfluthrin with hydrogen while retaining a tetrafluorobenzyl group derived from permethric acid, resulting in a fast-acting agent with low persistence. The compound, chemically known as 2,3,5,6-tetrafluorobenzyl (1R)-trans-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate, was patented under US 4,889,872 by inventors Naumann and Behrenz, with the application filed in and granted in 1989. Commercial introduction of transfluthrin occurred in , marking its entry as Bayothrin technical material for household applications. Early research emphasized its high and efficacy in systems, with studies demonstrating rapid knockdown of flying like mosquitoes and flies in enclosed spaces. By , it was integrated into products, representing a breakthrough in formulation for sustained release without residual buildup. Initial markets focused on and , where transfluthrin was prioritized for in domestic settings due to its spatial repellent properties and low environmental persistence. Expansion quickly included broader household products against pests such as and moths, with licensing Bayothrin for incorporation into the product line by S.C. Johnson. This development built on milestones by targeting volatile delivery for non-agricultural, indoor hygiene uses.

Regulatory Status

In the United States, transfluthrin received its first registration from the Environmental Protection Agency (EPA) in 2018 under EPA Registration Number 91879-1 for indoor use as an , primarily for in residential settings. The EPA classified it as low-risk for indoor applications based on its low mammalian profile and rapid , allowing its use in products like emanators and mats. In 2023, the EPA approved the first outdoor product containing transfluthrin, the AM 601 Pod, for repelling mosquitoes in residential outdoor and semi-enclosed areas such as porches, with restrictions to minimize environmental exposure. In the , transfluthrin has been approved as an existing active substance under the Biocidal Products Regulation (EU) No 528/2012 since 2014 for product-type 18 (insecticides, acaricides, and products to control other arthropods), specifically for indoor applications like vaporizers and mats. The approval, set to expire on October 31, 2025, was postponed by Commission Implementing Decision (EU) 2025/1806 to allow further review, confirming its continued suitability for biocidal uses. Maximum residue levels (MRLs) for transfluthrin in food are not established, as it is not authorized for agricultural or food-contact applications. The (WHO) recommends transfluthrin for use in public health pesticides, particularly for in malaria-endemic areas, with specifications outlined for the technical concentrate (transfluthrin TC) ensuring purity above 920 g/kg and low impurities. These specifications, first established in 2006 and updated in 2023, support its application in spatial repellents and emanators for indoor protection against mosquitoes. In August 2025, the WHO recommended spatial emanators for malaria and prequalified the first two products incorporating transfluthrin. Due to its high ecotoxicity to aquatic organisms, transfluthrin faces restrictions on outdoor use in many jurisdictions, often limited to enclosed or semi-enclosed spaces to prevent environmental release. In the and , approvals emphasize indoor-only formulations in most cases, with outdoor products requiring specific labeling for low-exposure scenarios. Post-2020 evaluations, including the EPA's 2021 human health and ecological risk assessments, reaffirmed transfluthrin's low hazard classification for approved uses, with no significant risks identified for mammals or humans under labeled conditions. As of 2025, the WHO's updated specifications and the 's approval extension further confirm its safety for applications, with ongoing monitoring for resistance and environmental impacts.

References

  1. [1]
    Transfluthrin | C15H12Cl2F4O2 | CID 656612 - PubChem - NIH
    It has a role as a pyrethroid ester insecticide. It is a carboxylic ester, a member of cyclopropanes, an organochlorine compound and an organofluorine compound.
  2. [2]
    Transfluthrin (Ref: NAK 4455) - AERU - University of Hertfordshire
    Pesticide properties for Transfluthrin, including approvals, environmental fate, eco-toxicity and human health issues.
  3. [3]
    [PDF] SAFETY DATA SHEET BAYOTHRIN™ TECHNICAL - Amazon S3
    Transfluthrin did not cause developmental toxicity in rats and rabbits. Aspiration hazard. Based on available data, the classification criteria are not met.
  4. [4]
    EPA Registers New Mosquito Repellent Product
    Jul 6, 2023 · The product, known as AM 601 Pod, is a wax pod containing dissolved transfluthrin, an insecticide active ingredient.
  5. [5]
    Bayer introduces Fludora® Co-Max to combat resistant mosquitoes ...
    Fludora® Co-Max works by combining two active ingredients: transfluthrin and flupyradifurone - the latter being a novel mode of action for use in public health.
  6. [6]
    transfluthrin data sheet - Compendium of Pesticide Common Names
    Approval: ISO. IUPAC PIN: (2,3,5,6-tetrafluorophenyl)methyl (1R,3S)-3-(2,2-dichloroethenyl)-2,2-dimethylcyclopropane-1-carboxylate.Missing: 96.5% configuration
  7. [7]
    transfluthrin (ISO) - Substance Information - ECHA - European Union
    transfluthrin (ISO); 2,3,5,6-tetrafluorobenzyl (1R,3S)-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate · EC (European Community) or ECHA List number.Missing: stereochemistry | Show results with:stereochemistry
  8. [8]
    [PDF] who specifications and evaluations for public health pesticides
    The transfluthrin active substance is the 1R-trans configuration, and the other three isomers (1S-trans, 1S-cis and 1R-cis) are considered impurities. The ...Missing: 96.5%
  9. [9]
    Human Hazard Assessment Using Drosophila Wing Spot Test as an ...
    These contact and inhalation agents are used as household hygiene products against flying insects, including mosquitoes, flies, moths, and cockroaches.
  10. [10]
    [PDF] Transfluthrin Human Health Risk Assessment DP No. D435696 ...
    Jun 1, 2018 · Appendix B summarizes the physical and chemical properties of transfluthrin. ... Physical/Chemical Properties of Transfluthrin. Parameter. Value.
  11. [11]
    Cockroach Killer Insecticide Transfluthrin 95% 97% 98%Tc - Rayfull
    Cockroach Killer Insecticide Transfluthrin 95% 97% 98%Tc. Common name ... larvae and eggs. Common name: Transfluthrin. Another name: UNII-QWL3SKA6EG ...
  12. [12]
    A household randomized, controlled trial of the efficacy of 0.03 ...
    Transfluthrin is a highly effective fast-acting pyrethroid insecticide used extensively in household and hygiene products, mainly against flying insects, such ...Missing: pests | Show results with:pests
  13. [13]
    Transfluthrin and Metofluthrin as Effective Repellents against ... - NIH
    Sep 14, 2023 · The sub-optimal concentration and mosquito resistance status may directly contribute to the inferior efficacy of MFT products. Furthermore, ...3. Results · 3.1. Toxicity Assay To... · 3.2. Toxicity Assay For...
  14. [14]
    [PDF] Rapid science memo - Environmental Protection Authority
    pyrethrins) are pyrethroid insecticides for the control of mosquitoes, flies, cockroaches, and moths in indoor situations. They have the same insecticidal ...
  15. [15]
    Transfluthrin eave-positioned targeted insecticide (EPTI) reduces ...
    Aug 30, 2021 · The primary aim of the study was to determine if pyrethroid resistance in mosquitoes has a negative impact on the efficacy of transfluthrin EPTI ...
  16. [16]
    Mosquito and Fly Research: Gainesville, FL - Publication : USDA ARS
    We found that transfluthrin may substantially reduce vector mosquitoes, but that efficacy varies by environment, target insect, substrate, and other key factors ...
  17. [17]
    Baygon ® Multi-Insect Killer Waterbased
    Transfluthrin 0.10% w/w,. 99.87% w/w inert ingredients. Contains petroleum distillates. Storage and disposal.
  18. [18]
    Transfluthrin indoor air concentration and inhalation exposure ...
    Aug 6, 2025 · They undergo biotransformation to water-soluble metabolites by esterase-catalyzed hydrolysis ... 5 days. Our findings indicate that ...
  19. [19]
    Transfluthrin – Knowledge and References - Taylor & Francis
    Transfluthrin is a synthetic pyrethroid insecticide that has high vapour action at ambient temperatures. It is used in devices that do not require the ...
  20. [20]
    Baygon Anti-Dengue Mosquito Coil with Lavander Scent
    In stock 7-day returnsTo prevent fire or injury, burn only within sight. Keep away from combustible materials. Move only when not lit. INGREDIENTS. Transfluthrin ...<|control11|><|separator|>
  21. [21]
    [PDF] Transfluthrin indoor air concentration and inhalation exposure ...
    degradation of these compounds by hydrolysis, oxidation and conjugation reactions leading to water- ... After a temporal adjustment (×6 h/8 h and ×5 days/7 days), ...
  22. [22]
    Measured efficacy, bioaccumulation, and leaching of a transfluthrin ...
    Sep 3, 2022 · Field-realistic investigations have demonstrated product efficacy in indoor and outdoor settings against targeted insect populations. ... mosquito ...
  23. [23]
    Small-scale field evaluation of transfluthrin-treated eave ribbons and ...
    Feb 4, 2023 · This study aimed to evaluate the efficacy of low-cost insecticide-treated eave ribbons and sandals as supplementary interventions against indoor-biting and ...
  24. [24]
    Voltage-gated sodium channels as targets for pyrethroid insecticides
    Jan 9, 2017 · The mode of action of pyrethroids is known to be via interactions with the voltage-gated sodium channel.
  25. [25]
    https://doi.org/10.1016/j.ibmb.2024.104214
  26. [26]
    https://doi.org/10.1371/journal.pntd.0009546
  27. [27]
    (PDF) Volatile Pyrethroids as a Potential Mosquito Abatement Tool
    Aug 6, 2025 · This article reviews the known utility of volatile pyrethroids in the context of repellency, acute symptoms, toxicity, and sublethal effects, ...
  28. [28]
    Modified mosquito landing boxes dispensing transfluthrin provide ...
    Jun 24, 2015 · Transfluthrin-treated polyester strips are able to knock-down mosquitoes up to 3 weeks after being impregnated, although this protection ...
  29. [29]
    Point Protection with Transfluthrin against Musca domestica L. in a ...
    Apr 16, 2024 · Our results demonstrated that the synthetic spatial repellent, transfluthrin, is effective in preventing M. domestica adults from entering protected traps.
  30. [30]
    Effectiveness of a transfluthrin emanator and insecticide-treated ...
    Apr 7, 2025 · This tested SE product and other spatial repellents utilizing transfluthrin have shown promise in reducing the host-seeking activity of malaria ...
  31. [31]
    Towards understanding transfluthrin efficacy in a pyrethroid-resistant ...
    Frequent applications of pyrethroids have resulted in resistance development in the major malaria vectors including Anopheles funestus, where resistance is ...
  32. [32]
    [PDF] Transfluthrin - AK Scientific, Inc.
    Physical and Chemical Properties. Physical State: Solid. Molecular Formula ... Toxic solid, organic, n.o.s. (Transfluthrin). Transport hazard class: 6.1 ...
  33. [33]
    [PDF] who specifications and evaluations for public health pesticides
    The transfluthrin content shall be declared (not less than 985 g/kg) and, when determined, the average measured content shall not be lower than the declared.
  34. [34]
    Transfluthrin indoor air concentration and inhalation exposure ...
    ... eye/skin irritation assays. The V1016G mutation of the voltage-gated sodium channel (VGSC) gene contributes to the insecticide resistance of Aedes aegypti ...
  35. [35]
    Accidental ingestion of transfluthrin-containing mosquito repellent ...
    A 20-month-old toddler ingested mosquito repellent, developed respiratory distress, ARDS, and cardiac arrest, leading to death. The case highlights the dangers ...
  36. [36]
    [PDF] Detection and Confirmation of Transfluthrin in Viscera- A Case Study
    Mar 4, 2020 · Transfluthrin is a fast acting pyrethroid with low persistency, may cause symptoms of poisoning including nervousness, anxiety, tremor, ...Missing: exposure | Show results with:exposure<|control11|><|separator|>
  37. [37]
    transfluthrin, liquid mosquito repellent suicidal poisoning
    Tranfluthrin poisoning may lead to unusual increases in leucocyte counts which is self limiting. The seizures can however be resistant to standard anti ...<|control11|><|separator|>
  38. [38]
    [PDF] Department of Agricultural Resources - Mass.gov
    Dec 17, 2024 · ... rats, but no neurotoxic effects were ... Daphnia magna experienced very high acute exposure toxicity as well as a chronic NOAEL of 0.036 ...
  39. [39]
    [PDF] Transfluthrin: Ecological Risk Assessment and Drinking Wa
    Aug 5, 2021 · Hydrolysis Half-life. (25oC). Stable (pH 5). 950 days (pH 7). 15.4 days (pH 9). MRID 49617824. Aerobic Soil Metabolism Half- life (20oC). Sandy ...
  40. [40]
    [PDF] Transfluthrin - Regulations.gov
    Dec 21, 2017 · Transfluthrin is currently registered in Europe as a biocidal product to control insects, mites, and other arthropods under. Directive 98/8 EC ( ...
  41. [41]
    Indoor transfluthrin concentration levels during and after the ...
    Adsorption on indoor surfaces also appears to be a significant elimination process of transfluthrin from the gaseous phase, however acting as a temporary sink ...
  42. [42]
    The history of extensive structural modifications of pyrethroids - PMC
    Nov 20, 2019 · Generally, both cis- and trans-isomers on the cyclopropane ring are insecticidal, but cis-isomers are preferred in agricultural use and trans ...
  43. [43]
    https://pmc.ncbi.nlm.nih.gov/articles/PMC6861428/
  44. [44]
    [PDF] characterization of transfluthrin emissions over time in an enclosed ...
    Aug 5, 2014 · Density== 1.5072 g/cm@ 23°C (74). Vapor Pressure= 9.0xl0-4 Pa. @ 20°C ... Once the surface is saturated with transfluthrin, any additional ...<|control11|><|separator|>
  45. [45]
    [PDF] THE MARKET ACHIEVEMENTS HISTORY THEPRODUCf
    Even though Baygon's formula had proven over the years to be extremely effec- tive, a major breakthrough was made in 1997 with the introduction of Bayothrin.
  46. [46]
    [PDF] Transfluthrin EPA Registration by Novel Textiles and Treatments
    EPA Reg. Number: 91879-1. Date of Issuance: 9/28/18. NOTICE OF PESTICIDE: ... (Note to reviewer – First Aid statements may be boxed or unboxed depending on ...
  47. [47]
    [PDF] Commission Implementing Decision (EU) 2025/1806 of ... - EUR-Lex
    Sep 11, 2025 · (2) The approval of transfluthrin for use in biocidal products of product-type 18 ('the approval') is to expire on 31 October 2025. On 26 April ...Missing: EPA restrictions
  48. [48]
    [PDF] Transfluthrin. Human Health Risk Assessment for Proposed Use in ...
    Nov 4, 2021 · CAS name. (2,3,5,6-tetrafluorophenyl)methyl (1R,3S)-3-(2,2-dichloroethenyl)-2,2- dimethylcyclopropanecarboxylate. CAS registry number. 118712 ...<|control11|><|separator|>
  49. [49]
    [PDF] who specifications and evaluations for - WHO/OMS: Extranet Systems
    Hemani provided data on physical and chemical properties of transfluthrin TC – melting point, vapour pressure, boiling point, octanol/water partition ...