The cancer registration and survival data in this bulletin has been collected and calculated by the National Cancer Registration and Analysis Service (NCRAS); within Public Health England. (PHE), and published in partnership with the Office for National Statistics (ONS).
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In general, those people diagnosed with early (stage 1 or 2) cancers have a better 1 year survival than those diagnosed with late (stage 4) cancer.
Apart from lung and ovarian cancer, there is a pattern of similar 1 year survival for patients diagnosed at stages 1 to 3 and a large decrease for those diagnosed at stage 4.
Although stage 4 survival is always the worst for any given cancer, the 1 year survival at stage 4 varies from 15% (men with lung cancer) to 83% (men with prostate cancer).
The difference in 1 year survival between men and women is largest for bladder cancer. 1 year survival for women was 62% (average for 2012 to 2014) whereas 1 year survival for men was 75% (average for 2012 to 2014).
Women diagnosed with breast cancer at stage 1 or 2 have 1 year survival which is very similar to the general population.
Colorectal cancer 1 year survival is similar for men and women at all stages.
The poor overall 1 year survival from lung cancer is partly because so many cancers are diagnosed at stage 4.
1 year survival from malignant melanoma is amongst the highest of all cancer sites reported here, with over half of melanoma cases diagnosed at stage 1.
Ovarian cancer 1 year survival steadily decreases with increasing stage, and so diagnosing at the earliest stage is especially important.
Men diagnosed with prostate cancer at stages 1,2 or 3 have 1 year survival which is the same as the general population.
Uterine cancer has high 1 year survival, because nearly 2 out of 3 cases are diagnosed at the earliest stage.Nôl i'r tabl cynnwys
The main purpose of this statistical release is to show how cancer survival varies at different stages for a variety of cancers. Because of improvements in cancer registration and the completeness of stage data during this 3-year period, we do not recommend looking at the data in this briefing as representing the trends in survival over the 3 years examined (2012, 2013, 2014). Such analyses will be undertaken in the future, when enough comparable data are available. This will bring the stage-specific survival statistics in line with other series that currently publish in 5 year aggregations, such as the National Statistics on Cancer Survival. The main focus of this release is on how survival differs by stage of diagnosis.
Data are presented for the whole of England.Nôl i'r tabl cynnwys
"The statistics presented in this bulletin show that survival of patients with specific types of cancer, especially lung and ovarian, are substantially lower when diagnosed at a later stage compared to patients diagnosed at an early stage. Therefore, it should be clear that diagnosing cancer as early as possible will help to maximise the survival, of at least 1 year, for patients.”
Jamie Jenkins, Head of Health Analysis, ONSNôl i'r tabl cynnwys
This bulletin has been jointly produced by Public Health England (PHE) and the Office for National Statistics (ONS).
This bulletin provides information about the survival of people diagnosed with cancer. The survival is categorised by stage at diagnosis, which is a measure of how advanced the cancer is. Generally speaking, a higher stage number means the cancer is bigger or has spread to other parts of the body (metastasis). This is sometimes referred to as ‘later’ stage cancer, and often there are fewer treatment options. The staging system used is TNM staging1. This system puts cancers in a group from 1 to 4 depending on the tumour size (T); whether the lymph nodes have cancer cells (N); or if the cancer has spread to other parts of the body (M). For uterine and ovarian cancer the FIGO system2,3 is also used, which matches the TNM system, and allows better data completeness.
The survival measure presented is 1 year survival. This is based on the number of people who die within 1 year from their diagnosis. The years listed (2012, 2013 and 2014) are the years in which people were diagnosed. All people were checked whether they were dead or alive at the end of 2015. The specific method used is net age-standardised survival. This method was used because it takes into account the normal death rates in the general population, and differences in the age at which people are diagnosed. This allows fair comparisons to be made between the different cancer sites and stages. Each person is only counted in each group once. This means that the total of diagnoses from each separate stage group may not be the same as the group of “all stage” cancers.
The analysis in the report includes data on nine different cancer sites: bladder, breast, colorectal, kidney, lung, malignant melanoma, ovarian, prostate, and uterus. These cancers were chosen as they are the cancers included in the Public Health Outcomes Framework (PHOF) measure of cancer stage4. However, we have not produced data for Non-Hodgkin Lymphoma (NHL) because this covers a broad group of cancers where the association of stage with treatments and outcomes is very variable.
These statistics are designated as Experimental Statistics, and are based on provisional death data. Experimental Statistics are those which are in the testing phase, are not yet fully developed and have not been submitted for assessment to the UK Statistics Authority. Experimental Statistics are published in order to involve customers and stakeholders in their development and as a means of building in quality at an early stage. Further information on Experimental Statistics can be found on our website5.
Further statistics on cancer survival in England are available from our website6.Nôl i'r tabl cynnwys
Comments on this briefing are welcomed. In particular, comments on the following items are sought:
- potential inclusion of an "all-cancers" survival calculation
- how to analyse cancers such as Non-Hodgkin Lymphoma (NHL) as described above
- the separation of cancers by certain morphologies, for example small-cell and non-small-cell lung cancer
- the publication of shorter time intervals for survival, for example at 6 months after diagnosis
Feedback can be sent to firstname.lastname@example.orgNôl i'r tabl cynnwys
The proportion and number of cases diagnosed at each stage varies between different cancers, and between men and women (Table 1). Generally women are diagnosed earlier. The effect of these differences on survival from a particular cancer is discussed in each section below. Table 2 provides a summary of 1 year survival by stage for each site for 2014.
Table 1: Number of diagnoses and proportion diagnosed at each stage
|Adults, England, diagnosed 2012 to 2014 (combined)|
|Site (ICD code)||Sex||Number of Diagnoses||Stage 1 (%)||Stage 2 (%)||Stage 3 (%)||Stage 4 (%)||Stage not known (%)|
|Colorectal (C18 to C20)||Men||56,369||16||22||25||22||15|
|Lung (C33 to C34)||Men||58,801||12||8||20||50||11|
|Ovary (C56 to C57)||Women||18,371||29||5||29||18||19|
|Uterus (C54 to C55)||Women||22,283||64||7||10||6||13|
|Source: National Cancer Registration and Analysis Service – Public Health England|
|1. People aged 15 to 99 at diagnosis.|
|2. Stage not known includes all cases with insufficient clinical or pathology information on stage.|
Download this table Table 1: Number of diagnoses and proportion diagnosed at each stage.xls (29.7 kB)
Table 2: Summary of age standardised 1 year net survival for selected cancers
|Adults, England, 2014 followed up to 2015|
|Site||Sex||Stage 1 (%)||Stage 2 (%)||Stage 3 (%)||Stage 4 (%)||Stage unknown (%)|
|Colorectal (C18 to C20)||Men||98||93||89||44||57|
|Lung (C33 to C34)||Men||81||66||42||15||23|
|Ovary (C56 to C57)||Women||99||94||71||51||46|
|Uterus (C54 to C55)||Women||99||94||83||45||53|
|Source: National Cancer Registration and Analysis Service – Public Health England|
|1. People aged 15 to 99 at diagnosis.|
|2. Survival estimates take into account the normal rates of death in the general population and net survival is a measure of the extra deaths caused by the specific cancer. For some stage 1 & 2 cancer patients their net survival is greater than 100% which means there are fewer deaths among this cohort compared to the general population. This may be explained by people after diagnosis reducing risk factors associated with poor health, for example stopping smoking. Also because they now see a doctor more often, other health issues may be dealt with. The effect of these changes might be larger than the death rate for that cancer, especially for low-mortality cancers like prostate or melanoma. People diagnosed with early-stage cancer tend to be less deprived, and this might also contribute to lower than average mortality.|
Download this table Table 2: Summary of age standardised 1 year net survival for selected cancers.xls (30.2 kB)
Bladder cancer is unusual compared with the other cancers studied because women have much lower survival (62% average for 2012 to 2014) than men (75% average for 2012 to 2014). This is likely to be due to a complex mix of reasons7. Women with a given stage of bladder cancer have worse survival compared with men with the same disease stage (Figures 2 to 3, and Table 2). This suggests that there are some gender differences in bladder cancer survival, because of differences in biology. Women with bladder cancer also tend to be diagnosed at a later stage (Table 1) which contributes to the overall differences in survival. Longer waits for diagnosis and higher proportions of emergency diagnoses in women with bladder cancer may also contribute8,9 .
Breast cancer (women only)
Survival from breast cancer is amongst the highest of all cancers (96% average across all years for all stages combined). This is probably due to a combination of factors including a higher number of cancers detected though screening (1 in 3), well-understood symptoms, and the increasing availability of effective treatments for most cases. For those diagnosed at stage 1 or stage 2 there were very few excess deaths from breast cancer, compared with the general population, in the first year after diagnosis. For those diagnosed at stage 4 there was a much lower survival of 63% (average for 2012 to 2014).
Colorectal cancer survival is slightly higher in men (78% average for 2012 to 2014) than women (73% average for 2012 to 2014). There is a gradual decrease in survival from stage 1 to 3, with a larger step down between stages 3 and 4. The survival at stage 4 is around 40% (average for 2012 to 2014), which shows that people diagnosed at this stage die at more than twice the rate of the general population. There is a national screening programme for colorectal cancer but only about 1 in 10 cases are currently diagnosed via this route9.
The proportion of men and women diagnosed with kidney cancer at each stage is similar. The overall survival is nearly the same (77% for men and 75% for women, 2012 to 2014 average). There is not much difference in survival between stages 1 to 3, but much worse survival for those diagnosed at stage 4. The numbers of new kidney cancers have been rising, which may be because they are picked up when people have scans for other illnesses. These cancers are often small and can be effectively treated, so the overall survival has been rising steadily over time.
Overall, survival from lung cancer is low (34% for men and 39% for women, average for 2012 to 2014), and this reflects the larger proportion of cases which are diagnosed at late stage. Many patients with lung cancer have symptoms that are similar to other illnesses so it can be difficult to diagnose. Survival at stage 1 is 81% for men (average for 2012 to 2014) and 85% for women (average for 2012 to 2014), but fewer than 1 in 6 lung cancers are diagnosed at this stage. About half of lung cancers are diagnosed at stage 4. There is a steadily decreasing survival with increasingly advanced stage. At all stages (except stage 2) women have higher survival than men.
Malignant melanoma is a type of skin cancer which is more likely to cause death than other types. It affects all ages, but is one of the more common cancers in people aged under 40. Survival is very high, and slightly higher in women (99% average for 2012 to 2014) than in men (97% average for 2012 to 2014). More than half of malignant melanomas are diagnosed at stage 1, where the survival is 100% (average for 2012 to 2014). This means that no more people with melanoma diagnosed at stage 1 die than would be expected in the general population. This high stage 1 proportion (see Table 1) may be due to increased awareness, or because of the fact the cancer is on the skin and easier to detect.
Overall survival for women diagnosed with ovarian cancer is 71% (average for 2012 to 2014). This is the second lowest overall survival for women for the cancers in this bulletin, with lung being worse. Nearly half of women diagnosed with ovarian cancer are diagnosed at stages 3 and 4. Like lung cancer, the symptoms of ovarian cancer can be similar to lots of other illnesses, which makes it difficult to diagnose. There is a steadily decreasing survival with increasing stage, but survival for those diagnosed at stage 1 is high (98% average for 2012 to 2014).
Survival from prostate cancer is also very high (96% for all stages combined in 2012 to 2014). There is no national screening programme for prostate cancer but some men have a PSA (Prostate Specific Antigen) tests at their GP’s. There are no differences in 1 year survival between stages 1, 2 and 3 (over 100% average for 2012 to 2014); the survival greater than 100% means that less men died than expected. A lower survival is seen for stage 4 cancers (83% average for 2012 to 2014), but this is still higher than many other cancers diagnosed at earlier stages.
Survival for women diagnosed with cancer of the uterus is amongst the highest of cancers reported in this bulletin (90% overall average for 2012 to 2014). This is related to the very high proportion of cases diagnosed at stage 1; nearly 2 out of 3 cases. For those diagnosed at stage 4, the proportion dying is still twice as high as the general population.
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Previous work carried out by the International Cancer Benchmarking Partnership (ICBP)10 and by the Eurocare project11 showed that cancer survival in England was not as good as similar countries in Europe and around the world. Survival by stage was compared for some cancers (breast12, lung13, colorectal14 and ovarian15). The differences in survival were thought to be caused by a number of things; including differences in how many cases were diagnosed early, and survival for those diagnosed with stage 4 disease. These results were for people diagnosed 10 to 20 years ago, when there was less data about stage at diagnosis. This bulletin represents an update to the figures for England, with more complete data.Nôl i'r tabl cynnwys
The policy area which is most likely to be influenced by these results is early diagnosis. The National Awareness and Early Diagnosis Initiative (NAEDI)16 aims to improve cancer survival by getting cancers diagnosed earlier. The data from this bulletin can help show the improvement in survival which could be made if more cancers were diagnosed earlier. It also shows the pattern of survival and stage, which may help show where most improvement can be made, for example when the survival from a certain cancer is much worse at stage 4.Nôl i'r tabl cynnwys
This bulletin presents net cancer survival. This is the probability of surviving cancer compared with a matched cohort from the general population. Matching is based on age, sex, year of diagnosis, region and deprivation. This allows comparisons to be made between different years, population groups etc.
The survival calculations are age-standardised. This means that differences in the age-structure of the population in different years are taken into account.
Full details of the methodology are contained in the Cancer Survival Quality and Methodology Information.Nôl i'r tabl cynnwys
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