Tony McHale standing in his garden, smiling.

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Tony McHale (pictured above) discovered he had an alteration in the BRCA2 gene at the age of 61, putting him at a much higher risk of developing prostate cancer. Shortly after, Tony joined the IMPACT study at the ICR, which investigated whether regular screening would lead to earlier diagnosis of aggressive forms of the disease. Around 18 months later, the screening revealed Tony had prostate cancer. 

"Being involved in the IMPACT study saved my life. If I hadn't taken part, I'd never have known I had prostate cancer. As far as I was aware, I didn't have any symptoms – and the sooner the disease is detected and treated, the better the chances are of survival." – Tony
Prostate cancer affects 1 in 8 men in the UK, rising to 1 in 4 Black men
8 out of 10 men in the UK will live at least 10 years after diagnosis
Every year, 12,000 men in the UK die from prostate cancer 
Together we can help more men survive prostate cancer

Godfrey's prostate cancer story

 

DJ and music promoter, Godfrey Fletcher, found out he had prostate cancer in 2015 at the age of 47, shortly after his father had also been diagnosed.

"I was so lucky that my cancer was picked up at a very early stage. I was young and fit, with no symptoms. A year after my treatment finished, I was told it had been successful. My dad wasn't so fortunate. He was diagnosed with advanced prostate cancer and passed away at 80. His experience, and mine, showed me the importance of early diagnosis."

Why we need more research into prostate cancer

We're proud of the research advances we've made over the last 20 years. Our scientists discovered the drug abiraterone; identified genetic variants that influence risk of developing the disease; and pioneered new, more precise forms of radiotherapy. But despite our research advances, some prostate cancers remain difficult to treat. This includes those diagnosed at a later stage and those more aggressive tumours, which can spread quickly and evolve to resist treatment.

That's why we urgently need better ways to detect prostate cancer earlier, predict drug resistance, and develop smarter, more personalised treatments. Your gift will help our world-leading researchers unravel the complexity of prostate cancer, to give men precise and personalised care with the right treatments at the right time, to live longer and healthier lives.

Professor Eeles's goal is to develop new tests that could be used in prostate cancer screening, helping to identify men at a higher risk. Her team showed that a simple saliva test, carried out at home, was more accurate at identifying future risk of prostate cancer for some men than the current standard blood test. 

Building on this success, they recently launched a major new study to find out whether an improved version of this test – now suitable for more diverse groups, including Black men and younger men – can help detect more cancers earlier in men at higher risk. 

Tackling drug resistance

Our research underpinned the development of olaparib, a drug that revolutionised treatment for people with BRCA-related cancers. In a recent study, Professor Johann de Bono's team showed that changes which can be spotted with a simple blood test can reveal how long a prostate cancer patient will respond to olaparib. 

The ability to predict when – and how – patients will stop responding to olaparib could help doctors personalise treatment, and in the future, guide the development of new drugs to outsmart resistance – keeping us one step ahead of prostate cancer.

Professor Johann de Bono in the laboratory, smiling.

Creating smarter, kinder treatments for every man

Our scientists are at the forefront of precision cancer medicine – developing more effective treatments with fewer side effects.

Laboratory studies co-led by Dr Adam Sharp and Professor Johann de Bono showed that NXP800 – a new drug which targets a ‘master switch’ that cancer cells hijack to support their growth – slowed prostate cancer cell growth. This innovative drug could potentially also benefit men with advanced prostate cancer that has stopped responding to standard hormone therapy.

A study co-led by Professor Emma Hall has found that men with intermediate-risk, localised prostate cancer can be treated just as effectively with five sessions of higher-dose radiation therapy as with several weeks of standard treatment. Using stereotactic body radiotherapy (SBRT), which targets tumours with pinpoint accuracy, patients can receive a highly effective treatment with far fewer hospital visits. 

A study co-led by Professor Nick James has shown that a new artificial intelligence (AI) test can select which men with high-risk prostate cancer that has not spread will require the life-extending drug abiraterone. In the STAMPEDE trial, the team found that three out of four men could be spared unnecessary treatment, making the drug – discovered by our scientists – more affordable for the NHS.

Your gift can help every man with prostate cancer live longer, healthier lives

Help someone's dad, grandad, brother, uncle, partner, or friend survive prostate cancer. Your support will help fund life-saving research – so that every man can spend more precious time with their loved ones.

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Your gift of research can help transform the lives of every man with prostate cancer.
With GiftAid you'll also be able to add 25% at no extra cost to you

Please choose a donation amount.

 Related news and blogs

02/07/18 - by

This year is the 70th anniversary of the NHS. Since the introduction of universal health care in 1948, the NHS has saved the lives of millions of people and benefited countless more in so many ways.

Part of what makes the NHS so important is the research carried out within it to keep improving treatment and care. Every year, more than half a million people help the NHS to improve healthcare and develop life-saving treatments by taking part in health research.

In the run-up to its 70th birthday on Thursday 5 July 2018, the NHS is celebrating how research has improved health and care over the past 70 years, and how research is helping to shape the future.

The NIHR’s I Am Research campaign will showcase 70 discoveries that have transformed the way the NHS works and improved outcomes for patients. Three research discoveries made at the ICR have been highlighted as part of their list of greatest discoveries.

We have an outstanding record of scientific achievement dating back more than 100 years. Our most influential discoveries have played an important role in shaping our modern understanding of cancer and how it can be treated.

Read more

Intensity modulated radiotherapy treatment

The ICR and The Royal Marsden NHS Foundation Trust have been pioneers in developing new forms of high-precision radiotherapy techniques, which have transformed clinical treatment for cancer.

Intensity-modulated radiotherapy (IMRT) delivers precise doses of radiation shaped to patients' tumours, resulting in less damage to healthy tissue, and allowing higher intensities of radiation to be concentrated on the tumour.

ICR researchers played a significant role in defining the volume distribution of radiation doses to the body – a key advancement in radiotherapy technology leading to safer, more effective treatment for patients.

Our research has established IMRT as the standard of care in the UK for many types of cancer including prostate cancer and head and neck cancer, and also demonstrated how it can reduce the severity of side-effects from radiotherapy treatment, enabling smarter, kinder treatments.

Professor Kevin Harrington’s research showed IMRT can help avoid the risk of dry mouth in patients treated for head and neck cancers. We have also shown that the technique is suitable for elderly patients with bladder cancer who are too frail for more aggressive forms of treatment.

The NIHR will be sharing one discovery a day on their Twitter account @OfficialNIHR and on the I Am Research campaign page.

You can use the hashtags #70discoveries #nhs70 #IAmResearch on social media to celebrate 70 years of the most important research discoveries in healthcare.

Abiraterone for prostate cancer

The prostate cancer drug abiraterone is one of the ICR’s biggest success stories – the first treatment shown to be effective in men with advanced prostate cancer.

For men with prostate cancer that has stopped responding to other types of hormone therapy – but who haven't yet had chemotherapy – abiraterone has been shown to significantly extend life.

The drug has also been approved for use with standard hormone therapy as a first-line treatment for advanced prostate cancer.

The treatment was discovered at the ICR and developed jointly with The Royal Marsden.

ICR scientists proposed that the malignant growth of certain prostate cancers was driven by the production of male sex hormones called androgens in the body.

In the 1990s, drug discovery research at the ICR identified abiraterone as a compound that could inhibit the synthesis of testosterone

Professor Johann de Bono and his team at the ICR and The Royal Marsden carried out the initial clinical development of the drug as well as leading the later-stage international clinical trials including the first trial that led to regulatory approval.

Abiraterone has been available on the NHS since 2012 and could benefit more than 10,000 British men with prostate cancer each year. It’s also being tested for other cancers, so it could help even more patients soon.

Smoking linked to lung cancer

Proving the link between smoking and lung cancer was the collaborative effort of many researchers, but the ICR helped identify many cancer-causing chemicals in cigarette smoke and coal tar.

In the 1920s and 1930s Professor Sir Ernest Kennaway, Director of The Cancer Hospital Research Institute which would later become the ICR, worked meticulously with his team to separate the constituents of coal tar and test them to see whether they caused cancer in mice.

They found that the cancer-causing agents were chemicals called polycyclic aromatic hydrocarbons (PAHs). They identified the first pure compound to be shown to have cancer-causing properties, which is also found in cigarette smoke.

Professor Kennaway’s discovery was a major breakthrough and in 1941 he was awarded the Royal Society’s Royal Medal for his work.

The world renowned epidemiologist Sir Richard Doll, who went on to be the Chairman of the ICR, was also instrumental in linking smoking to lung cancer.

In the 1950s Sir Richard Doll studied cancer patients from London hospitals. His landmark research found that the risk of developing lung cancer increased in proportion to the amount smoked, confirming the link between smoking and lung cancer.

Sir Richard Doll’s contribution to cancer research and improving public health were huge, and we named a building after him in 2005. He is also celebrated by the NHS as one of their legends of health research.

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