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Triazofos

April 15, 2024

Triazofos is a chemical compound used in acaricides, insecticides, and nematicides.

Triazofos
Names
Preferred IUPAC name
O,O-Diethyl O-(1-phenyl-1H-1,2,4-triazol-3-yl) phosphorothioate
Identifiers
  • 24017-47-8 Y
3D model (JSmol)
  • Interactive image
ChemSpider
  • 29847
ECHA InfoCard 100.041.791
  • 32184
UNII
  • 6099J8L0EE Y
  • DTXSID9037612
  • InChI=1S/C12H16N3O3PS/c1-3-16-19(20,17-4-2)18-12-13-10-15(14-12)11-8-6-5-7-9-11/h5-10H,3-4H2,1-2H3
    Key: AMFGTOFWMRQMEM-UHFFFAOYSA-N
  • InChI=1/C12H16N3O3PS/c1-3-16-19(20,17-4-2)18-12-13-10-15(14-12)11-8-6-5-7-9-11/h5-10H,3-4H2,1-2H3
    Key: AMFGTOFWMRQMEM-UHFFFAOYAB
  • S=P(OCC)(OCC)Oc1ncn(n1)c2ccccc2
Properties
C12H16N3O3PS
Molar mass 313.31 g·mol−1
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).

History edit

Triazofos has been registered in the Federal Office of Consumer Protection and Food Safety since 1975 [1] and authorized as an insecticide in the EU until 31 December 2004 (Commission Regulation No 2076/2002). As of 25 July 2003 it was revoked under Commission Regulation No 1336/2003. The production of triazofos began in the 1980s as a Hoechst patent by the company Bayer.[2] In 2011 Bayer announced termination of the sale of this product, due to its poisonous properties.[3]

Synthesis and available forms edit

Synthesis edit

Triazofos can be synthesized through various reactions.

A method of manufacturing triazofos produces the substance in the presence of triethylamine by reacting 1-phenyl-3-hydroxy-1H-1,2,4-triazole suspended in acetone with diethoxythiophosphoryl chloride.[4]

Another method produces the substance by the reaction of phenylhydrazine with Sodium cyanate, formamide and O,O-diethyl phosphorochlorothioate using cyanate additions, condensation and dehydrochlorination.[4]

An improved process for manufacturing triazofos uses phase transfer catalyst to achieve higher yields and purity. By comprising substituted 1-phenyl 3-hydroxy-1, 2, 4-triazole with 0, -diethylthiophosphoryl chloride in the presence of acide scavengers and 0.2% to 2.0% phase transfer catalyst at a temperature between 20-45 degrees Celsius in a suitable solvent like water. Followed by cooling and separating/extracting the aqueous layer from the organic layer by using a solvent such as xylene, toluene methylene dichloride or water for complete recovery of at least 92% triazofos purity.[5]

Available forms edit

Triazofos is available in several forms; as an emulsifiable concentrate (40%), wettable concentrates, wettable powders (30%), ultralow-volume liquids (25%, 40%) and granules (5%) at various concentrations.[6]

Chemical properties edit

Structure and reactivity edit

Triazofos is an organophosphate pesticide used in acaricides, insecticides and nematicides.[7] Its chemical formula is : C12H16N3O3PS containing a molar mass of 313,31 g/mol. The chemical compound is susceptible to highly toxic and flammable phosphine gas formation in the presence of strong reducing agents (such as hydrides). It belongs to the reactive groups of: amines, phosphines and pyridines. Azo, diazo, azido, hydrazine and organic azide compounds. esters, sulfate esters, phosphate esters, thiophosphate esters and borate esters. Liquids with these reactive groups have been known to react with mineral-based and clay-based absorbents. Furthermore, partial oxidation of the organophosphate can result in the toxic phosphorus oxides release.

Metabolism and mechanisms of action edit

Metabolism edit

The metabolic fate of triazofos has been studied in rats and dogs.

23 female Wistar (WISKf (SPF 71)) rats were given triazofos labelled at the 3 position (radiochemical purity, 98%) as a single oral dose of about 5 mg/kg bw in sesame oil by gastric intubation.[8] Twenty of the rats were used to examine excretion and metabolism and the other three for blood assays.

The maximum blood drug concentration (Cmax) was achieved after about 4 hours. The average half-life (t1⁄2) of radioactivity in the blood was 3.8 hours. After 96 hours, the recovery rate was 98%, indicating that excretion was nearly complete. Over 90% of the administered radioactivity was excreted via the urine within 48 hours. 4.5% of the excretion was accounted for by faecal elimination after 48 hours.

From all the tissues that were analysed, the highest concentration of radioactivity was found in the kidney and the liver, at a relatively low concentration of <0.004 ppm. the urine showed three identifiable metabolites: 1-phenyl-3-hydroxy-(1H)-1,2,4-triazole (43% of the administered dose) and its glucuronide (36%) and sulfate conjugates (13%). The glucuronide was converted back to the parent compound at room temperature, due to it being unstable. Unchanged triazofos was not detected in the urine, and quantities of radioactivity in the faeces were too low for defining of the chemical species.

The metabolic fate of triazofos was also examined in two female beagle dogs, with the same treatment and sampling regimen as for rats.[8] 14C triazofos at a dose of 4.4–4.8 mg/kg bodyweight was administered in sesame oil by gastric intubation. Of the administered dose, an average of 85% after 24 hours and 92% after 48 hours was excreted via the urine. Only 0.3% after 24 hours and 7.2% after 48 hours was accounted for by faecal elimination. Maximum blood drug concentration was achieved after 2 hours. After 48 hours, there was no detectable radioactivity in the blood, and the average half-life was 3.6 hours.

Altogether, the metabolic fate of triazofos in dogs was similar to that in rats .[8] The urine consisted of the same three metabolites as in rats. However, there was one other metabolite found only in the dog's urine representing 11% of the administered dose. It was considered to be another sulfate ester conjugate of the 1-phenyl-3-hydroxy-(1H)-1,2,4-triazole metabolite. There was no unchanged triazofos found in the urine of the dogs. The faeces contained low concentrations of triazofos and the free 1-phenyl-3-hydroxy-(1H)-1,2,4-triazole metabolite as well as five unidentified metabolites at about 0.7, 0.3 and 7.3% of the administered dose, respectively.

Effects on animals edit

The signal of oral poisoning similarly happen in mice, rats and dogs, characterized by tremors, abdominal position, squatting, jerky respiration, lachrymation, salivation, saltatory spasm, tonic convulsions.[9][10]

  • Acute Toxicity: In mice, rats and guinea-pigs, the acute LD50 value of triazofos ranged from 26–82 mg/kg body weight, while dogs have higher values up to 500 mg/kg body weight. Deaths occurred within minutes to several days after oral administration. Resulting in WHO's consideration of triazofos as a highly hazardous compound.
  • Genotoxicity: In the study of toxicity and carcinogenicity effects in mice and rats, triazofos induced no significant or consistent increase in any tumour types.
  • Reproductive toxicity: Signs of toxicity such as aggressive behaviour and decreased body weight and food consumption were seen only in F1 parent. Hence, there is no significant effect observed for the reproductive toxicity

Mechanism of action edit

Triazofos interacts with several enzymes and signalling pathways according to various bio-assay results:[11][4]

  • inhibits vitamin D receptor (VDR).
  • acts as a small molecule disruptors of the mitochondrial membrane potential.
  • acts as a disruptor of small molecule activators of the human pregnane X receptor (PXR) signalling pathway.
  • acts as a genotoxic compound against isogenic chicken DT40 cell lines.
  • acts as a small molecule antagonist of the oestrogen receptor alpha (Er-alpha) signalling pathway.
  • acts as a small molecule that activates the Aryl (AHR) hydrocarbon receptor signalling pathway.
  • acts as a small molecule antagonist of the constitutive androstane receptor (CAR) signalling pathway.

Efficacy and toxicity edit

Efficacy edit

The use of triazofos as an insecticide in many Asian countries such China, India and Indonesia is widely known due to many insects and pests playing important roles in the market production of staple plant food production.[12] Among various constraints, leafhoppers (Amarasca devastans) and whiteflies (Bemisia tabaci) are one of the major factors in cultivation problems due to their capability to suck the cell sap of plants.

An experiment was conducted by Horticultural Ecosystem in India about the efficacy of triazofos as an insecticide for leafhoppers and whiteflies on Brinjal (Solamum melongena L), one of the prominent crops in India.[13] The investigation was arranged with various market names of triazofos with varying concentrations. The analysis was established after 20 days of transplanting and observing the pest incidence.

Before spraying the insecticide, there were no observations of significant numbers between leafhoppers and whiteflies with the respect to leaf samples.[13]

The visual observations were also constructed in assessing phytotoxic symptoms such as injury on leaf tips or surface, wilting, etc. Nonetheless, no phytotoxic symptoms were observed on the plants with the treatment. In conclusion, the triazofos of 1250 ml/ ha was most effective against leafhoppers, whiteflies and shoot and fruit borer of brinjal.[13]

Toxicity edit

Triazofos (O,O-diethyl O-1-phenyl-1H-1,2,4-triazol-3-yl phosphorothioate) is considered an organophosphorus pesticide toxicologically by JMPR in 1982, 1986 and 1991. With an ADI of 0–0.001 mg/kg bodyweight. This establishment was made regarding the view of triazofos in causing delayed neurotoxicity.[9][10]

Toxicological evaluation revealed the maximum level of triazofos which causes no toxicological effect and the maximum level of exposure considered acceptable for humans. The estimated acceptable daily intake for humans is 0–0.001 mg/kg bodyweight.(See Table 2 and 3)

Table 1. Maximum level of triazofos which cause no toxicological effect
Mouse 30 ppm in the diet, equal to 4.5 mg/kg bw/day (2 year of study)
Rat 3 ppm in the diet, equal to 0.17 mg/kg bw/day (2 year of study)
Dog 4 ppm in the diet, equal to 0.12 mg/kg bw/day (1 year of study)
Human 0.0125 mg/kg bw/day (3 week study)
Table 2: Measured maximum exposure level of triazofos which is considered acceptable for humans.
Summary Value Study Safety Factor
ADI 0-0.001 mg/kg bw 3 weeks, humans 10
Acute RfD 0.001 mg/kg bw 3 weeks, humans 10

Adverse effects and health hazards in humans edit

Acute exposure to triazofos may produce the following signs and symptoms: sweating, blurred vision, headaches, dizziness, profound weakness, muscle spasms, seizures, coma, mental confusion and psychosis, excessive salivation, nausea, vomiting, anorexia, and diarrhea.[7] Respiratory signs include dyspnoea, pulmonary oedema, respiratory depression and respiratory paralysis. Chest pains are also reported. The organophosphate pesticide contains material with cholinesterase inhibitor which corresponds to the acts on the central nervous system. Organic phosphorus insecticides can be absorbed by the skin, respiratory and gastrointestinal tracts.

Antidote edit

The following antidotes can relieve poisoning obtained from triazofos. Pralidoxime, a treatment of choice pralidoxime (Protopam, 2-PAM) can be used as a cholinesterase reactivator in cases of severe poisoning.[11] Less than 48 hours after poisoning, pralidoxime relieves the nicotinic and muscarinic effects. It works by reactivating the cholinesterase and also by slowing the ageing process of phosphorylated cholinesterase to its non-reactivable form. Another antidote is Atropine. Atropine is effective against muscarinic manifestation but not to nicotinic actions such as muscle weakness and twitching and respiratory depression. The use of atropine has been reported to improve respiratory distress, decrease bronchial secretions and increase the oxygenation.

References edit

  1. ^ Brandt, P. Franz, H. Holzman, A. (2009). Berichte zu Pflanzenschutzmitteln 2009. Retrieved on March 17th 2017, from website: http://www.bvl.bund.de/SharedDocs/Downloads/04_Pflanzenschutzmittel/bericht_WirkstoffeI%20nPSM_2009.pdf?__blob=publicationFile&v=3
  2. ^ Commission Regulation (EC) No 1336/2003 of 25 July 2003 amending Regulation (EC) No 2076/2002 as regards the continued use of the substances listed in Annex II
  3. ^ CBG. (Undated). Coalition against BAYER dangers. Retrieved on March 17th 2017, from website: http://www.cbgnetwork.org/4047.html
  4. ^ a b c Toxnet. (Undated). HSDB: Triazophos: Methods of Manufacturing. Retrieved on March 10th 2017, from website: https://toxnet.nlm.nih.gov/cgibin/sis/search2/r?dbs+hsdb:@term+@rn+@rel+24017-47-8
  5. ^ Sambhaji, P.S Murgyappa, S.A. Shivaji, B.C. Bhairu, K.V. Gopal, M.S. Pratap, S.M & Kumar, K.V. (2008). An improved process for preparation of triazophos. Retrieved on March 10th 2017, from website: http://www.allindianpatents.com/patents/220854-an-improved-process-for-preparationof-triazophos
  6. ^ PubChem Compound Database. (Undated). Triazophos: Formulations/Preparations. Retrieved on March 17th 2017, from website: https://pubchem.ncbi.nlm.nih.gov/compound/Triazophos#section=Formulations-Preparations
  7. ^ a b Cameo Chemicals. (Undated). Triazofos. Retrieved on March 17th 2017 from website: https://cameochemicals.noaa.gov/chemical/5222
  8. ^ a b c InChem. (Undated). Triazophos. Retrieved on March 17th from website: http://www.inchem.org/documents/jmpr/jmpmono/v86pr18.htm
  9. ^ a b Inchem. (1982). Pesticide Residues in food – 1982. Retrieved on March 17th 2017, from website: http://www.inchem.org/documents/jmpr/jmpmono/v82pr33.htm
  10. ^ a b Hamernik, K.L. (Undated). Pesticide residues in food – 2002- Joint FAO/WHO meeting on pesticide residues: Triazophos. Retrieved on March 17th 2017, from website: http://www.inchem.org/documents/jmpr/jmpmono/2002pr14.htm
  11. ^ a b PubChem Compound Database. (Undated). Triazophos: Biological Test Results (Bioassay results). Retrieved on March 17th 2017, from website:https://pubchem.ncbi.nlm.nih.gov/compound/Triazophos#section=BioAssay-Results
  12. ^ Lal, R. Jat, B.J. "Bio-efficacy of insecticides and biorationals against the incidence of whitefly, Bemisia tabaci (Genn.) and yellow mosaic virus in mungbean. Departments of Entomology, CCS Haryana Agricultural University, India. African Journal of Agricultural Research. Vol. !0 (10) pp. 1050-1056.
  13. ^ a b c Kumar, P. (2010). "Efficacy of Triazophos 40 EC against pest complex of brinjal". Kittur Rani Channamma College of Hrticulture, Karnataka, India. Pest Management in Horicultural Ecosystems. Vol. 16 (1). Pp 87-89.

April 15, 2024
triazofos, chemical, compound, used, acaricides, insecticides, nematicides, namespreferred, iupac, name, diethyl, phenyl, triazol, phosphorothioateidentifierscas, number, 24017, model, jsmol, interactive, imagechemspider, 29847echa, infocard, 791pubchem, 32184. Triazofos is a chemical compound used in acaricides insecticides and nematicides Triazofos NamesPreferred IUPAC name O O Diethyl O 1 phenyl 1H 1 2 4 triazol 3 yl phosphorothioateIdentifiersCAS Number 24017 47 8 Y3D model JSmol Interactive imageChemSpider 29847ECHA InfoCard 100 041 791PubChem CID 32184UNII 6099J8L0EE YCompTox Dashboard EPA DTXSID9037612InChI InChI 1S C12H16N3O3PS c1 3 16 19 20 17 4 2 18 12 13 10 15 14 12 11 8 6 5 7 9 11 h5 10H 3 4H2 1 2H3Key AMFGTOFWMRQMEM UHFFFAOYSA NInChI 1 C12H16N3O3PS c1 3 16 19 20 17 4 2 18 12 13 10 15 14 12 11 8 6 5 7 9 11 h5 10H 3 4H2 1 2H3Key AMFGTOFWMRQMEM UHFFFAOYABSMILES S P OCC OCC Oc1ncn n1 c2ccccc2PropertiesChemical formula C 12H 16N 3O 3P SMolar mass 313 31 g mol 1Except where otherwise noted data are given for materials in their standard state at 25 C 77 F 100 kPa Infobox references Contents 1 History 2 Synthesis and available forms 2 1 Synthesis 2 2 Available forms 3 Chemical properties 3 1 Structure and reactivity 4 Metabolism and mechanisms of action 4 1 Metabolism 4 2 Effects on animals 4 3 Mechanism of action 5 Efficacy and toxicity 5 1 Efficacy 5 2 Toxicity 5 2 1 Adverse effects and health hazards in humans 5 2 2 Antidote 6 ReferencesHistory editTriazofos has been registered in the Federal Office of Consumer Protection and Food Safety since 1975 1 and authorized as an insecticide in the EU until 31 December 2004 Commission Regulation No 2076 2002 As of 25 July 2003 it was revoked under Commission Regulation No 1336 2003 The production of triazofos began in the 1980s as a Hoechst patent by the company Bayer 2 In 2011 Bayer announced termination of the sale of this product due to its poisonous properties 3 Synthesis and available forms editSynthesis edit Triazofos can be synthesized through various reactions A method of manufacturing triazofos produces the substance in the presence of triethylamine by reacting 1 phenyl 3 hydroxy 1H 1 2 4 triazole suspended in acetone with diethoxythiophosphoryl chloride 4 Another method produces the substance by the reaction of phenylhydrazine with Sodium cyanate formamide and O O diethyl phosphorochlorothioate using cyanate additions condensation and dehydrochlorination 4 An improved process for manufacturing triazofos uses phase transfer catalyst to achieve higher yields and purity By comprising substituted 1 phenyl 3 hydroxy 1 2 4 triazole with 0 diethylthiophosphoryl chloride in the presence of acide scavengers and 0 2 to 2 0 phase transfer catalyst at a temperature between 20 45 degrees Celsius in a suitable solvent like water Followed by cooling and separating extracting the aqueous layer from the organic layer by using a solvent such as xylene toluene methylene dichloride or water for complete recovery of at least 92 triazofos purity 5 Available forms edit Triazofos is available in several forms as an emulsifiable concentrate 40 wettable concentrates wettable powders 30 ultralow volume liquids 25 40 and granules 5 at various concentrations 6 Chemical properties editStructure and reactivity edit Triazofos is an organophosphate pesticide used in acaricides insecticides and nematicides 7 Its chemical formula is C12H16N3O3PS containing a molar mass of 313 31 g mol The chemical compound is susceptible to highly toxic and flammable phosphine gas formation in the presence of strong reducing agents such as hydrides It belongs to the reactive groups of amines phosphines and pyridines Azo diazo azido hydrazine and organic azide compounds esters sulfate esters phosphate esters thiophosphate esters and borate esters Liquids with these reactive groups have been known to react with mineral based and clay based absorbents Furthermore partial oxidation of the organophosphate can result in the toxic phosphorus oxides release Metabolism and mechanisms of action editMetabolism edit The metabolic fate of triazofos has been studied in rats and dogs 23 female Wistar WISKf SPF 71 rats were given triazofos labelled at the 3 position radiochemical purity 98 as a single oral dose of about 5 mg kg bw in sesame oil by gastric intubation 8 Twenty of the rats were used to examine excretion and metabolism and the other three for blood assays The maximum blood drug concentration Cmax was achieved after about 4 hours The average half life t1 2 of radioactivity in the blood was 3 8 hours After 96 hours the recovery rate was 98 indicating that excretion was nearly complete Over 90 of the administered radioactivity was excreted via the urine within 48 hours 4 5 of the excretion was accounted for by faecal elimination after 48 hours From all the tissues that were analysed the highest concentration of radioactivity was found in the kidney and the liver at a relatively low concentration of lt 0 004 ppm the urine showed three identifiable metabolites 1 phenyl 3 hydroxy 1H 1 2 4 triazole 43 of the administered dose and its glucuronide 36 and sulfate conjugates 13 The glucuronide was converted back to the parent compound at room temperature due to it being unstable Unchanged triazofos was not detected in the urine and quantities of radioactivity in the faeces were too low for defining of the chemical species The metabolic fate of triazofos was also examined in two female beagle dogs with the same treatment and sampling regimen as for rats 8 14C triazofos at a dose of 4 4 4 8 mg kg bodyweight was administered in sesame oil by gastric intubation Of the administered dose an average of 85 after 24 hours and 92 after 48 hours was excreted via the urine Only 0 3 after 24 hours and 7 2 after 48 hours was accounted for by faecal elimination Maximum blood drug concentration was achieved after 2 hours After 48 hours there was no detectable radioactivity in the blood and the average half life was 3 6 hours Altogether the metabolic fate of triazofos in dogs was similar to that in rats 8 The urine consisted of the same three metabolites as in rats However there was one other metabolite found only in the dog s urine representing 11 of the administered dose It was considered to be another sulfate ester conjugate of the 1 phenyl 3 hydroxy 1H 1 2 4 triazole metabolite There was no unchanged triazofos found in the urine of the dogs The faeces contained low concentrations of triazofos and the free 1 phenyl 3 hydroxy 1H 1 2 4 triazole metabolite as well as five unidentified metabolites at about 0 7 0 3 and 7 3 of the administered dose respectively Effects on animals edit The signal of oral poisoning similarly happen in mice rats and dogs characterized by tremors abdominal position squatting jerky respiration lachrymation salivation saltatory spasm tonic convulsions 9 10 Acute Toxicity In mice rats and guinea pigs the acute LD50 value of triazofos ranged from 26 82 mg kg body weight while dogs have higher values up to 500 mg kg body weight Deaths occurred within minutes to several days after oral administration Resulting in WHO s consideration of triazofos as a highly hazardous compound Genotoxicity In the study of toxicity and carcinogenicity effects in mice and rats triazofos induced no significant or consistent increase in any tumour types Reproductive toxicity Signs of toxicity such as aggressive behaviour and decreased body weight and food consumption were seen only in F1 parent Hence there is no significant effect observed for the reproductive toxicityMechanism of action edit Triazofos interacts with several enzymes and signalling pathways according to various bio assay results 11 4 inhibits vitamin D receptor VDR acts as a small molecule disruptors of the mitochondrial membrane potential acts as a disruptor of small molecule activators of the human pregnane X receptor PXR signalling pathway acts as a genotoxic compound against isogenic chicken DT40 cell lines acts as a small molecule antagonist of the oestrogen receptor alpha Er alpha signalling pathway acts as a small molecule that activates the Aryl AHR hydrocarbon receptor signalling pathway acts as a small molecule antagonist of the constitutive androstane receptor CAR signalling pathway Efficacy and toxicity editEfficacy edit The use of triazofos as an insecticide in many Asian countries such China India and Indonesia is widely known due to many insects and pests playing important roles in the market production of staple plant food production 12 Among various constraints leafhoppers Amarasca devastans and whiteflies Bemisia tabaci are one of the major factors in cultivation problems due to their capability to suck the cell sap of plants An experiment was conducted by Horticultural Ecosystem in India about the efficacy of triazofos as an insecticide for leafhoppers and whiteflies on Brinjal Solamum melongena L one of the prominent crops in India 13 The investigation was arranged with various market names of triazofos with varying concentrations The analysis was established after 20 days of transplanting and observing the pest incidence Before spraying the insecticide there were no observations of significant numbers between leafhoppers and whiteflies with the respect to leaf samples 13 The visual observations were also constructed in assessing phytotoxic symptoms such as injury on leaf tips or surface wilting etc Nonetheless no phytotoxic symptoms were observed on the plants with the treatment In conclusion the triazofos of 1250 ml ha was most effective against leafhoppers whiteflies and shoot and fruit borer of brinjal 13 Toxicity edit Triazofos O O diethyl O 1 phenyl 1H 1 2 4 triazol 3 yl phosphorothioate is considered an organophosphorus pesticide toxicologically by JMPR in 1982 1986 and 1991 With an ADI of 0 0 001 mg kg bodyweight This establishment was made regarding the view of triazofos in causing delayed neurotoxicity 9 10 Toxicological evaluation revealed the maximum level of triazofos which causes no toxicological effect and the maximum level of exposure considered acceptable for humans The estimated acceptable daily intake for humans is 0 0 001 mg kg bodyweight See Table 2 and 3 Table 1 Maximum level of triazofos which cause no toxicological effect Mouse 30 ppm in the diet equal to 4 5 mg kg bw day 2 year of study Rat 3 ppm in the diet equal to 0 17 mg kg bw day 2 year of study Dog 4 ppm in the diet equal to 0 12 mg kg bw day 1 year of study Human 0 0125 mg kg bw day 3 week study Table 2 Measured maximum exposure level of triazofos which is considered acceptable for humans Summary Value Study Safety FactorADI 0 0 001 mg kg bw 3 weeks humans 10Acute RfD 0 001 mg kg bw 3 weeks humans 10Adverse effects and health hazards in humans edit Acute exposure to triazofos may produce the following signs and symptoms sweating blurred vision headaches dizziness profound weakness muscle spasms seizures coma mental confusion and psychosis excessive salivation nausea vomiting anorexia and diarrhea 7 Respiratory signs include dyspnoea pulmonary oedema respiratory depression and respiratory paralysis Chest pains are also reported The organophosphate pesticide contains material with cholinesterase inhibitor which corresponds to the acts on the central nervous system Organic phosphorus insecticides can be absorbed by the skin respiratory and gastrointestinal tracts Antidote edit The following antidotes can relieve poisoning obtained from triazofos Pralidoxime a treatment of choice pralidoxime Protopam 2 PAM can be used as a cholinesterase reactivator in cases of severe poisoning 11 Less than 48 hours after poisoning pralidoxime relieves the nicotinic and muscarinic effects It works by reactivating the cholinesterase and also by slowing the ageing process of phosphorylated cholinesterase to its non reactivable form Another antidote is Atropine Atropine is effective against muscarinic manifestation but not to nicotinic actions such as muscle weakness and twitching and respiratory depression The use of atropine has been reported to improve respiratory distress decrease bronchial secretions and increase the oxygenation References edit Brandt P Franz H Holzman A 2009 Berichte zu Pflanzenschutzmitteln 2009 Retrieved on March 17th 2017 from website http www bvl bund de SharedDocs Downloads 04 Pflanzenschutzmittel bericht WirkstoffeI 20nPSM 2009 pdf blob publicationFile amp v 3 Commission Regulation EC No 1336 2003 of 25 July 2003 amending Regulation EC No 2076 2002 as regards the continued use of the substances listed in Annex II CBG Undated Coalition against BAYER dangers Retrieved on March 17th 2017 from website http www cbgnetwork org 4047 html a b c Toxnet Undated HSDB Triazophos Methods of Manufacturing Retrieved on March 10th 2017 from website https toxnet nlm nih gov cgibin sis search2 r dbs hsdb term rn rel 24017 47 8 Sambhaji P S Murgyappa S A Shivaji B C Bhairu K V Gopal M S Pratap S M amp Kumar K V 2008 An improved process for preparation of triazophos Retrieved on March 10th 2017 from website http www allindianpatents com patents 220854 an improved process for preparationof triazophos PubChem Compound Database Undated Triazophos Formulations Preparations Retrieved on March 17th 2017 from website https pubchem ncbi nlm nih gov compound Triazophos section Formulations Preparations a b Cameo Chemicals Undated Triazofos Retrieved on March 17th 2017 from website https cameochemicals noaa gov chemical 5222 a b c InChem Undated Triazophos Retrieved on March 17th from website http www inchem org documents jmpr jmpmono v86pr18 htm a b Inchem 1982 Pesticide Residues in food 1982 Retrieved on March 17th 2017 from website http www inchem org documents jmpr jmpmono v82pr33 htm a b Hamernik K L Undated Pesticide residues in food 2002 Joint FAO WHO meeting on pesticide residues Triazophos Retrieved on March 17th 2017 from website http www inchem org documents jmpr jmpmono 2002pr14 htm a b PubChem Compound Database Undated Triazophos Biological Test Results Bioassay results Retrieved on March 17th 2017 from website https pubchem ncbi nlm nih gov compound Triazophos section BioAssay Results Lal R Jat B J Bio efficacy of insecticides and biorationals against the incidence of whitefly Bemisia tabaci Genn and yellow mosaic virus in mungbean Departments of Entomology CCS Haryana Agricultural University India African Journal of Agricultural Research Vol 0 10 pp 1050 1056 a b c Kumar P 2010 Efficacy of Triazophos 40 EC against pest complex of brinjal Kittur Rani Channamma College of Hrticulture Karnataka India Pest Management in Horicultural Ecosystems Vol 16 1 Pp 87 89 Retrieved from https en wikipedia org w index php title Triazofos amp oldid 1172272167, wikipedia, wiki, book, books, library,

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