Some chemicals implicated so far
This page outlines some of the chemicals that have been implicated as hormone disrupters. Note that due to the large quantity of research now being published, and the plethora of chemicals implicated in some way, it is not possible for to list every chemical. In addition, it is not always possible to keep all the specific chemical pages totally up to date. The chemicals are divided into three groups, 'Industrial Chemicals', 'Natural Hormones', and 'Pesticides'.
Industrial Chemical
Phthalates
This group of chemicals are very widely used as plasticisers in plastics such as PVC, but some of them are also testicular toxins and can disrupt hormones.
Alkylphenols
Alkylphenols and their derivatives have a variety of uses, including as industrial detergents and, outside Europe, as domestic detergents . They have been shown to be oestrogenic in many systems.
Bisphenol A
An ingredient of lacquers that are used in dental treatment, and to coat metal containers such as food cans. It has been shown to leach from these cans into vegetables, and it is oestrogenic to human breast cancer cell cultures.
Polychlorinated biphenyls (PCBs) and Dioxins
Dioxins are often produced during incineration, and also by some industrial processes, such as the production of chlorinated hydrocarbons and paper production. PCBs were used in electrical equipment such as transformers, but were banned some years ago. However, a large quantity of PCBs is still present in transformers and capacitors.
Brominated flame retardants
Brominated flame retardants are a group of chemicals that are used in plastics and textiles to give flame retardant properties. Many of them are persistent and bioaccumulative, and several are hormone disrupters.
Parabens
A group of chemicals used as preservatives in cosmetics, and in some antibacterial toothpastes. Several chemicals in the group are oestrogen mimics.
Butylated hydroxyanisole
Butylated hydroxyanisole (BHA) is a food antioxidant. It is slightly oestrogenic to breast cancer cells, binds rainbow trout oestrogen receptor and stimulates transcriptional activity of the human oestrogen receptor (Jobling et al., 1995).
Natural Hormones
Phytoestrogens
Phytoestrogens are natural hormones present in many plants, and in particularly high levels in soya.
Pollution by female hormones
Research in the UK has found that sewage effluents, and in some cases rivers, were oestrogenic, causing the production of the egg yolk protein in male trout. These hormones are naturally excreted, in a conjugated form, in the urine of women; bacteria in the sewage works then re-activate the hormones (Panter et al., 1999). The research also detected estradiol, from the contraceptive pill, in some cases, but the natural oestrogens were always more important.
Pesticides
A large number of pesticides have been identified as possible or definite endocrine disrupters, many of the pesticides implicated are described below.
DDT
The insecticide DDT has been banned in the developed world for many years, though is in widespread use in the developing world. Various DDT metabolites have endocrine effects, including blocking the action of male hormones.
Lindane
Lindane is a pesticide which is under a great deal of regulatory pressure around the world. On July 13th 2000 an EU regulatory committee voted to ban agricultural uses of Lindane in Europe - though it can still be used in some other products, such as ant killer. It is a persistent pollutant, and is found in human breast milk. The estrogenic properties of lindane have been demonstrated in several systems, including the production of egg yolk protein and egg shell protein in liver cells from Atlantic salmon. Lindane has also been shown to damage human spermatozoa at concentrations as low as those found in female genital tract secretions.
Vinclozolin
Vinclozolin is a fungicide and is a proven endocrine disrupter, causing anti-androgenic ('anti-maleness') effects. Exposure of male rats in the womb and shortly after birth to low doses of vinclozolin leads a range of sex organ changes, including retained nipples, reduced ejaculated sperm numbers and reduced ventral prostate weight . Young male rats exposed to vinclozolin showed delayed puberty. These anti-androgenic effects are due to two of its metabolites (breakdown products), which are able to bind the androgen receptor (including the human androgen receptor), blocking its activity.
Carbendazim
Carbendazim is a fungicide. It disrupts the production of sperm and damages testicular development in adult rats, probably partly through disrupting the assembling of cells in tissues which is the same way as carbendazim works as a fungicide. In addition, carbendazim is also a teratogen damaging development of mammals in the womb. Experiments have shown that exposure of developing rats in the womb leads to deformities such as lack of eyes and hydrocephalus ("water on the brain").
Benomyl
Benomyl is a fungicide, that is metabolized into carbendazim, see above.
Procymidone
Procymidone is an anti-androgen, with anti-maleness properties similar to vinclozolin. It is able to block androgen binding to the human androgen receptor, and male offspring of rats exposed to procymidone during pregnancy and early lactation showed a range of reproductive deformities, such as permanent nipples and malformed penises.
Chlorpyrifos
Chlorpyrifos is a organophosphate insecticide, and has been listed as a potential endocrine disrupter by the German Federal Environment Agency, who report that it is linked to male and female genital deformities. Chlorpyrifos is a neurotoxin, and exposure to low concentrations can affect brain development in rats. Chlorpyrifos has also been shown to affect the thyroid system in ewes, reducing blood thyroxine concentrations.
Deltamethrin
Deltamethrin is a pyrethroid insecticide and has been listed as a potential endocrine disrupter by the German Federal Environment Agency, who report that it can affect sperm and the placenta. Research has shown that chronic exposure of adult rats to deltamethrin causes the death of some testicular cells.
Dimethoate
Dimethoate is an organophosphate insecticide and has been listed as a potential endocrine disrupter by the German Federal Environment Agency. Dimethoate caused testicular damage, damage to sperm production and reduction in testosterone levels when fed to adult male rats. Dimethoate also resulted in decreased thyroxine concentrations in ewes, and affected thyroid metabolism in mice.
Carbofuran
Carbofuran is a carbamate insecticide and has been listed as a potential endocrine disrupter by the German Federal Environment Agency. Carbofuran caused sperm and reproductive system damage when fed to either adult male rats or to developing male rats exposed in the womb. Damage to sperm production was also seen when adult rabbits were exposed to carbofuran. Carbofuran has also been shown to affect the thyroid system in ewes, resulting in increased thyroxine concentrations.
Amitraz
The insecticide Amitraz has been shown to disrupt oestrus in rats, due to amitraz binding the a-noradrenergic receptors and blocking the action of norepinephrine.
Trichlorfon
The organophosphate insecticide Trichlorfon has been listed as a potential endocrine disrupter by the German Federal Environment Agency, who report that it can cause mammary tumours and affect sperm and egg production.A cluster of Down's syndrome children in Hungary was associated with consumption of fish from a local fish farm after the fish had become excessively contaminated by trichlorfon. A degradation product of trichlorfon, dichlorvos, has been shown to damage immune system function in humans; trichlorfon itself damages immune function in Carp.
Penconazole
The fungicide Penconazole has been listed as a potential endocrine disrupter by the German Federal Environment Agency, who report that it can affect thyroid, prostate and testes weight.
Prochloraz
The conazole fungicide Prochloraz has been listed as a potential endocrine disrupter by the German Federal Environment Agency, who report that it can affect pituitary weight.
Propiconazole
The conazole fungicide Propiconazole has been listed as a potential endocrine disrupter by the German Federal Environment Agency, who report that it can affects steroid metabolism.
Tridemorph
The morpholine fungicide Tridemorph has been listed as a potential endocrine disrupter by the German Federal Environment Agency, who report that it is linked to cystic ovaries. Tridemorph is a potent inhibitor of the human sterol isomerase enzyme, which is part of the cholesterol biosynthesis pathway.
Epoxyconazole
Epoxyconazole is a fungicide that has been listed as a confirmed endocrine disrupter by the German Federal Environment Agency, who report that it can have effects on sex hormone balance and cause ovarian tumors.
Metiram
The dithiocarbamate pesticide Metiram has been listed as a confirmed endocrine disrupter by the German Federal Environment Agency, who report that it can reduce levels of thyroid hormones.
Oxydemeton-methyl
Oxydemeton-methyl has been listed as a potential endocrine disrupter by the German Federal Environment Agency, who report that it can affect egg production and testis and ovary size.
Atrazine
The herbicide atrazine has been shown to affect reproductive system development in rats. Mothers were dosed with atrazine and their offspring showed a delay in vaginal opening in the females and a higher incidence of prostate inflammation in the males. Atrazine has also been shown to affect hormone metabolism in women, which may have possible implications for breast cancer - see DDT for more details.
Linuron
Linuron is a urea-based herbicide which has been shown to have a weak affinity for the androgen receptor. A multi-generation study with rats dosed with Linuron led to a range of male reproductive tissue problems in offspring, including testicular malformations and reduced size of androgen-dependant tissues.
Other pyrethroid
Research using the MCF-7 human breast carcinoma cells line has found that the pyrethroid insecticides sumithrin, fenvalerate are oestrogens, permethrin is a weak estrogen and d-trans allethrin may be an anti-estrogen.