Henry Barbara J, Carlin Joseph P, Hammerschmidt Jon A, Buck Robert C, Buxton L William, Fiedler Heidelore, Seed Jennifer, Hernandez Oscar
WL Gore & Associates, Elkton, Maryland, USA.
Chemours Company, Wilmington, Delaware, USA.
Integr Environ Assess Manag. 2018 May;14(3):316-334. doi: 10.1002/ieam.4035. Epub 2018 Mar 30.
Per- and polyfluoroalkyl substances (PFAS) are a group of fluorinated substances that are in the focus of researchers and regulators due to widespread presence in the environment and biota, including humans, of perfluorooctane sulfonate (PFOS) and perfluorooctanoic acid (PFOA). Fluoropolymers, high molecular weight polymers, have unique properties that constitute a distinct class within the PFAS group. Fluoropolymers have thermal, chemical, photochemical, hydrolytic, oxidative, and biological stability. They have negligible residual monomer and oligomer content and low to no leachables. Fluoropolymers are practically insoluble in water and not subject to long-range transport. With a molecular weight well over 100 000 Da, fluoropolymers cannot cross the cell membrane. Fluoropolymers are not bioavailable or bioaccumulative, as evidenced by toxicology studies on polytetrafluoroethylene (PTFE): acute and subchronic systemic toxicity, irritation, sensitization, local toxicity on implantation, cytotoxicity, in vitro and in vivo genotoxicity, hemolysis, complement activation, and thrombogenicity. Clinical studies of patients receiving permanently implanted PTFE cardiovascular medical devices demonstrate no chronic toxicity or carcinogenicity and no reproductive, developmental, or endocrine toxicity. This paper brings together fluoropolymer toxicity data, human clinical data, and physical, chemical, thermal, and biological data for review and assessment to show that fluoropolymers satisfy widely accepted assessment criteria to be considered as "polymers of low concern" (PLC). This review concludes that fluoropolymers are distinctly different from other polymeric and nonpolymeric PFAS and should be separated from them for hazard assessment or regulatory purposes. Grouping fluoropolymers with all classes of PFAS for "read across" or structure-activity relationship assessment is not scientifically appropriate. Integr Environ Assess Manag 2018;14:316-334. © 2018 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals, Inc. on behalf of Society of Environmental Toxicology & Chemistry (SETAC).
全氟和多氟烷基物质(PFAS)是一类含氟物质,由于全氟辛烷磺酸(PFOS)和全氟辛酸(PFOA)在包括人类在内的环境和生物群中广泛存在,它们成为了研究人员和监管机构关注的焦点。含氟聚合物,即高分子量聚合物,具有独特的性质,在PFAS类别中构成一个独特的类别。含氟聚合物具有热稳定性、化学稳定性、光化学稳定性、水解稳定性、氧化稳定性和生物稳定性。它们的残留单体和低聚物含量可忽略不计,可沥滤物含量低或无。含氟聚合物实际上不溶于水,也不会进行远距离迁移。由于分子量远超过100000道尔顿,含氟聚合物无法穿过细胞膜。含氟聚合物不具有生物可利用性或生物累积性,聚四氟乙烯(PTFE)的毒理学研究证明了这一点:急性和亚慢性全身毒性、刺激性、致敏性、植入时的局部毒性、细胞毒性、体外和体内遗传毒性、溶血、补体激活和血栓形成性。对接受永久性植入PTFE心血管医疗器械的患者进行的临床研究表明,没有慢性毒性或致癌性,也没有生殖、发育或内分泌毒性。本文汇集了含氟聚合物的毒性数据、人体临床数据以及物理、化学、热学和生物学数据,进行综述和评估,以表明含氟聚合物符合被视为“低关注聚合物”(PLC)的广泛接受的评估标准。本综述得出结论,含氟聚合物与其他聚合和非聚合PFAS明显不同,出于危害评估或监管目的,应将它们与其他PFAS区分开来。将含氟聚合物与所有类别的PFAS归为一类进行“类推”或结构-活性关系评估在科学上是不合适的。《综合环境评估与管理》2018年;14:316 - 334。© 2018作者。由Wiley Periodicals, Inc.代表环境毒理学与化学学会(SETAC)出版的《综合环境评估与管理》
