PROSTATE CANCER Clinical Trial
The purpose of this study is to carry out very detailed genetic testing on prostate cancer
cells. The reason to do this is because researchers do not fully understand
- How prostate cancer develops
- Why some cancer cells spread and others do not
- Why some cancer cells respond to treatment and others do not
Researchers and doctors know that 1 in 3 of the male population over the age of 50 has
cancer cells in their prostate. However, most of these men will never know they have it and
it will not affect their quality of life or their life expectancy. However, some cancers can
be aggressive. These are more likely to spread outside of the prostate and cause problems.
Doctors do not have an accurate way to tell the difference between aggressive cancer and
those which will not cause any problems. Even within one prostate some tumours are
aggressive and others do not cause a problem during the lifetime of a patient. In fact, even
within one tumour, different cells may behave differently. In other words, one part of the
tumour may be aggressive and spread, whilst another part of the same tumour does not. This
project will try to find out more about what makes different tumours and different parts of
the same tumour aggressive or harmless.
It is important to find out what makes some cancer cells spread and others stay where they
are. For the investigators to do this they need to collect fresh samples of cancer tissue
from the prostate and from different areas of a tumour within the prostate. This is because
biopsies used to diagnose or exclude cancer by the hospital laboratory are not good enough
to give investigators detailed genetic information. These biopsies have been put into a
chemical called formalin which reduces the quality of the genetic information.
Investigators are therefore asking patients who are undergoing prostate biopsies as part of
their normal care to allow them to take additional biopsies for the purpose of this study.
This may be the first time patients are having biopsies. Or, patients may be having biopsies
after treatment that has been given for the cancer and the doctors are concerned the
treatment is not working.
Cancer is a genetic disease, caused by mutations in genes that lead to increased cell
proliferation and survival. Importantly, the genetic changes vary dramatically between
individual prostate cancer patients and the specific combination of mutations within a
patient's cancer is thought to determine tumour aggressiveness and clinical outcome.
Personalized medicine approaches aim to decipher the genetic code of a patient's tumour in
order to identify cancers which will behave aggressively and need treatment. However,
extensive intra-tumour heterogeneity (ITH) has been discovered in several solid tumour
types, complicating the identification of the relevant genetic changes as they may not be
present throughout the entire tumour and are likely to be missed by tumour biopsies. ITH is
thus a major hurdle for the implementation of personalized cancer treatment approaches.
Investigators have developed genetic technologies that allow them to measure ITH in solid
tumours and they now want to apply these to patients with prostate cancer to define the
extent and the clinical importance of ITH in this disease which is currently unknown. This
will involve looking at the control of genes in the cancer cells which make some tumours
more aggressive than others. This may help in predicting which tumours are important and
need to be targeted and those that could be left so that too much tissue damage does not
occur as a result of therapy. Finding out why some cancer cells spread and others do not may
also help to identify novel molecular targets that could be used to prevent the development
of metastases.
Patients with suspected prostate cancer usually have scans and then prostate biopsies. These
biopsies are needed by the pathologist to make a proper diagnosis and cannot be used for
full genetic analysis. So, investigators will ask patients whether they would be willing to
give some extra samples of tissue while undergoing these routine biopsies.
Defining ITH in prostate cancer will provide important insights into the genetics of
prostate cancer development and metastatic progression and is a key prerequisite for the
development of reliable personalized cancer medicine approaches. Thus this study will
significantly advance researchers' efforts to predict which tumours are dangerous and in
need of urgent treatment and those that could safely be left untreated which would spare
these patients the unnecessary side effects. Investigators think that this research work
will have a major impact on the use of next generation sequencing in the management of
prostate cancer through an in-depth understanding of how common are differences between and
within individual cancer lesions. Investigators also want to find out whether these
differences, if they exist, are important in tumour development and spread to other areas.
Investigators think that the characterization of these differences will allow them to
successfully use this information to group patients undergoing treatment using molecular
'signatures' so that treatment is targeted rather than applied in a 'sledge-hammer'
approach. Investigators believe that without studies like PROGENY, doctors will instead rely
on data from single tumour biopsies which can be misleading since single biopsies may not
have sampled the most aggressive tumour area. Finally, investigators think that PROGENY will
reveal how prostate cancers evolve over time and which of these changes lead to metastases
and ultimately kill the patient. These are called phylogenetic studies and will help work
out the main (or 'trunk') genomic changes from later events in 'branches'. This may allow
researchers to focus their drug discovery efforts on the common 'trunk' genomic changes.
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