EXPERIMENTAL SUBSTANTIATION OF THE MAXIMUM ALLOWABLE CONCENTRATION OF DIOCTYL TEREPHTHALATE IN THE AIR OF THE WORKING AREA

作者: Radilov A.S.¹, Solntseva S.A.¹, Shkaeva I.E.¹, Dulov S.A.¹, Vivulanets E.V.¹, Protasova G.A.¹, Shabasheva L.V.¹, Nikulina O.S.¹
隶属关系:
1. Research Institute of Hygiene, Occupational Pathology and Human Ecology, Federal Medical Biological Agency
期: 编号 1 (2020)
页面: 34-38
栏目: Articles
##submission.datePublished##: 24.02.2020
URL: https://rjpbr.com/0869-7922/article/view/641204
DOI: https://doi.org/10.36946/0869-7922-2020-1-34-38
ID: 641204

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详细

Toxicity and hazard assessment of dioctyl terephthalate (DOTP) was performed in acute, subacute, and chronic experiments, and its principal toxicometry parameters were determined.

It was found that on single exposure DOTP exhibits low toxicity and hazard. No resorptive and irritant effects on skin and mucous membrane of eyes were detected in animal experiments. The single inhalation exposure threshold limit value was set at 300 mg/m³, based on the results of monitoring of the functional state of the central nervous system and myocardium and hematological parameters.

Thirty-day subacute experiments (oral administration, inhalation exposure, and skin applications) revealed no accumulation of the compound.

Four-month chronic exposure to DOTP aerosols (concentration 96,8 mg/m³) caused disorder of the functional state of the central nervous system and myocardium, changes in the hematological and biochemical parameters, gas and acid-base status of the blood, and morphological changes in the lungs and heart. Embryotoxic, genotoxic and gonadotoxic effects were not detected.

The chronic inhalation exposure threshold limit value for DOTP (Limch) was set at 18,6 mg/m³, and the concentration of 3,4 mg/m³ was found to be ineffective.

The maximum allowable concentration of DOTP in the air of the working area was set at 3,0 mg/m³, hazard class 3.

关键词

dioctyl terephthalate, toxicity, hazard, regulatory standard

作者简介

A. Radilov

Research Institute of Hygiene, Occupational Pathology and Human Ecology, Federal Medical Biological Agency

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Email: niigpech@rihophe.ru

188663, Kuzmolovsky, Leningrad region

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S. Solntseva

Research Institute of Hygiene, Occupational Pathology and Human Ecology, Federal Medical Biological Agency

Email: fake@neicon.ru

188663, Kuzmolovsky, Leningrad region

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I. Shkaeva

Research Institute of Hygiene, Occupational Pathology and Human Ecology, Federal Medical Biological Agency

Email: ieshkaeva@list.ru

188663, Kuzmolovsky, Leningrad region

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S. Dulov

Research Institute of Hygiene, Occupational Pathology and Human Ecology, Federal Medical Biological Agency

Email: fake@neicon.ru

188663, Kuzmolovsky, Leningrad region

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E. Vivulanets

Research Institute of Hygiene, Occupational Pathology and Human Ecology, Federal Medical Biological Agency

Email: fake@neicon.ru

188663, Kuzmolovsky, Leningrad region

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G. Protasova

Research Institute of Hygiene, Occupational Pathology and Human Ecology, Federal Medical Biological Agency

Email: fake@neicon.ru

188663, Kuzmolovsky, Leningrad region

俄罗斯联邦

L. Shabasheva

Research Institute of Hygiene, Occupational Pathology and Human Ecology, Federal Medical Biological Agency

Email: fake@neicon.ru

188663, Kuzmolovsky, Leningrad region

俄罗斯联邦

O. Nikulina

Research Institute of Hygiene, Occupational Pathology and Human Ecology, Federal Medical Biological Agency

Email: fake@neicon.ru

188663, Kuzmolovsky, Leningrad region

俄罗斯联邦

参考

Danishevsky S.L. Complex ethers. In: Hazardous Substances in Industry. Lazarev, N.V., Ed., Leningrad: Khimiya; 1971; Vol. 1: 480 – 482 (in Russian).
RTECS(R) National Institute for Occupational Safety and Health. Canadian Centre for Occupational Health Safety; 2005.
Sheftel V.O., Dyshinevich N.E., Sova R.E. Toxicology of Polymer Materials. Kiev: Zdorov’e; 1988 (in Russian).
Heudorf U., Mersch-Sundermann V., Angerer J. Phthalates: toxicology and exposure. Int. J. Hygien. Environ Health. 2007; 210 (5): 623 – 634.
Hauser R. Phthalates and human health. Occup. And Environ Med. 2005; 62 (11): 806 - 818.
Koreneva Е.М., Karpenko N.A., Kazak V.A. Xenogenetic Factors of Hypofertility. Plastic Components — Phthalates. Reporidukt. Endokrin. 2011; 2: 62 – 67 (in Russian).
Lowekamp-Swan T., Davis B. J. Mechanisms of Phthalate ester toxicity in the female reproductive system. Environ Health Perspect. 2003; 111 (2): 139 – 145.
David R.M., Moore M.R., Finney D.C., Guest D. Chronic toxicity of di(2-ethylhexyl) phthalate in rats. Toxicol. Sci. 2000; 55: 433 – 443.
David R.M., Moore M.R., Finney D.C., Guest D. Chronic toxicity of di(2-ethylhexyl) phthalate in mice. Toxicol. Sci. 2000; 58: 377 – 385.
Bui T.T., Giovanoulis G., Cousins A.P., Magnér J., Cousins I.T., de Wit C.A. Human exposure, hazard and risk of alternative plasticizers to phthalate esters. Science of The Total Environment. 2016; 541: 451 – 467.
Kwon B., Kyunghee J. Estrogenic and Androgenic Potential of Phthalates and Their Alternatives. Korean Journal of Environmental Health Sciences. 2016; 42 (3): 169 – 188.
Tentative Safe Exposure Levels (TSEL) of Hazardous Substances in Workplace Air. Hygienic Standards HS 2.2.5.2308-07. Мoscow: Rospotrebnadzor; 2008 (in Russian).
Maximum Allowable Concentrations (MAC) of Hazardous Substances Pollutants in Workplace Air. Hygienic Standards HS 2.2.5.3532 – 18. Мoscow: RRPOKhBV Minzdrava Rossii; 2018 (in Russian).
Methodical Guidelines to Organization of Research on the Validation of Regulatory Standards for Hazardous Substances in Workplace Air. Moscow; 1980 (in Russian).

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