Neutral Methacrylate Copolymer is a fully polymerised copolymer used in the pharmaceutical industry to permit pH-independent delayed release of active ingredients from oral dosage forms. This function has potential use with food supplements and this article describes available information on the safety of the substance. Oral administration of radiolabelled copolymer to rats resulted in the detection of chemically unchanged copolymer in the faeces, with negligible absorption. Safety studies revealed no adverse toxicity following repeated administration at doses of up to 2000 mg/kg bw/d in a sub-chronic study in rats or 250 mg/kg bw/d in a sub-chronic study in dogs. No reproductive toxicity occurred at up to 2000 mg/kg bw/d in rats or rabbits. The substance shows no evidence of genotoxicity, has low acute toxicity and no irritation or sensitisation potential. An ADI value of 20 mg/kg bw was concluded from two alternative approaches. Daily exposure from use in dietary supplements is estimated as up to 10.0 mg/kg bw in adults and 13.3 mg/kg bw in children. There would therefore appear to be no safety concerns under the intended conditions of use. The information provided is intended to support an evaluation that the substance may be \"generally recognized as safe\" (GRAS).

Methyleugenol (ME) occurs naturally in a variety of spices, herbs, including basil, and their essential oils. ME induces hepatomas in rodent bioassays following its conversion to a DNA reactive metabolite. In the present study, the basil constituent nevadensin was shown to be able to inhibit SULT-mediated DNA adduct formation in HepG2 cells exposed to the proximate carcinogen 1\'-hydroxymethyleugenol in the presence of nevadensin. To investigate possible in vivo implications of SULT inhibition by nevadensin on ME bioactivation, the rat physiologically based kinetic (PBK) model developed in our previous work to describe the dose-dependent bioactivation and detoxification of ME in male rat was combined with the recently developed PBK model describing the dose-dependent kinetics of nevadensin in male rat. The resulting binary ME-nevadensin PBK model was used to predict the possible nevadensin mediated reduction in ME DNA adduct formation and resulting carcinogenicity at the doses of ME used by the NTP carcinogenicity study. Using these data an updated risk assessment using the Margin of Exposure (MOE) approach was performed. The results obtained point at a potential reduction of the cancer risk when rodents are orally exposed to ME within a relevant food matrix containing SULT inhibitors compared to exposure to pure ME.