Rapid Diagnostic Clinics (RDC) are being expanded nationally by NHS England. Guy’s RDC established a pathway for GPs and internal referrals for patients with symptoms concerning for malignancy not suitable for a site-specific 2WW referral. However, little data assessing the effectiveness of RDC models are available in an English population.
We evaluated all patients referred to Guy’s RDC between December 2016 and June 2019 (n = 1341) to assess the rate of cancer diagnoses, frequency of benign conditions and effectiveness of the service.
There were 96 new cancer diagnoses (7.2%): lung (16%), haematological (13%) and colorectal (12%)—with stage IV being most frequent (40%). Median time to definitive cancer diagnosis was 28 days (IQR 15–47) and treatment 56 days (IQR 32–84). In all, 75% were suitable for treatment: surgery (26%), systemic (24%) and radiotherapy (14%). Over 180 serious non-neoplastic conditions were diagnosed (35.8%) of patients with no significant findings in two-third of patients (57.0%).
RDCs provide GPs with a streamlined pathway for patients with complex non-site-specific symptoms that can be challenging for primary care. The 7% rate of cancer diagnosis exceeds many 2WW pathways and a third of patients presented with significant non-cancer diagnoses, which justifies the need for rapid diagnostics. Rapid Diagnostic Centres (RDCs) are being rolled out nationally by NHS England and NHS Improvement as part of the NHS long-term plan. The aim is for a primary care referral pathway that streamlines diagnostics, patient journey, clinical outcomes and patient experience. This pilot study of 1341 patients provides an in-depth analysis of the largest single RDC in England. Cancer was diagnosed in 7% of patients and serious non-cancer conditions in 36%—justifying the RDC approach in vague symptom patients.
Five-year UK cancer survival rates are lower than comparable Western countries.1,2,3,4 This is multi-factorial, including cultural differences in health awareness, medical advice-seeking behaviours confounded by delays in diagnosis and treatment.5 Early identification of symptoms facilitating timely cancer diagnosis is linked with improved outcomes.6,7,8,9,10 The UK two-week wait (2WW) initiative aimed to reduce diagnostic and treatment intervals.11 This is based on recognition of red flag symptoms; however, only half of cancer patients ever develop these.12 Moreover, less than a quarter of cancer cases are diagnosed in this way,13,14 with a similar proportion presenting as emergencies15,16 and half in outpatient clinics.17 Many cancers present with vague or non-localising symptoms such as fatigue, weight loss or back pain,18,19,20,21,22 and are more likely to be diagnosed at a late cancer stage12 with higher mortality.23
Rapid Diagnostic Clinics (RDCs) were based on the Danish three-legged cancer model.24 Patients with alarm symptoms were referred for fast-track assessment and those with a low risk of cancer referred back to the GP. The intermediate non-specific concerning group had a symptom screening questionnaire, upfront screening tests including blood, chest radiograph and abdominal ultrasound before being accepted into the RDC. Of this selected cohort, 16% of patients had new cancers diagnosed.24,25 In 2015, pilot UK Multi-Disciplinary Centres (MDCs) were established to improve cancer outcomes26 within the Accelerate Coordinate Evaluate (ACE) programme.17,27,28,29 The UK pilot was across 5 geographic locations, each with a distinct model, referral criteria and approach.27,28 Cancer detection rates were 4–16%, with serious benign conditions identified in a third.17 Concurrently, the Guy’s RDC was commissioned to establish a pathway for GPs and internal referrals for patients with symptoms concerning for malignancy not suitable for a site-specific 2WW referral. The collective aim was to deliver a personalised,30 co-ordinated diagnostic approach for adults with non-site-specific symptoms31 to facilitate earlier cancer diagnosis and fast-track care. The distinguishing feature of our RDC model, compared to ACE, is complete clinical oversight from an Internal Medicine Consultant. Patients undergo an upfront clinical review by a Consultant or Advanced Nurse Practitioner. This involves a comprehensive assessment of symptoms, co-morbidities, polypharmacy, risk factors, mental health as well as nutritional, functional and cognitive status. With this holistic approach, diagnostics are tailored to the individual and do not focus solely on cancer, as outlined in Fig. 1. This model is being rolled out nationally by NHS England and NHS Improvement, as part of the NHS long-term plan, with at least one Rapid Access Centre mandated per cancer alliance32 with full population coverage by 2024. The long-term plan to facilitate the faster diagnostic standard of 28 days,33 improved patient experience34,35 and reduced geographic variations in access to health services.
This retrospective audit evaluates the largest single -centre RDC in England with the primary aim to establish cancer detection rate. The secondary objectives included: (1) defining cancer type, stage and treatment rates, (2) determining if cancer patient characteristics or symptoms are unique compared to benign cases, (3) evaluating the rate and type of serious non-neoplastic conditions, (4) the clinical effectiveness of the RDC and (5) impact on diagnostic resources.
Patients over 18 years of age are referred to Guy’s RDC if symptoms do not fit a specific 2WW criteria or fit multiple pathways (Fig. 1). Upfront assessment of symptoms, co-morbidities, polypharmacy, lifestyle factors and mental health is undertaken alongside optimisation of nutritional status and co-morbidities. Diagnostics are performed within 1–2 weeks to facilitate expedited diagnosis ideally within 1–3 weeks with prompt onward referral or discharge. See RDC pathway schematic in Fig. 1.
This pilot study evaluates the Guy’s RDC model assessing complex symptom patients referred between December 2016 and June 2019 with data lock on 1st March 2020 (Fig. 1). Data were collected retrospectively from the electronic patient records (EPR) for all patients seen. Demographics, symptoms, laboratory test results, co-morbidities and lifestyle factors were collected, as well as cancer type, stage and treatment. The date of cancer diagnosis was the date of histological diagnosis or presumed radiological cancer diagnosis if biopsy was not undertaken. Serious non-cancerous conditions were defined as illnesses requiring onward secondary care referral. This study was approved by the Guy’s and St Thomas’ NHS Trust Quality Improvement and Clinical Audit Committee (Number 10236) and did not require regulatory ethics approval.
Descriptive statistics were employed to analyse the clinical characteristics of the cohort with Chi-squared and t tests. Variables assessed are outlined in Supplementary Table 1. The incidence of cancer, its type and frequency were calculated, and descriptive statistics used to analyse time to diagnosis and the number of investigations performed.
A total of 1341 prospective patients were seen in the Guy’s RDC between December 2016 and June 2019 (Table 1), 96% referred by GP and 4% internal referrals. Median follow-up was 18.69 months (13.21–26.55). Overall, patients had multiple co-morbidities (median 3, maximum 6), mental health issues (18%), polypharmacy (42%) and 20% were current smokers. They had multiple presenting symptoms (median 3, maximum 13) with weight loss (53.7%), pain (47.2%) and abdominal symptoms (36.1%) being most frequently reported, Table 1. The cancer patients (n = 93) were statistically significantly different to non-cancer patients (n = 1241) in terms of older age (mean 69 vs 62 years), being male (60.2% vs 39.3%) and with recent period of weight loss (1–4 months, 45% vs 25%). There is a high rate of social deprivation and current smoking (20–25%). Within the cancer group, there was a higher incidence of White ethnicity patients (56% vs 42%) and lower rate of Black ethnicity (7 vs 21%) in the cancer patients. There was also an increased rate of anaemia (43 vs 27%), thrombocytosis (18 vs 6%), raised CRP (68 vs 36%) and liver dysfunction (18 vs 8%) in cancer vs non-cancerous groups, Table 1.
Ninety-six cases of cancer (7.3%) were detected with three patients having synchronous cancers (Fig. 2, Supplementary Table 2). The cancer incidence rate was 1.28 per 1000 person years. The commonest malignancies were lung (16.1%), haematological (12.9%) and colorectal (11.8%), Fig. 2a. Forty percent were metastatic presentations, whereas neuroendocrine, renal and bladder were mostly stage I (23–67%). Overall, 74% of patients were deemed fit to receive primary cancer treatment (Fig. 2b): surgery (26%), systemic anticancer treatment (24%) and radiotherapy (14%). Full cancer staging, histological subtype, primary treatment and performance status is outlined in supplementary table 2. Interestingly, of the newly detected cancers, only 8% fulfilled the tumour- specific 2WW referral criteria and a further 8% fulfilled a different pathway (Supplementary Table 2).
Serious non-neoplastic conditions, defined by onward referral to a secondary care specialist, occurred in over a third (n = 480, 35.8%), Fig. 3. Over 180 conditions were diagnosed, and most frequent referring specialities were gastroenterology and colorectal (29%) and haematology (11%). Severe infectious diseases in 9 patients, including TB, HIV, Lyme disease and syphilis. Vascular conditions such as aortic aneurysms and dissection in 11 patients and vasculitis and connective tissue disorders in 16. Pre-malignant conditions in 6% included monoclonal gammopathy of undetermined significance (MGUS), colonic polyps and lung or liver nodules. Mild conditions or no organic cause was found in 57% (n = 768).
In addition to the chest radiograph and optional abdominal ultrasound done on referral, three quarters of patients had radiological investigations arranged by the RDC amounting to 2,372 scans (Fig. 4a). The median number was 2 (IQR 1–3) with the most common investigations being CT (71%, Fig. 4b). Endoscopy and biopsies were undertaken in 41% and 32% of patients, respectively (Fig. 4c). Median time from referral to RDC appointment was 8 days (IQR 7–12 days). Median time to histological cancer diagnosis was 28 days and 56 days to primary treatment from RDC appointment (Fig. 4d).
This study evaluated the Guy’s RDC in 1341 consecutive vague symptom patients from an urban London population with in-depth analysis of cancer and non-cancerous conditions, and included 18.7 months median follow-up. This patient group is complex with multiple co-morbidities, high levels of polypharmacy, significant cancer risk factors, mental health conditions, ethnic variation and social deprivation. Cancer was detected in 7% with 31% being early stage (I–II) and 40% receiving radical treatment. Patients generally had similar characteristics, except the cancer patients were older, more likely to be male and have shorter symptom duration. Moreover, increased rates of smoking (25 vs 20%), anaemia (42 vs 27%) and thrombocytosis (18 vs 6%), compared to non-cancer controls. Over 180 serious non-neoplastic conditions were diagnosed in a third of patients necessitating referral to over 25 specialist teams. In total, 57% of patients had no significant cause identified and were discharged to their GP.
Compared to the Danish and ACE programmes, the Guy’s patients were younger with a median age of 62 (vs 69 and 65 years).17,25 Almost half presented after 3 months of symptoms, similar to ACE at 56% but much less than the Danish report of 13%.25 This suggests differences in medical seeking behaviours as well as primary care recognition and onward referral between countries. Our patient group had higher levels of deprivation and double the rate of smoking compared to the national average.36 There is no comparative data for the Central London RDC as the ACE annual reports were combined analyses of all RDCs.
The RDC cancer detection rate was 7%, higher than many 2WW pathways, including the Guy’s colorectal pathway of 3% (data not shown). In comparison to the colorectal cohort, the RDC patients were older (median 69 vs 61 years) with more patients from Black ethnic backgrounds (19% vs 15%). The Guy’s cancer conversion rate is similar to the Welsh 11%37 and ACE reports of 4–11%27,28 but less than the Danish model 16%.25 This likely reflects the high level of selection of patients into the Danish clinic. In contrast to the Guy’s open-referral criteria, all patients had to have persistent symptoms, complete pre-clinic questionnaire and have had upfront radiology before being accepted to the Danish clinic.24,25 The Welsh analysis was a smaller cohort of 186 patients, but all these patients underwent CT imaging37 compared to only 71% in our cohort. We feel medical assessment is pertinent to judge the risk of unnecessary radiation exposure against clinical concern, especially given the high proportion of patients with mild or non-organic causes.
Given that more than 95% of patients were treated within our network, we can report comprehensive data on cancer patients compared to more higher-level data in previous studies.17,25 The frequency of cancers detected correlates with the commonest malignancies; two-thirds were metastatic, which likely reflects later presentations in complex patients with vague symptoms. We also found less upper gastrointestinal cancers compared to ACE,17 which is likely due to differences in the referral criteria. Ours was broader than some more gastroenterology-specific MDCs. Additionally, we had a high rate of early urological cancers, amenable to curative resection, that were symptomatic, so no incidental radiological findings.
An NHS cancer priority is to improve early-stage cancer detection rates, and therefore increase radical treatment options.6,10 Similar to ACE, a third of patients in our RDC were detected at stage I–II with radical treatments in 40% primary surgery and systemic therapies. Moreover, pre-malignant conditions were diagnosed in 6%, including MGUS, indeterminate liver and lung lesions and gastrointestinal polyps. Although these are incidental findings, the prompt detection allows active monitoring and early treatment.
This study explicitly defined the serious non-cancer conditions not clearly outlined previously. More than 180 conditions were diagnosed, demonstrating the complexity of many diagnoses, as well as differing diagnostic labels hindering data collection. It also highlights the importance of the RDC in early diagnosis of chronic conditions and the importance of close links with multiple specialities to enable prompt specialist intervention.
Two-thirds of patients had no significant cause of their symptoms found (n = 768, 57%), either no organic cause identified or non-serious conditions that could be managed in primary care. This group was discharged to GPs with recommendations to review risks factors, polypharmacy and psycho-social circumstances. A fifth of patients had documented mental health conditions on referral. Clinical practice shows that this is underestimated in our population. Therefore, a collaboration is underway with the Integrating Mental & Physical health care: research, training & services (IMPARTS project) to assess the interplay of psychological and physical health.38
The Guy’s RDC is an effective service with a median time to histological cancer diagnosis of 28 days, in line with FDS standards. This is particularly pertinent for patients with vague symptoms who typically wait 34 days more for a diagnosis than those with red flag symptoms.6 These gains are due to more appropriate triage testing and a generalist rather than tumour group-specific approach, adequate diagnostic resources and efficient referral systems. Time to cancer diagnosis is longer than the ACE report.17 However, they defined it as the date of clinical diagnosis, which they reported in 217 of the 239 cancer patients diagnosed. Our definition was the date of histological confirmation. Radiological diagnosis was only used if a biopsy was deemed inappropriate to be undertaken. Median time to first cancer treatment was 28 days, which is due to RDC patients being upgraded to the site-specific 2WW pathway following the cancer diagnosis. We have since streamlined the service by implementing a system to track cancer patients to expedite specialist review. We are unaware of correlative published data for the vague symptom cancer cohort. Overall, ACE annual reports state a median of 57 days from referral to any treatment, whether cancer or benign, in a selected group of 142 of 2961 patients.17 Without peer-reviewed granular data, it is difficult to compare our outcomes. We calculated time to first treatment only for cancer patients using 2-week rule standards. We did not calculate this for the non-cancerous patients as it is difficult to define what constitutes treatment as it can vary from simple medications through to surgical interventions.
There are no randomised studies to show the effectiveness of RDCs, given the difficulty of having an appropriate control group. This large-scale English prospective study fully characterises non-specific symptom patients and their outcomes. We present comprehensive data on cancer and non-cancerous conditions. This study confirms better cancer detection rates comparable to straight-to-test models17,24,25,27,28 and exceeds many 2WW pathways.39,40 Only 16% of new cancers fulfil a 2WW referral criteria. This highlights the difficulty for GPs to identify the appropriate referral route and the importance of a vague symptom pathway. We have not been able to demonstrate the numbers of missed or subsequent cancer diagnoses in the RDC, but plan to assess this through the cancer registry.
This descriptive study outlines the demand on diagnostic services. It highlights the high volume of radiological and endoscopic investigations undertaken and the need for fast turnaround times to support the co-ordinated RDC approach. These descriptive statistics should help guide resource allocations in the RDS. Moreover, we were unable to estimate the impact of onward referrals for almost 600 patients to hospital specialists in terms of subsequent investigations and appointments, particularly within the overstretched NHS. We plan to assess this in future studies; however, we hypothesise that early definitive diagnosis within the RDC could potentially reduce primary and secondary care attendances.
Finally, it is important to note that the RDC holistic service will be paramount in the cancer recovery phase from the COVID-19 pandemic. Delays in patients presenting for medical advice alongside severely reduced access to diagnostics and cancer treatment will lead to a plethora of undiagnosed cancer cases.41,42 These will likely result in later-stage presentations with more complex symptomatology that may not fit a site-specific 2WW referral criteria. The RDC is well established to play a pivotal function in assisting expedited new cancer diagnoses, as well as support overwhelmed 2WW pathways to ensure that they can prioritise investigation of the high-risk patients clinically fit for investigation and subsequent oncological treatment.
In conclusion, these data confirm that RDCs provide a streamlined pathway for complex vague symptom patients. In total, 7% were diagnosed with cancer and 36% with serious non-cancerous conditions that can be challenging to diagnose in primary care. The commonest cancers found were lung, haematological and colorectal with a third at an early stage (I–II) and 40% were amenable to radical treatment. Median times to cancer diagnosis and treatment were 28 and 56 days, respectively, in line with current NHS targets. A prospective evaluation of the RDC with health economic studies is needed to evaluate the effectiveness with the RDS national expansion by NHS England and Improvement. Moreover, RDCs could be pivotal in the cancer recovery phase of the COVID-19 pandemic.
Allemani, C., Matsuda, T., Di Carlo, V., Harewood, R., Matz, M., Niksic, M. et al. Global surveillance of trends in cancer survival 2000-14 (CONCORD-3): analysis of individual records for 37 513 025 patients diagnosed with one of 18 cancers from 322 population-based registries in 71 countries. Lancet 391, 1023–1075 (2018).
De Angelis, R., Sant, M., Coleman, M. P., Francisci, S., Baili, P., Pierannunzio, D. et al. Cancer survival in Europe 1999-2007 by country and age: results of EUROCARE-5-a population-based study. Lancet Oncol. 15, 23–34 (2014).
Abdel-Rahman, M., Stockton, D., Rachet, B., Hakulinen, T. & Coleman, M. P. What if cancer survival in Britain were the same as in Europe: how many deaths are avoidable? Br. J. Cancer 101, S115–S124 (2009).
Coleman, M. P., Forman, D., Bryant, H., Butler, J., Rachet, B., Maringe, C. et al. Cancer survival in Australia, Canada, Denmark, Norway, Sweden, and the UK, 1995-2007 (the International Cancer Benchmarking Partnership): an analysis of population-based cancer registry data. Lancet 377, 127–138 (2011).
Pedersen, A. F., Forbes, L., Brain, K., Hvidberg, L., Wulff, C. N., Lagerlund, M. et al. Negative cancer beliefs, recognition of cancer symptoms and anticipated time to help-seeking: an international cancer benchmarking partnership (ICBP) study. BMC Cancer 18, 363 (2018).
Neal, R. D., Tharmanathan, P., France, B., Din, N. U., Cotton, S., Fallon-Ferguson, J. et al. Is increased time to diagnosis and treatment in symptomatic cancer associated with poorer outcomes? Systematic review. Br. J. Cancer 112, S92–S107 (2015).
Dahl T. L., Vedsted P. & Jensen H. The effect of standardised cancer pathways on Danish cancer patients’ dissatisfaction with waiting time. Dan Med. J. 64, A5322 (2017).
Mendonca, S. C., Abel, G. A. & Lyratzopoulos, G. Pre-referral GP consultations in patients subsequently diagnosed with rarer cancers: a study of patient-reported data. Br. J. Gen. Pr. 66, e171–e181 (2016).
Robinson, K. M., Christensen, K. B., Ottesen, B. & Krasnik, A. Diagnostic delay, quality of life and patient satisfaction among women diagnosed with endometrial or ovarian cancer: a nationwide Danish study. Qual. Life Res. 21, 1519–1525 (2012).
Torring, M. L., Murchie, P., Hamilton, W., Vedsted, P., Esteva, M., Lautrup, M. et al. Evidence of advanced stage colorectal cancer with longer diagnostic intervals: a pooled analysis of seven primary care cohorts comprising 11 720 patients in five countries. Br. J. Cancer 117, 888–897 (2017).
The NHS Cancer Plan. A plan for investment. A plan for reform. Available from: https://www.thh.nhs.uk/documents/_departments/cancer/nhscancerplan.pdf (2000).
Swann, R., McPhail, S., Witt, J., Shand, B., Abel, G. A., Hiom, S. et al. Diagnosing cancer in primary care: results from the National Cancer Diagnosis Audit. Br. J. Gen. Pr. 68, e63–e72 (2018).
Zhou, Y., Mendonca, S. C., Abel, G. A., Hamilton, W., Walter, F. M., Johnson, S. et al. Variation in ‘fast-track’ referrals for suspected cancer by patient characteristic and cancer diagnosis: evidence from 670 000 patients with cancers of 35 different sites. Br. J. Cancer 118, 24–31 (2018).
Meechan, D., Gildea, C., Hollingworth, L., Richards, M. A., Riley, D. & Rubin, G. Variation in use of the 2-week referral pathway for suspected cancer: a cross-sectional analysis. Br. J. Gen. Pr. 62, e590–e597 (2012).
Hawkes, N. Emergency cancer diagnoses in England fall from in 24% to 20% in 10 years. BMJ 360, k264 (2018).
Public Health England. Routes to Diagnosis 2006-2016 workbook: Version b. http://www.ncin.org.uk/publications/routes_to_diagnosis (2017)
Cancer Research UK. Key messages from the evaluation of Multidisciplinary Diagnostic Centres (MDC). https://www.cancerresearchuk.org/sites/default/files/ace_mdc_report_may_2019_11.pdf (2019)
Shephard, E. A., Neal, R. D., Rose, P., Walter, F. M., Litt, E. J. & Hamilton, W. T. Quantifying the risk of multiple myeloma from symptoms reported in primary care patients: a large case-control study using electronic records. Br. J. Gen. Pr. 65, e106–e113 (2015).
Shephard, E. A., Neal, R. D., Rose, P. W., Walter, F. M. & Hamilton, W. Symptoms of adult chronic and acute leukaemia before diagnosis: large primary care case-control studies using electronic records. Br. J. Gen. Pr. 66, e182–e188 (2016).
Shephard, E. A., Neal, R. D., Rose, P. W., Walter, F. M. & Hamilton, W. T. Quantifying the risk of Hodgkin lymphoma in symptomatic primary care patients aged >/=40 years: a case-control study using electronic records. Br. J. Gen. Pr. 65, e289–e294 (2015).
Koo, M. M., Hamilton, W., Walter, F. M., Rubin, G. P. & Lyratzopoulos, G. Symptom signatures and diagnostic timeliness in cancer patients: a review of current evidence. Neoplasia 20, 165–174 (2018).
Nicholson, B. D., Aveyard, P., Hamilton, W. & Hobbs, F. D. R. When should unexpected weight loss warrant further investigation to exclude cancer? BMJ 366, l5271 (2019).
McPhail, S., Elliss-Brookes, L., Shelton, J., Ives, A., Greenslade, M., Vernon, S. et al. Emergency presentation of cancer and short-term mortality. Br. J. Cancer 109, 2027–2034 (2013).
Vedsted, P. & Olesen, F. A differentiated approach to referrals from general practice to support early cancer diagnosis - the Danish three-legged strategy. Br. J. Cancer 112, S65–S69 (2015).
Ingeman, M. L., Christensen, M. B., Bro, F., Knudsen, S. T. & Vedsted, P. The Danish cancer pathway for patients with serious non-specific symptoms and signs of cancer-a cross-sectional study of patient characteristics and cancer probability. BMC Cancer 15, 421 (2015).
Achieving world- class cancer outcome: A strategy for England 2015–2020—Progress Report 2016–2016. https://www.england.nhs.uk/publication/achieving-world-class-cancer-outcomes/.
Cancer Research UK. Accelerate, Coordinate, Evaluate ACE programme projects. http://www.cancerresearchuk.org/health-professional/early-diagnosis-activities/ace-programme/ace-programme-projects (2016).
Cancer Research UK. Accelerate, Coordinate, Evaluate (ACE) programme. http://www.cancerresearchuk.org/health-professional/early-diagnosis-activities/ace-programme (2017).
Nicholson, B. D., Oke, J., Friedemann Smith, C., Phillips, J. A., Lee, J., Abel, L. et al. The Suspected CANcer (SCAN) pathway: protocol for evaluating a new standard of care for patients with non-specific symptoms of cancer. BMJ Open 8, e018168 (2018).
Universal Personalised Care. https://www.england.nhs.uk/personalisedcare/upc/comprehensive-model/ (2019).
Pedersen, A. F., Andersen, C. M., Ingeman, M. L. & Vedsted, P. Patient-physician relationship and use of gut feeling in cancer diagnosis in primary care: a cross-sectional survey of patients and their general practitioners. BMJ Open 9, e027288 (2019).
Improvement NEaN. Rapid Diagnostic Centres. Vision and 2019/20 Implementation Specification. https://www.england.nhs.uk › wp-content › uploads › 2019/07 › rdc-vision (2019).
NHS Long term plan. https://www.longtermplan.nhs.uk/online-version/ (2019).
Sandager, M., Jensen, H., Lipczak, H., Sperling, C. D. & Vedsted, P. Cancer patients’ experiences with urgent referrals to cancer patient pathways. Eur. J. Cancer Care (Engl.) 28, e12927 (2019).
Next steps on the NHS Five Year Forward View. https://www.england.nhs.uk/publication/next-steps-on-the-nhs-five-year-forward-view/ (2017).
NHS Digital Statistics on Smoking, England. https://digitalnhsuk/data-and-information/publications/statistical/statistics-on-smoking/statistics-on-smoking-england-2019 (2019).
Sewell, B., Jones, M., Gray, H., Wilkes, H., Lloyd-Bennett, C., Beddow, K. et al. Rapid cancer diagnosis for patients with vague symptoms: a cost-effectiveness study. Br. J. Gen. Pr. 70, e186–e192 (2020).
IMPARTS project. https://www.kcl.ac.uk/ioppn/depts/pm/research/imparts. 2020.
Aslam, M. I., Chaudhri, S., Singh, B. & Jameson, J. S. The “two-week wait” referral pathway is not associated with improved survival for patients with colorectal cancer. Int J. Surg. 43, 181–185 (2017).
Christopher, J., Flint, T. R., Ahmed, H., Dhir, N., Li, R., Macfarland, K. et al. Straight-to-test for the two-week-wait colorectal cancer pathway under the updateMICE guidelines reduces time to cancer diagnosis and treatment. Ann. R. Coll. Surg. Engl. 101, 333–339 (2019).
Spicer J., Chamberlain C. & Papa S. Provision of cancer care during the COVID-19 pandemic. Nat Rev Clin Oncol. 17, 321–331 (2020).
Mayor, S. COVID-19: impact on cancer workforce and delivery of care. Lancet Oncol. 21, 633 (2020).
To Siobhan Costello, David Daniels and Rebecca Dunne for their help with data entry, and to Beth Russell for help with statistical analysis. To Emily Gibbs, Kate Haire, Sabine Martin, Daniel Murphy and Lindsay Steward for their input to the establishment of the Guy’s Rapid Diagnostic service.
Ethics approval and consent to participate
This study was approved by the Guy’s and St Thomas’ NHS Trust Quality Improvement and Clinical Audit Committee (Number 10236) and did not require regulatory ethics approval.
Consent to publish
Anonymised data may be available from the corresponding author on request.
All authors have completed the ICMJE uniform disclosure form at http://www.icmje.org/coi_disclosure.pdf and declare no support from any organisation for the submitted work, no financial relationships with any organisations that might have an interest in the submitted work in the previous 3 years and no other relationships or activities that could appear to have influenced the submitted work.
This research was supported by the South East London Cancer Alliance. The authors are responsible for study design, data collection, analysis, decision to publish and preparation of the paper. The views expressed are those of the authors and not necessarily those of the NHS or the Department of Health.
Publisher’s note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
About this article
Cite this article
Dolly, S.O., Jones, G., Allchorne, P. et al. The effectiveness of the Guy’s Rapid Diagnostic Clinic (RDC) in detecting cancer and serious conditions in vague symptom patients. Br J Cancer (2021). https://doi.org/10.1038/s41416-020-01207-7