MALE FERTILITY IN EUROPE UNDER CHEMICAL ATTACK?

03/08/2005 - Scientific research is increasingly suggesting that man-made chemicals might be partly responsible for the rising incidence of fertility problems in European men, including dropping sperm counts, feminisation of male babies, and sperm that 'burn out' before reaching their target (i.e. the egg).

Recent statistics show that 40% of young men in Denmark and one in five men in the United Kingdom have such low sperm counts that they may not be able to father children. In the United Kingdom, this is now one of the biggest causes of infertility among couples.

This worrying trend was first publicised in 1991 by Danish scientist Niels Skakkebaek of the University of Copenhagen. He showed that the sperm counts of Western men had dropped by about half over the previous 50 years. This research was then corroborated in 2000 by a study by a Danish research team led by AG Andersen showing that from a sample of 18-20 year-old Danish men, 40% of them had sperm counts below 40 million per ml, a level associated with male infertility.

The figures on British men’s failing fertility were released at the European Society of Human Reproduction and Embryology (ESHRE) in Copenhagen at the end of June. The UK’s Human Fertilisation and Embryology Authority (HGEA) data says that men are now beginning to overtake women as the cause of infertility in relationships. Clare Brown, of Infertility Network said that "people are genuinely surprised to find out that (infertility) is pretty much 50-50".

Because of the growth of British male infertility, there has been a huge rise in the fertility treatment used to deal with low sperm counts – ICSI-, a process which involves injecting a single sperm across the membrane of an egg to make a fertilise embryo, which is then implanted into the women, In 2002 it accounted for 52% of all fertility procedures, and across Europe, more than 122,000 ICSIs were performed in 2004.

Phthalates to blame?

So what is to blame for these effects on male fertility? There are many possible factors. Making any definitive link to a single cause is very difficult, but recent research points to the possibility that phthalates, a group of chemicals with a range of applications (from softening plastic to use in cosmetics) may be involved.

A new study led by Shanna Swan at the University of Rochester, New York, showed that mothers with higher levels of phthalate metabolites in their urine (a measure of prenatal exposure to phthalates) were more likely to produce feminised sons. The researchers also found that the exposure levels at which effects were seen were "not unusually high".

According to Professor Richard Sharpe of the Human Reproductive Sciences Unit in Edinburgh, a leading male fertility specialist, "this suggests phthalates may be having an effect in humans at lower levels than rats. If true, there would be a widespread health risk to unborn boys.

" Indeed, the effects of phthalate exposure in rats are to a certain extent similar to those seen in the male babies in Swan's work, which could suggest that phthalates might be responsible for increasing incidence of male abnormalities and consequently, testicular cancer and problems with sperm quality.

Moreover, Professor Sharpe’s own research has shown that phthalates can have an effect when pregnant mothers are exposed to them at a key stage in the development of their unborn children. "Phthalates are everywhere in our environment, we are all exposed", he says, "and the highest exposure appears to be in young women of reproductive age." (due to the use of phthalates in cosmetics and perfumes).

Chemicals in food causes human sperm to ‘burn out’

As well as the feminisation of baby boys, chemicals are also affecting male fertility. In June this year Professor Lynn Fraser of King’s College, London, showed that chemicals found in food and industrial products were capable of damaging human sperm.

She found that even small quantities of the chemical genistein (found in soya and legumes) when combined with other chemicals could cause human sperm to 'burn out' prematurely, making them incapable of fertilising an egg.

Professor Fraser made this discovery when she was researching into the ways in which combinations of certain chemicals could become very potent endocrine disruptors. She and her team tested combinations of three chemicals: genistein, 8-prenylnaringenin (found in hops) and nonylphenol, (used in paints, herbicides, pesticides, cleaning products and the production of paper and textiles).

Her team found that combinations of small quantities of these three chemicals stimulated sperm to undergo a reaction that made them infertile, to a far greater extent than when used individually. Commenting on the findings, Professor Fraser said, "At a time when there are concerns that the incidence of infertility may be rising, this research flags up important warning signs".

Dr Anders Nyboe-Andersen, ESHRE Committee coordinator, also expressed concern about the relevance of the findings for male infertility, considering that "maybe environmental factors are playing an increasing role as the planet becomes more polluted and factors that disrupt the endocrine system are in the food chain".

Concerns surrounding the possible environmental causes of European men’s increasing infertility, clearly demonstrate the importance of evaluating all chemicals currently in use and their potential endocrine disrupting properties. It is therefore vital that the proposed EU chemicals legislation, REACH, deals effectively with suspected endocrine disrupting chemicals. The health and fertility of future generations of wildlife and humans depend on it.