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Statistical bulletin: Cancer Registration Statistics, England, 2013 This product is designated as National Statistics

Released: 10 July 2015 Download PDF

Correction

An error was found in the percentage difference in the female cancer incidence rate between the South West of England and London, which was located in the "Cancer incidence varies across England" section of this release. We would like to assure you that this error was minor, and the overall story has not been affected. This was corrected on 10 July 2015 at 4.00pm. We apologise for any inconvenience caused.

Main points

  • In England there were 292,680 invasive malignant cancer diagnoses (excluding non-melanoma skin cancer) registered in 2013. After age-standardisation there were 683.1 cases of cancer registered per 100,000 males, and there were 542.2 cancer cases per 100,000 females. Compared to 10 years ago, the age-standardised cancer incidence rate has risen by 2.8% for males, and 8.3% for females.
  • Breast, prostate, lung, and colorectal cancer accounted for over half of the malignant cancer registrations in England for all ages combined.
  • Broken down by age, leukaemia was the most common cancer in children aged 0 to 14. In teenagers and adults aged 15 to 49, male testicular cancer and female breast cancer were the most common cancers diagnosed. From the age of 50, prostate and breast are the most common cancers for males and females respectively.
  • The cancer incidence rate was 11.5% higher (for all persons) in the North West of England compared with London after taking into account differences in the age structure of their respective populations. When focusing on different cancer sites the regional differences changed. For example, the prostate cancer incidence rate was 30.5% higher in the South East of England compared with the North East.

Cancer incidence in England

In England, there were 292,680 invasive malignant cancer diagnoses registered in 2013. There were 149,818 new cases of cancer registered for males and 142,862 for females in 2013. The age-standardised cancer incidence rate indicates that there were 683.1 (males) and 542.2 (females) cancer cases per 100,000 people in England in 2013. The age-standardised cancer incidence rate was 26.0% higher for males than females. Compared to 10 years ago, the age-standardised cancer incidence rate has risen by 2.8% for males, and 8.3% for females. In 2004 the rate was 664.8 (males) and 500.7 (females) cases per 100,000 people.

Over 90% of cancer cases were registered in 24 sites in the body (as shown in Figure 1). Breast (female), prostate (male), lung (C33 to C34), or colorectal (otherwise known as bowel cancer; ICD-10 C18 to C20) continue to make up over half of cancer cases registered. These 4 cancers are found to be the most common cancers across the UK 1, and worldwide 2.

Figure 1: The number of cancer registrations by the 24 major sites, England, 2013

Figure 1: The number of cancer registrations by the 24 major sites, England, 2013
Source: Office for National Statistics

Notes:

  1. The International Classification of Diseases Tenth Revision (ICD-10) was used to classify cancer sites. Non-melanoma skin cancers (ICD-10 C44) were excluded.
  2. All ages combined

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By most common we mean the 3 cancers (by sex) with the greatest number of cases registered in 2013. Furthermore, we look at only cancers, which are coded in the International Statistical Classification of Diseases, Tenth Revision (ICD-10) as C00 to C97, excluding C44 (non-melanoma skin cancer), and therefore exclude D00 to D48.  

The most common cancers registered were breast, prostate, lung, and colorectal cancers

Malignant breast cancer was the most common cancer diagnosed in females (all ages combined), with 44,540 cases registered in 2013. Female breast cancer accounted for 31.2% of total female cancer registrations. The age-standardised incidence rate for breast cancer has increased by 5.5% in 10 years, from 161.0 (2004) to 169.8 (2013) cases per 100,000 females.

Prostate cancer was the most common cancer diagnosed in males (all ages combined) in 2013, with 40,372 cases registered, which accounted for 26.9% of total male cancer registrations. The age-standardised cancer incidence rate for prostate cancer was 185.7 cases per 100,000 males. In comparison to 2004 (174.7 cases per 100,000 males) the age-standardised rate for prostate cancer has increased in the last 10 years by 6.3%.

The second most common cancer for males and females was lung cancer. In 2013, there were 36,653 (19,830 males, and 16,823 females) cases of lung cancer registered in England. Lung cancer accounted for 13.2% (males) and 11.8% (females) of the total cancer registrations. The age-standardised lung cancer incidence rate was 43.6% higher in males than in females; where 92.5 cases per 100,000 males were registered in 2013, and 64.4 cases per 100,000 females. In comparison to 10 years ago (2004) the age-standardised rate for lung cancer has decreased by 9.9% for males and increased by 18.4% for females. The different trends in lung cancer incidence rates for males and females are likely to reflect the change in smoking patterns, where women started smoking more and men less after the Second World War3.

In England, there were 18,839 and 14,926 cases (total: 33,765) of colorectal cancer registered for males and females respectively in 2013. Colorectal cancer accounted for 12.6% (males) and 10.4% (females) of the total cancer registrations. In 2013, there were 86.8 cases per 100,000 males diagnosed with colorectal cancer and 56.2 cases per 100,000 females. The age-standardised colorectal cancer incidence rate was 54.4% higher in males than in females. Over the last 10 years, the age-standardised incidence rate for colorectal cancer has increased for both males and females, however, between 2012 and 2013 there was a drop in the number of cases registered. 

There are many risk factors associated with cancer, and there are multiple combinations of risk to consider. Research has indicated that environmental and lifestyle factors such as tobacco smoking, alcohol consumption, obesity, lack of physical exercise, occupational hazard exposures, and diet are linked to cancer 4. Genetic, hormonal, and reproductive factors are also related to cancer risk. More information on the risk factors associated with cancer can be found on the National Health Service website 5.

The 3 most common cancers vary by sex and age group

Prostate, breast, lung, and colorectal cancer are found to be the most common cancers across the UK countries 1, and worldwide 2. Yet it is interesting to note that the most common cancers vary by sex and age group as Figure 2 and 3 show. For instance:

  • leukaemia, brain, non-hodgkin’s lymphoma (males), and kidney (females) were the most common cancer registrations in childhood (0 to 14 years old) - these cancers accounted for over half of the 1,359 cancer cases registered in children

  • for males aged 15 to 49, testicular, skin melanoma, and bowel cancer were the 3 most common cancer registrations - for females the most common cancer registrations were breast, skin melanoma and cervical cancer

  • from the age of 50, prostate, breast, lung, and colorectal cancer were the most common cancer cases registered

It should be mentioned that the most common cancers vary by the age group used to categorise the data. The age groups we use were chosen to align with the age breakdown in our cancer survival bulletins, which are designed to align with the NHS Outcomes Framework Indicators.

Figure 2: The most common cancers for males by age group, England, 2013

Figure 2: The most common cancers for males by age group, England, 2013
Source: Office for National Statistics

Notes:

  1. Excluding non-melanoma skin cancer (ICD-10 C44)

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Figure 3: The most common cancers for females by age group, England, 2013

Figure 3: The most common cancers for females by age group, England, 2013
Source: Office for National Statistics

Notes:

  1. Excluding non-melanoma skin cancer (ICD-10 C44)

Download chart

 

Cancer is a disease of ageing

The majority of cancer cases are registered in the older age groups. Cancer occuring in children, teenagers and young adults (0 to 24) are rare, registrations in this age group accounted for 1.1% of the total cancer registrations. Whereas, cancer registrations for those aged 70 and above accounted for 49.9% of the total registrations. Figure 4 shows the age-specific cancer incidence rate noticeably increasing with age (up until age group 90 and over for females, where it decreases), demonstrating that cancer is mainly a disease of ageing.

The World Health Organisation (WHO) explains that ageing is “a fundamental factor for the development of cancer. The incidence of cancer rises dramatically with age, most likely due to a build up of risks for specific cancers that increase with age”2.

Figure 4: Age-specific cancer incidence rates (per 100,000 people) in 2013, England

Figure 4: Age-specific cancer incidence rates (per 100,000 people) in 2013, England
Source: Office for National Statistics

Notes:

  1. Excluding non-melanoma skin cancer (ICD-10 C44)

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Cancer incidence varies across England

Map 1: Age-standardised incidence rates by English region, all cancers, all persons, 2013

Cancer incidence rates in England are higher in the North and lower in the South
Source: Office for National Statistics

Notes:

  1. Excluding non-melanoma skin cancer (ICD-10 C44)

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The age-standardised cancer incidence rate in 2013 varied across the English regions. For all persons, the rate ranged from 571.0 (London) to 636.6 (North West) per 100,000 people, and the average in England was 601.2 (as shown in Map 1). The age-standardised cancer incidence rate was 11.5% higher in the North West compared to London.

It is important to note that caution should be taken when interpreting regional variations; the differences might be due to a number of influencing factors rather than being a true difference in cancer incidence. One reason might be the variation between regions in deprivation; high levels of deprivation have been associated with higher levels of certain types of cancer6,7. Furthermore, any differences in lifestyle behaviours between regions, for example the regional variance in smoking prevalence8. Specific factors should also be considered like prostate-specific antigen testing a which is not a national screening programme and any regional differences in the availability and uptake of this test could explain regional differences in the age-standardised rate.

When looking at the lowest and highest age-standardised rate the regional variations differ by specific cancers, for example:

  • the female breast cancer incidence rate was 12.0% higher in the South West of England than in London - in the South West of England there were 178.9 cases per 100,000 females, whereas 159.8 cases per 100,000 females were registered in London

  • the rate for prostate cancer was 30.5% higher in the South East of England (201.2 cases per 100,000 males) than in the North East (154.2 cases per 100,000 males)

  • for males, lung cancer rates were 50.8% higher in the North East of England (116.7 cases per 100,000 males) compared to the South East (77.4 cases per 100,000 males), for females in the North East of England (102.2 cases per 100,000 females), the rates for lung cancer were double that of those in the South East (50.5 cases per 100,000 females)

  • for males, the colorectal cancer incidence rate was 24.6% higher in the North East (97.1 cases per 100,000 males) compared to London (77.9 cases per 100,000 males) - whereas, for females, the colorectal cancer incidence rate was 24.5% higher in the South West (60.9 cases per 100,000 females) compared to London (48.9 cases per 100,000 females)

What statistics do we calculate?

Cancer incidence rate: the number of new cancer registrations in a specific population during a particular time period per 100,000 people. Or:

Cancer incidence rate = (total number of cancer registrations/total population) x 100,000

A cancer incidence rate can be calculated by specific age groups, this is referred to as an age-specific cancer incidence rate. We calculate cancer incidence rates for ICD-10 codes C00 to C97 and D00 to D48, all of which can be found in the reference table provided.

Age-standardised cancer incidence rate: a weighted average of the age-specific cancer incidence rates, the weights used are age specific proportions of a standardised population (2013 European Standard Population (ESP)). By standardising cancer incidence rates with the ESP geographical and time comparisons can be made, as the differing age structure of a particular population has been accounted for.

Also included in our reference tables are:

Mortality to incidence ratios: cancer mortality to incidence ratios, are calculated by dividing the number of cancer-related deaths by the number of cancer diagnoses for each given cancer site, sex and region. It must be pointed out that the number of cancer related deaths might include people who were diagnosed before 2013, therefore caution should be made when interpreting these statistics.

Standardised Registration Ratio (SRR): a cancer incidence rate (age and sex specific) is taken as a standard rate; we take England as the standard. The standard rate is then applied to another index population of known age structure (for example, the South West region of England) to calculate how many registrations would have been expected in this index population had they, at each age group, experienced the standard cancer incidence rate (in this example England). The “expected” incidence is then compared to the observed incidence rate in the index population (in this example the South West), with the ratio being multiplied by 100 to give the standardised registration ratio, in which 100 is the value for the standard rate (in this example England). A SRR of 106 would mean the cancer incidence in the index region (in this example the South West) is 6% higher than the standard rate (England). Conversely, an SRR of 94 would mean the cancer incidence was 6% lower.
 

Cancer registration data collection in England

Cancer registrations in England are submitted to us by the National Cancer Registration Service (NCRS) in Public Health England (see Background note 5). The registration of cancer cases is a dynamic process where the data files, both at NCRS and at ONS, are always open and changing. Cancer data files are dynamic in a number of ways:

  • new cancer cases will be registered: this can include new “late” registrations, where a case is registered after the cancer registry or ONS, or both, have published for a particular year

  • cancer records can be amended: for example, the site code of a record would be modified if later more accurate information become available

  • cancer records can be cancelled, although this is unusual

Data are submitted to the NCRS from a range of health care providers and other services (for example, pathology laboratories). As the data come from different sources, the quality and accuracy of the data submitted may vary.

The NCRS carefully collate and validate all the data for each patient, before sending a subset of the data, defined as the cancer registration minimum data set, to the National Cancer Registry at ONS for further validation and processing. The extensive checks run by us include the compatibility of the cancer site and the associated histology, and are closely based on those promoted by the International Agency for Research on Cancer9.

Once all the expected records for any one incidence year have been received and validated we take a snapshot of the data set, which allows us to publish the numbers and rates of all types of cancer by age and sex, and by region of residence. Cancer incidence tables for this release were created in May 2015. It is important to remember that the snapshot of cancer registration data will be different year on year due to the dynamic nature of the data set. Therefore, you will find that the incidence count for 2012 (for example) differs in the current publication compared to the previous publication.

Taking a new snapshot of the dynamic National Cancer Registry database usually results in a difference between what was previously published and what is published from the most current snapshot of data. The balance between ensuring completeness of the data but publishing cancer incidence figures in a timely manner is necessarily a compromise. The gap between what was first published for a registration year and the most recent cancer incidence figures has varied considerably over time, as shown in Figure 5. Over the 42-year period reported, differences between what has been previously published and the current number (refreshed in 2015) of registrations for each year average less than 5%.

Figure 5: Number of cancer registrations previously published in the annual report (MB1 series) and currently on the ONS National Cancer Registry database, England, 1971 to 2012

Figure 5: Number of cancer registrations previously published in the annual report (MB1 series) and currently on the ONS National Cancer Registry database, England, 1971 to 2012
Source: Office for National Statistics

Notes:

  1. Figures for 1971 to 1994 have been extracted from the “frozen” historical data set.
  2. The published figures for 1971 to 1978 correspond to all malignancies, not all registrations. From 1979, the numbers refer to all malignant and benign cancer registrations including non-melanoma skin cancer (C44).
  3. Refreshed figures at May 2015. Previously published figures are taken from the corresponding cancer registration report. For example, figures for 2012 were taken from the report published in June 2014

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Data quality

The figures for numbers and rates of "all cancers" in this release refer to all invasive malignant neoplasms (ICD-10 C00 to C97), excluding non-melanoma skin cancer (ICD-10 C44). Although non-melanoma skin cancer (NMSC) is very common the available figures are known to be under-estimates and unreliable for comparison purposes. This is becausethe policies and practices for the recording of NMSC have varied among the cancer registries. Therefore NMSC registrations have been excluded from the figures for ‘all cancers’ in this publication.

Other data quality matters for this year's figures include:

  • numbers relating to malignant neoplasm of placenta (C58) in London have low reliability due to a potential coding error for a small number of registrations discovered in a late stage of the publication process

  • the increase in cases of in-situ breast tumours (D05) seen in 2013 is due to a change in coding rules in England; before the change, if an in-situ breast cancer was registered and then, in a close period of time, the patient was diagnosed with an invasive breast cancer in the same breast, the registry concluded this was a progression of the original tumour, and removed the in-situ tumour registration, changing it to an invasive registration - the cancer registry are now recording both cases, unless the second cancer is known to be a progression of the first cancer

  • since 2008 there has been a large decrease in the registrations of carcinoma in situ of skin (D04) as it is no longer a condition registered

  • any regional differences in benign, uncertain and unknown neoplasms should be interpreted with caution as there is known historic variation in the way cancer registries recorded these tumours across the country, and they do not receive as much analytical attention and scrutiny as the invasive cancers.

Further details about the cancer registration data can be found in the Cancer Registration Statistics Quality and Methodology Information paper (189.7 Kb Pdf) 10.

Users and uses of cancer statistics

Main users of cancer registration statistics include:

  • Department of Health 

  • academics and researchers

  • cancer charities

  • cancer registries

  • other government organisations and our own researchers

  • the media

  • general public

The main uses of cancer registration statistics include:

  • providing an evidence base to inform cancer policy and programmes 

  • informing cancer research 

  • feeding into cancer information leaflets, web pages, campaigns to raise cancer awareness

  • we use the data to produce National Statistics on cancer incidence and survival 

  • briefing parliamentary ministers

  • providing answers to parliamentary questions

  • providing bespoke tables for customers 

Policy context

Cancer incidence (number of cancer cases registered) data allow policy makers to measure the extent of cancer within the population in England. Cancer incidence data is used alongside cancer prevalence, mortality and survival to allow policy makers to ascertain the burden of cancer in England.  

Cancer incidence data directly helps to form policy on the prevention of cancer. It also is important in calculating cancer survival (in conjunction with mortality data) which is then used to drive a number of policy streams within government, and also monitor a number of performance indicators for the English health care system. The indicators set for the NHS Outcomes Framework 2015 to 2016 – focus on measuring health outcomes 11 include 1- and 5-year cancer survival indicators for all cancers combined, and for colorectal, breast and lung cancers combined. These survival estimates are calculated from the cancer incidence data.

References

  1. Cancer research UK. (2014) Cancer incidence for common cancers: (Accessed June 2015)

  2. World Health Organisation. (2015) Cancer (Accessed June 2015)

  3. Wald, N. and Nicolaides-Bouman, A. (1991) UK Smoking Statistics. 2nd edition, Oxford University Press

  4. Parkin DM, Boyd L, and Walker LC. (2011) 16. The fraction of cancer attributable to lifestyle and environmental factors in the UK in 2010. Summary and conclusions, British Journal of Cancer 105 (S2), S77-S81. (Accessed June 2015)

  5. National Health Service. (2015) Cancer (Accessed June 2015)

  6. National Cancer Intelligence Network (2008).Cancer Incidence by Deprivation, England, 1995-2004. (Accessed June 2015)

  7. Shack L, Jordan C, Thomson C S, Mak V, and Møller H (2008). Variation in incidence of breast, lung and cervical cancer and malignant melanoma of skin by socioeconomic group in England, BMC Cancer, 8, 271

  8. Office for National Statistics. (2014) 5 facts about smoking (Accessed June 2015)

  9. Parkin DM, Chen VW, Ferlay J, Galceran J, Storm HH and Whelan SL (1994). Comparability and Quality Control in Cancer Registration. IARC Technical Report No. 19. Lyons: International Agency for Research on Cancer

  10. Cancer Registration Statistics Quality and Methodology Information paper (189.7 Kb Pdf) (Accessed June 2015)

  11.  NHS Outcomes Framework 2013 to 2014 – focus on measuring health outcomes (Accessed June 2015)

  12. The impact of using the 2013 European Standard Population to calculate mortality and cancer incidence rates. (Accessed June 2015)

  13. Office of Population Censuses and Surveys (1994). Registry/ONS Interface Document. National Cancer Registration System, England and Wales. London: OPCS 1994 (subsequently revised)

  14. World Health Organisation. International Classification of Diseases (ICD).  (Accessed June 2015)

Background notes

  1. The age-standardised rates in this release are expressed per 100,000 population and are standardised to the European Standard Population 2013 (ESP 2013). They are standardised to allow for more robust comparisons between males and females, years and geographical areas. Previously published rates for 1995 to 2011, based on ESP 1976, have been recalculated using the ESP 2013. Rates will therefore differ from those previously published. There’s more information in ‘The impact of using 2013 European Standard Population to calculate mortality and cancer incidence rates' 12.

  2. Cancer incidence rates are based on the latest mid-year population estimates for the reference year at the time of publication.

  3. Cancer incidence data from the National Cancer Registry at ONS are used to calculate National Statistics on cancer survival.

  4. In common with cancer registries in other countries, cancer registrations in England can take up to 5 years after the end of a given calendar year to reach 100% completeness, due to the continuing accrual of late registrations. The figure of 98% is an estimate of completeness based on the figures published for 3 previous years data (2010 to 2012), compared with the number of late registrations subsequently received for these years and published in 2013. It is therefore the difference between what figures have been published in all of our cancer incidence publications within a given reporting year, verses late registrations received after the publication date cut-off and updated in a subsequent year. It is not an estimate of how many cancers never get recorded.

  5. The agreed procedures to be followed by the cancer registries and ourselves, when submitting and processing data, are set out in the ‘Registry/ONS Interface Document’13. These are summarised by 3 levels of quality status, where levels 1 and 2 can be included in tables. It is a requirement that when a registry’s data for a particular year are complete, no more than 0.5% of records should have a quality recorded as Status 3, and over the past 12 years the proportion of records with serious errors has consistently been 0.1% or less. The quality status of all the records on the our cancer registration database from 1971 up to 2013 is shown in Table 10 of the reference tables associated with this publication.

  6. The International Classification of Diseases Tenth Revision14 (ICD-10) was used to classify cancer sites.
  7. A list of the names of those given pre-publication access to the statistics and written commentary is available in Pre-release Access List: Cancer Registration Statistics, England, 2013. The rules and principles that govern pre-release access are featured within the Pre-release Access to Official Statistics Order 2008.

  8. Further 2013 cancer statistics will be published later in 2015. The GOV.UK release calendar contains more detail on releases.
  9. Special extracts and tabulations of cancer data for England are available to order (subject to legal frameworks, disclosure control, resources and agreement of costs, where appropriate). Such enquiries should be made to:
    Cancer and End of Life Care Analysis Team
    Life Events and Population Sources Division
    Office for National Statistics
    Government Buildings
    Cardiff Road
    Newport
    NP10 8XG
    Tel: +44 (0)1633 455704
    Email: cancer.newport@ons.gsi.gov.uk

    Our charging policy is available on the ONS website.

  10. As a valued user of our statistics, we would welcome feedback on this release. In particular, the content, format and structure. Please send feedback to the postal or e-mail address above.

  11. Follow us on Twitter and Facebook.

  12. Next publication date: May/June 2016.

  13. © Crown copyright 2015

    You may re-use this document/publication (not including logos) free of charge in any format or medium, under the terms of the Open Government Licence v3.0. To view this licence visit the National Archives website; or write to the Information Policy Team, The National Archives, Kew, Richmond, Surrey, TW9 4DU; or email: psi@nationalarchives.gsi.gov.uk.

    Where we have identified any third party copyright information you will need to obtain permission from the copyright holders concerned.

    This document/publication is also available on our website.

  14. Any enquiries regarding this document/publication should be sent to us at

    Tel:  Emma Nash   +44 (0)1633 456844
    Email:  cancer.newport@ons.gsi.gov.uk
    Website: www.ons.gov.uk

  15. Issued by:

    Office for National Statistics, Government Buildings, Cardiff Road, Newport NP10 8XG

  16. Media contact:

    Tel:  Media Relations Office    +44 (0)845 6041858
      Emergency on-call    +44 (0)7867 906553
    Email:  media.relations@ons.gsi.gov.uk

  17. Additional Information

    Further cancer statistics are available on our website.

    Information about statistics on cancer registrations that we publish can be found in the Cancer Registration Statistics Quality and Methodology Information paper (189.7 Kb Pdf) . Quality and Methodology Information papers are overview notes which pull together important qualitative information on the various dimensions of the quality of statistics as well as providing a summary of the methods used to compile the output. Information about key users of these statistics is also provided.

    Further cancer statistics for the UK

     

  18. Acknowledgements

    The National Cancer Registry at the Office for National Statistics wishes to acknowledge the work of all the staff working in the National Cancer Registration Service (NCRS), Public Health England, which provided the raw data for these analyses.
    More information about the NCRS is available on the Public Health England website.

    The Director of Disease Registration (which incorporates cancer registration) for Public Health England is:

    Dr Jem Rashbass
    Unit C – Magog Court
    Shelford Bottom
    Hinton Way
    CAMBRIDGE, CB22 3AD
    Tel: +44 (0) 1223 213499
    Jem.Rashbass@phe.gov.uk

    The contact details for the Welsh, Scottish and Northern Ireland Cancer Registries are as follows:

    Wales: 

    Dr Dyfed Wyn Huws
    Welsh Cancer Intelligence & Surveillance Unit
    Floor 13, Brunel House
    2 Fitzalan Road
    CARDIFF, CF24 0HA
    Tel: +44 (0) 2920 373500
    Dyfed.Huws@wales.nhs.uk

    Scotland:   

    Dr D Brewster, Director of Cancer Registration in Scotland
    Scottish Cancer Registry
    Information Services Division of NHS National Services Scotland (ISD Scotland)
    Area 155
    Gyle Square
    1 South Gyle Crescent
    EDINBURGH, EH12 9EB
    Tel: +44 (0) 131 275 6092
    Nss.isdCancerStats@nhs.net

    Northern Ireland:

    Dr A Gavin, Director
    Northern Ireland Cancer Registry
    Queens University of Belfast
    School of Medicine, Dentistry & Biomedical Sciences
    Mulhouse Building
    Grosvenor Road
    BELFAST, BT12 6BJ
    Tel: +44 (0) 28 9063 2573
    nicr@qub.ac.uk

    The cancer registries are all members of the United Kingdom & Ireland Association of Cancer Registries (UKIACR).

  19. Details of the policy governing the release of new data are available by visiting www.statisticsauthority.gov.uk/assessment/code-of-practice/index.html or from the Media Relations Office email: media.relations@ons.gsi.gov.uk

    The United Kingdom Statistics Authority has designated these statistics as National Statistics, in accordance with the Statistics and Registration Service Act 2007 and signifying compliance with the Code of Practice for Official Statistics.

    Designation can be broadly interpreted to mean that the statistics:

    • meet identified user needs;
    • are well explained and readily accessible;
    • are produced according to sound methods; and
    • are managed impartially and objectively in the public interest.

    Once statistics have been designated as National Statistics it is a statutory requirement that the Code of Practice shall continue to be observed.

Statistical contacts

Name Phone Department Email
Emma Nash +44 (0)1633 656844 Cancer and End of Life Care Analysis Team cancer.newport@ons.gsi.gov.uk
Get all the tables for this publication in the data section of this publication .
Content from the Office for National Statistics.
© Crown Copyright applies unless otherwise stated.