Cookies on this website

We use cookies to ensure that we give you the best experience on our website. If you click 'Accept all cookies' we'll assume that you are happy to receive all cookies and you won't see this message again. If you click 'Reject all non-essential cookies' only necessary cookies providing core functionality such as security, network management, and accessibility will be enabled. Click 'Find out more' for information on how to change your cookie settings.

prostate cancer cells

Men with higher levels of ‘free’ testosterone and a growth hormone in their blood are more likely to be diagnosed with prostate cancer, according to research presented at the 2019 NCRI Cancer Conference. 

Factors such as older age, ethnicity and a family history of the disease are already known to increase a man’s risk of developing prostate cancer. However, the new study of more than 200,000 men is one of the first to show strong evidence of two factors that could possibly be modified to reduce prostate cancer risk. 

The research was led by Ruth Travis, and Ellie Watts. Dr Travis said: “Prostate cancer is the second most commonly diagnosed cancer in men worldwide after lung cancer and a leading cause of cancer death but there is no evidence-based advice that we can give to men to reduce their risk. We were interested in studying the levels of two hormones circulating in the blood because previous research suggests they could be linked with prostate cancer and because these are factors that could potentially be altered in an attempt to reduce prostate cancer risk.” 

The researchers studied 200,452 men who are part of the UK Biobank project. All were free of cancer when they joined the study and were not taking any hormone therapy. 

The men gave blood samples that were tested for their levels of testosterone and the growth hormone insulin-like growth factor-I (IGF-I). The researchers calculated levels of free testosterone – testosterone that is circulating in the blood and not bound to any other molecule and can therefore have an effect in the body. A subset of 9,000 of men later gave a second blood sample, to help the researchers account for natural fluctuations in hormone levels. 

The men were followed for an average of six to seven years to see if they went on to develop prostate cancer. Within the group, there were 5,412 cases and 296 deaths from the disease. 

The researchers found that men with higher concentrations of the two hormones in their blood were more likely to be diagnosed with prostate cancer. For every increase of five nanomoles in the concentration of IGF-I per litre of blood (5 nmol/L), men were 9% more likely to develop prostate cancer. For every increase of 50 picomoles of free testosterone per litre of blood (50 pmol/L), there was a 10% increase in prostate cancer risk. 

In the population as a whole, the findings correspond to a 25% greater risk in men who have the highest levels of IGF-I, compared to those with the lowest. Men with the highest free testosterone levels face an 18% greater risk of prostate cancer, compared to those with the lowest levels. 

The researchers say that because the blood tests were taken some years before the prostate cancer developed, it is likely that the hormone levels are leading to the increased risk of prostate cancer, as opposed to the cancers leading to higher levels of the hormones. Thanks to the large size of the study, the researchers were also able to take account of other factors that can influence cancer risk, including body size, socioeconomic status and diabetes. 

Dr Travis said: “This type of study can’t tell us why these factors are linked, but we know that testosterone plays a role in the normal growth and function of the prostate and that IGF-I has a role in stimulating the growth of cells in our bodies.” 

“What this research does tell us is that these two hormones could be a mechanism that links things like diet, lifestyle and body size with the risk of prostate cancer. This takes us a step closer to strategies for preventing the disease.”