Ethyl (S)-2-hydroxypropionate

In a carcinogenicity study Calcium lactate (> 97 % purity) was administered ad libitum to 50 F344 rats per sex per dose in drinking-water at levels of 0, 2.5 or 5 % for two years. Calcium lactate is the calcium salt of lactic acid, which is a major and essential species in mammalian primary metabolism and a ubiquitous ingredient in all kinds of food.

No clear toxic lesion was specifically caused by long-term administration of Calcium lactate. No significant dose-related increase in the incidences of tumours in any organ or tissue was found. The results indicate that calcium lactate had neither toxic nor carcinogenic activity in F344 rats.

This information is used in a read-across approach in the assessment of the target substance. For justification of read-across please refer to the read-across report attached to IUCLID section 13.

In the literature many laboratory carcinogenicity studies in animals exist using ethanol as the test substance. However, these are almost universally carried out to improve the understanding of the risks associated with the consumption of alcoholic beverages. Characteristically, these are carried out by the oral route and at high doses, well in excess of 1000 mg//kg bw/day, which means they are inadequately designed and provide too little data to characterise the carcinogenic potential of ethanol at doses relevant to occupational exposure and use of consumer products containing the substance.

In a carcinogenicity study conducted by the National Toxicology program conducted according to GLP, mice were exposed to ethanol in drinking water at the relatively high doses of 2.5 and 5.0% for 2 years, which resulted in average daily consumptions of ca. 100 and 180 mg ethanol for males and 80 and 155 mg ethanol for females. It showed only equivocal evidence of carcinogenic activity of in males based on increased incidences of hepatocellular neoplasms. However, there was no evidence of carcinogenic activity of ethanol in female mice exposed to either concentration (NTP, 2004). There remains no robust evidence of carcinogenicity in laboratory animals at doses other than those associated with consumption of alcoholic beverages. This is consistent with the findings of IARC who concluded that there is inadequate evidence for the carcinogenicity of ethanol in experimental animals (IARC, 1988).

Regarding studies in human the OECD SIDS report stated:” that although no epidemiological studies are available for ethanol per se, there are a large number of studies (retrospective cohort, prospective cohort and case-control studies) on the effects of alcoholic beverages, which contain ethanol and water as the two main components. These epidemiological studies clearly indicate that drinking alcoholic beverages is causally related to cancers of the oral cavity, pharynx (excluding the nasopharynx), larynx and oesophagus. The effect appears to be independent of beverage type. The aetiology is likely to proceed via a mechanism whereby frequent exposure to high local concentrations of liquid ethanol and its metabolites leads to persistent irritation, and eventually hyperplasia and finally tumor formation. (Greim H., 1999). For the oral cavity, pharynx, larynx and oesophagus, alcoholic beverage consumption in excess of 10-40 g ethanol per day is necessary before there is a convincing increase in the relative risk of cancer (Greim H., 1999; UK Dept of Health, 1995). Such a mechanism would not therefore be relevant to occupational exposure. Drinking alcoholic beverages is also likely to be causally linked to liver cancer. The liver is the primary site of metabolism and sees high concentrations of ethanol and its metabolites. Tumor formation is normally associated with cirrhosis, which is in turn normally seen only following chronic alcohol abuse in excess of 80 g ethanol per day (Greim H., 1999; UK Dept of Health, 1995). Such a scenario is not relevant to occupational exposure to ethanol. Drinking alcoholic beverages is also possibly causally linked to cancer of the breast and large bowel. Should the causal link with breast cancer be proven, the mechanism is believed to be via disturbance of the hormonal system. There is little or no indication of a causal relation with cancer of the stomach, pancreas, lung, urinary bladder, kidney, ovary, prostate, lymphatic or haematopoietic system. There is no convincing evidence that the carcinogenic effects of alcoholic beverages in humans occurs as a result of the mutagenic effect of ethanol, acetaldehyde or other beverage constituents (UK Dept of Health, 1995). The International Agency for Research on Cancer has classified alcoholic beverages (but not ethanol) as Group 1 - carcinogenic to humans (IARC, 1988). The International Life Sciences Institute (ILSI, 1999) has published an extensive review of the health issues relating to alcohol consumption. They concluded that ethanol is not a carcinogen by standard laboratory tests. Such tests are the normal measure for the assessment of industrial chemicals and any chemical that would be expected to present a carcinogenic hazard to workers or consumers during normal handling and use would be expected to show a positive result in one or more of such tests.”

The results of the genotoxicity in vitro test battery (OECD 471, OECD 473 and OECD 490) showed, that ethyl (S)-lactate do no induce genetic toxicity and these results can be seen as indicative for non-carcinogenic potential.

Ethyl (S)-lactate is rapidly hydrolysed into lactic acid and ethanol in vivo and thus it is justified that the assessment of the carcinogenicity can be based on information for lactic acid and ethanol.

Regarding lactic acid it can be stated that lactic acid is a major and essential species in mammalian primary metabolism and a ubiquitous ingredient in all kinds of food and thus carcinogenicity is not a relevant end point for such a substance, since there is no way of lowering exposure below minimum required levels or normal (or even abnormal) internal levels.

That lactic acid do not pose any carcinogenic potential was supported by the results of a long-term toxicity, carcinogenicity study in F344 rats treated with calcium lactate. Calcium lactate is a salt of lactic acid and immediately dissociates in aqueous environments into lactic acid and the Ca²⁺.