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How useful is the Cancer Waiting Times (CWT) dataset for the purposes of cancer registration?

How useful is the Cancer Waiting Times (CWT) dataset for the purposes of cancer registration?. - a data quality and evaluation exercise at NYCRIS. Caroline Brook Information Services Manager, NYCRIS. Introduction. CWT dataset defined in 2002 for monitoring waiting times

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How useful is the Cancer Waiting Times (CWT) dataset for the purposes of cancer registration?

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  1. How useful is the Cancer Waiting Times (CWT) dataset for the purposes of cancer registration? - a data quality and evaluation exercise at NYCRIS. Caroline Brook Information Services Manager, NYCRIS UKACR Conference 30 September 2004

  2. Introduction • CWT dataset defined in 2002 for monitoring waiting times • (against targets identified in the NHS Cancer Plan). • DSCN 22/2002 mandated data collection by Trusts. • National guidance on data collection and data definitions. • Data held nationally on a central database. • All data items are included in the National Cancer Dataset. • April 2004 - replaced the existing paper-based monitoring • arrangements (QMCW). UKACR Conference 30 September 2004

  3. What it does not contain… • “All sites of cancer” for CWT does not equal “All registerable • conditions” for cancer registries. • Patients who die prior to receiving treatment. • Private patients. • Patients who do not have an NHS number. What does the CWT dataset contain? • All urgently referred patients with suspected cancer. • All confirmed cases of cancer (whether urgently referred • or not). • Extended to cover all sites of cancer from September 2003. UKACR Conference 30 September 2004

  4. The work at NYCRIS • Project to examine how this source of data could • be used for purposes of cancer registration. • Identified one pilot Acute Trust from each of four • cancer networks (3 cancer units and 1 cancer centre). • Data were obtained directly from each Trust (as central • feed from the CWT database to registries was not yet • established). • Objectives were to evaluate usefulness for cancer • registration and to provide feedback to Trusts on data • quality and ascertainment. UKACR Conference 30 September 2004

  5. Method • Trusts extracted confirmed cases of cancer with one or more • of 3 specified dates between 01/01/04 and 31/03/04. • 1738 records in total. (31% via the urgent referral route.) • NYCRIS notifications had been processed for this period. • All records were matched using NYCRIS patient matching • utility against the whole of the registration database. • Records matching at patient level were then matched at • tumour level using 3-digit ICD-10 codes. • NYCRIS also identified a cohort of relevant cases from its • registration database in order to identify any cases • potentially missing from the CWT extracts. UKACR Conference 30 September 2004

  6. Results - patient matching • 1562 records matched at patient level against the whole of • of the NYCRIS database. a 90% electronic patient match rate. • 167 were manually reviewed resulting in a further 48 patient • matches. Reasons for non-matches electronically were • largely due to incorrectly typed patient demographics, or • registrations made since matching taken place. • 119 of the non-matched patients were identified as potential • new registrations. These included cases with previously • missed pathology, clinical diagnoses and advanced disease. UKACR Conference 30 September 2004

  7. Results - tumour matching • 1283 records matched on tumour (out of a possible 1570) • (3 digit ICD-10, either outside or within the identified cohort). an 82% electronic tumour match rate. • 140 of the unmatched tumours have been manually • reviewed resulting in 132 being matched. This can be due • to recording of secondary sites by NYCRIS prior to full • investigation, but largely due to differences in recording • of in-situ cases (bladder, breast, skin). • 7 of the unmatched tumours reviewed resulted in possible • new registrations. UKACR Conference 30 September 2004

  8. Results - NYCRIS cohort • 550 cases identified by NYCRIS as highly likely to have been • included in the CWT extracts were not matched. (CWT • sites only, pathology confirmed cases only, death • notifications excluded, etc.). • 85 of these have been reviewed manually by one of the • participating Trusts. • 55 have been identified on the Trust database but not yet • uploaded on the CWT database, 11 were private patients. • The Trust had no record of 8 of the patients and the • remaining 11 were queried by them with regard to site • or diagnosis date. UKACR Conference 30 September 2004

  9. Advantages for cancer registration • Earlier notification of clinically diagnosed cases. • Identifies any cases where pathology reports gone missing. • Provision of additional data items to add to existing • notifications, i.e. postcode (98%), NHS number (100%), • known registered PCT (93%), details of first treatment • (provider, treatment type, treatment date) (99%). • May provide a more specific site to previously registered • secondaries. • This leads to more complete provisional registrations and • faster case ascertainment. UKACR Conference 30 September 2004

  10. Limitations for cancer registration • CWT data only cover 71% of all registerable conditions. • Patient not included if dies prior to treatment or • treated privately. • Only 3 digit ICD-10 site code and no morphology code, • therefore more difficult to carry-out precise tumour matching. • Patients excluded who have no NHS number, therefore • low ascertainment for patients on Scottish border. • Could lead to over-registration of malignant sites if not • matched with pathology. • First treatment date for surgery = date of admission. UKACR Conference 30 September 2004

  11. For NYCRIS • Inaccurate data-entry of demographics reducing • patient-matching. • Some inadequacies in current pathology notification processes. • A CWT record can provide sufficient information to make an • initial notification (but not a provisional registration). Lessons learned For Trusts • Duplicate CWT entries identified where patients are referred • to one provider and treated at another. • Missing cases identified by registry - helps to inform • process for picking up non-urgently referred cases. • Need to improve identification of in-situs. UKACR Conference 30 September 2004

  12. Conclusion • CWT dataset is a useful early source of initial notification • for cancer registries but does not cover all required cases. • Additional data items could be obtained early in the process. • When combined with other notifications, i.e. pathology, it • can make a more complete provisional registration. • Registries need to work with Trusts to improve their coding • and ascertainment of cases to make it even more reliable. • Consideration given to which date(s) to use for extract and a • rolling programme established to ensure no missed cases. UKACR Conference 30 September 2004

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