Malignancy Clinical Trial
Official title:
Epidemiology of Cancer After Solid Organ Transplantation - EpCOT Study
Cancer remains a major cause of morbidity and mortality post solid organ transplantation.
While mortality from the other leading causes of death post-transplantation (e.g.
cardiovascular disease and infection) is declining, mortality from cancer
post-transplantation is increasing. This is due to both general and transplant-specific risk
factors that combine to increase risk for cancer compared to the general population. However,
there is a shortage of research exploring cancer epidemiology post solid organ
transplantation in the UK. This is essential to guide clinicians and for counselling patients
regarding expectations and outcomes after developing cancer post-transplantation. This is
especially important as the aetiology, pathophysiology and outcomes of cancer
post-transplantation may differ from the general population.
Available data registries in the UK separately contain valuable cancer and
transplant-specific data that can be combined to explore cancer epidemiology
post-transplantation more comprehensively, which can be directly translated into patient
benefit by utilizing transplant-specific data (rather than translating from general
population or non-UK patient demographics).
The purpose of this project is to combine existing data resources to link up the complete
patient journey for solid organ transplant recipients nationally and focus on the entire
spectrum of cancer from incidence to mortality.
Solid organ transplantation is associated with an increased incidence of cancer versus the
general population, and broadly on par with comparable immune deficiency states such as
HIV/AIDS. The aetiology of cancer post-transplantation is primarily due to the burden of
immunosuppression that is compulsory for all transplant patients to prevent allograft
rejection. Skewed standardised incidence ratios are observed for cancer post-transplantation
compared to the general population, with preponderance for cancers with a strong viral
component. The literature on cancer-related mortality after transplantation is scarce, but
again disparate mortality risk has been documented comparing solid organ transplant
recipients to the general population.
There is a shortage of UK-specific data to guide transplant clinicians on how best to deal
with cancer. This is important as countries differ with regards to ethnic demographics and
post-transplant immunosuppression protocols, both of which are important confounders to
translate data from other transplant cohorts. Collett and colleagues have previously
published registry data of cancer incidence in British transplant recipients (by linking UK
Transplant Registry to various national cancer registries) for a cohort transplanted between
1980 and 2007. They found similarities but also important differences between cancer
incidence in a British solid organ recipient cohort versus registry data from Sweden,
Finland, Canada and the United States. Importantly, the relevance of this data to the
contemporary solid organ transplant cohort is unclear, as immunosuppression protocols have
evolved since 2007 to a predominantly tacrolimus-based regimen since publication of the
SYMPHONY study in 2007. No subsequent analysis has been done to determine the impact of
tacrolimus introduction into cancer occurrence post-transplantation in the UK.
Previous work has analysed cancer-related mortality in the UK, providing data on site of
cancer-related mortality and stratifying analysis along demographic factors such as age,
gender and/or ethnicity that are relevant to the British population. This analysis linked two
different national data resources from the study by Collett and colleagues - Hospital Episode
Statistics and the Office for National Statistics. It demonstrated the crude cancer-related
mortality rate in England (between 2001 and 2012) was 361 cancer-related deaths per 100,000
person years (compared to 424 and 416 for cardiovascular- and infection-related deaths
respectively). Of note, cancer-related mortality within the first year post kidney
transplantation (7.4%) has been shown to rise in incidence with increasing time
post-transplantation (22.0% beyond the first year post kidney transplantation and second
leading cause of death).
This previous work has identified the strengths and limitations of utilising such data
resources. One of the major limitations with registry data is the absence of important and
relevant information that can confound the data, which can be overcome by linking data
between registries. For example, previous analyses identified kidney cancer accounted for
over half of all cancer-related mortality for kidney transplant recipients with a history of
pre-transplant cancer. However, the limitation of that data was the inability to probe this
association further for a number of important issues; 1) location of kidney cancer (whether
native or transplant kidney), 2) whether pre-transplant cancer was kidney-related, and 3)
time on dialysis pre-transplant (which is a strong risk factor for acquired cystic renal
disease and malignant transformation). While this information was unavailable in isolated
data sets, such information is contained within other national data resources and could be
combined by data linkage to create a broad and comprehensive epidemiological resource.
Data or record linkage has been defined as "a process of pairing records from two files and
trying to select the pairs that belong to the same entity." Cancer data is not routinely
collated by transplant centers and there is no robust mechanism to explore cancer
epidemiology data post solid organ transplantation through the UK Transplant Registry.
However, linking information to other existing data registry resources will facilitate such
analysis. This is an under-researched area within both transplant and cancer communities, but
increasingly important due to the increasing incidence and prevalence of cancer post solid
organ transplantation.
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