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What causes delays in diagnosing blood cancers? A rapid review of the evidence

Published online by Cambridge University Press:  11 April 2023

Georgia B. Black*
Affiliation:
Reader in Applied Health Research, Wolfson Institute of Population Health, Queen Mary University of London, London, UK
Laura Boswell
Affiliation:
PhD student, School of Health Sciences, University of Surrey, Guildford, UK
Jenny Harris
Affiliation:
Senior Lecturer in Cancer Care, School of Health Sciences, University of Surrey, Guildford, UK
Katriina L. Whitaker
Affiliation:
Professor of Psychology and Lead for Cancer Care, School of Health Sciences, University of Surrey, Guildford, UK
*
Author for correspondence: Georgia B. Black, Reader in Applied Health Research, Wolfson Institute of Population Health, Queen Mary University of London, London, UK. E-mail: g.black@qmul.ac.uk
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Abstract

Objective:

We undertook a rapid review of literature relating to the diagnosis of blood cancers, to find out what factors contribute to delays in diagnosis, including symptom recognition, appraisal and help-seeking behaviours.

Methods:

We used rapid review methodology following Tricco et al. to synthesise current literature from two electronic databases. We searched for studies about symptom appraisal help-seeking for all blood cancers published between 2001 and 2021, written in English.

Results:

Fifteen studies were included in the review, of which 10 were published in the United Kingdom. We found a number of factors associated with delays in blood cancer diagnosis. These included patient factors such as gender, age and ethnicity, as well as health system factors such as poor communication and seeing a locum clinician in primary care. A narrative synthesis of the evidence produced four types of symptom interpretation by patients: (1) symptoms compatible with normal state of health, (2) event-linked problems, (3) mild or chronic illness and (4) non-specific unwell state. These four interpretations were linked to different help-seeking behaviours. After seeking help, patients often experienced delays due to healthcare professionals’ (HCPs’) non-serious interpretation of symptoms, misleading blood tests, discontinuity of care and other barriers in the diagnostic pathway.

Conclusion:

Blood cancers are difficult to diagnose due to non-specific heterogeneous symptoms, and this is reflected in how those symptoms are interpreted by patients and managed by HCPs. It is important to understand how different interpretations affect delays in help-seeking, and what HCPs can do to support timely follow-up for patients.

Type
Review
Creative Commons
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives licence (http://creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided that no alterations are made and the original article is properly cited. The written permission of Cambridge University Press must be obtained prior to any commercial use and/or adaptation of the article.
Copyright
© Queen Mary University of London, 2023. Published by Cambridge University Press

Introduction

Background

Blood cancer is often diagnosed late and claims more lives than breast or prostate cancer each year (Blood Cancer UK). Nearly a third of patients are diagnosed via emergency admission to hospital. Survival of patients diagnosed via an emergency route has worse outcomes than patients who presented via other routes (Kane et al., Reference Kane, Howell, Smith, Crouch, Burton, Roman and Patmore2017). For those diagnosed as an emergency, 40% will live for 3 years or more compared to 77% of those diagnosed via their GP (Blood Cancer UK, 2019). These patients also have fewer options in terms of treatment and are at greater risk of morbidity. Improving earlier diagnosis of blood cancer involves understanding where in the patient pathway there are opportunities to intervene. This approach has been applied across different cancer types (Cassim et al., Reference Cassim, Chepulis, Keenan, Kidd, Firth and Lawrenson2019; Grimley, Kato and Grunfeld, Reference Grimley, Kato and Grunfeld2020; Lima et al., Reference Lima, Meira, Soares, Bonan, Mélo and Piagge2021; Najor et al., Reference Najor, Dao, Bakkum-Gamez, Sherman, Connor and Destephano2021; van Os et al., Reference van Os, Syversen, Whitaker, Quaife, Janes, Jallow and Black2021) or focused on socio-demographics (Fish et al., Reference Fish, Prichard, Ettridge, Grunfeld and Wilson2015; McCutchan et al., Reference McCutchan, Wood, Edwards, Richards and Brain2015) or regional (McCutchan et al., Reference McCutchan, Weiss, Quinn-Scoggins, Dao, Downs, Deng, Ho, Trung, Emery and Brain2021) influences on key patient behaviours, such as medical help-seeking. Findings suggest that factors such as low symptom awareness (Petrova et al., Reference Petrova, Okan, Salamanca-Fernández, Domínguez-López, Sánchez and Rodríguez-Barranco2020), perceived challenges around accessing primary care (Cassim et al., Reference Cassim, Chepulis, Keenan, Kidd, Firth and Lawrenson2019) and emotional barriers (e.g. fear and embarrassment) (Fish et al., Reference Fish, Prichard, Ettridge, Grunfeld and Wilson2015) may influence help-seeking, but it is unclear whether these are relevant to blood cancer. This is because blood cancers (including leukaemia, lymphoma and multiple myeloma) have broad symptom signatures comprising symptoms with low predictive value, which means they are difficult to suspect and diagnose (Koo et al., Reference Koo, Hamilton, Walter, Rubin and Lyratzopoulos2018).

Frameworks for help-seeking behaviours in other cancers suggest that specific heuristics influence symptom appraisal and help-seeking. For example, rate of change refers to symptoms that are worsening, increasing or have a sudden onset and this can trigger a help-seeking response (Kummer et al., Reference Kummer, Walter, Chilcot, Emery, Sutton and Scott2019). However, these heuristics may not be applicable to blood cancer due to the predominance of non-specific symptoms including fatigue and susceptibility to infections. Previous qualitative work has shown that concepts related to people’s perceived eligibility for healthcare (e.g. candidacy) and confidence in reaching a desired outcome (Renzi et al., Reference Renzi, Whitaker, Winstanley, Cromme and Wardle2016; Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019) impact on whether patients are likely to seek help promptly and also impact on whether they visit the doctor again following an “all-clear” diagnosis (Renzi et al., Reference Renzi, Whitaker, Winstanley, Cromme and Wardle2016), but this research is not specific to experiences of blood cancer patients.

The challenge posed by blood cancer is evident across the diagnostic pathway; blood cancer patients have a high frequency of multiple consultations in primary care before specialist referral (Lyratzopoulos et al., Reference Lyratzopoulos, Saunders, Abel, McPhail, Neal, Wardle and Rubin2015), prolonged diagnostic intervals (Howell et al., Reference Howell2013) and are less likely to be fast-tracked for suspected cancer by GPs than patients with other cancer types (Zhou et al., Reference Zhou, Mendonca, Abel, Hamilton, Walter, Johnson, Shelton, Elliss-Brookes, McPhail and Lyratzopoulos2018). To date there has been no synthesis of factors influencing the blood cancer care pathway.

We undertook a rapid review of literature relating to the diagnosis of blood cancers, to find out what factors contribute to long diagnostic intervals, including symptom recognition, appraisal and help-seeking behaviours. Previous reviews have identified factors that cause diagnostic delays in all cancers (Smith et al., Reference Smith, Pope and Botha2005) or have attempted to quantify delays in one type of blood cancer (Koshiaris, Oke, et al., Reference Koshiaris, Oke, Abel, Nicholson, Ramasamy and Van den Bruel2018). This analysis is distinct in that it focuses on blood cancers as a group of diseases with non-specific and heterogeneous symptoms, (Blood Cancer UK, no date; Cerqua et al., Reference Cerqua, Balestrini, Perozzi, Cameriere, Renzi, Lagalla, Mancini, Montanari, Leoni, Scerrati, Iacoangeli, Silvestrini, Luzzi and Provinciali2016) and how these affect patient cognition and behaviour.

Review methods

This review forms part of the BLood cancer: understanding public Awareness, help-seeking behaviours and Diagnostic managEment (BLADE study). We chose a rapid review methodology to synthesise current literature and provide timely findings that would inform subsequent strands of the BLADE study as well as blood cancer policy (Hartling et al., Reference Hartling, Guise, Hempel, Featherstone, Mitchell, Motu’apuaka, Robinson, Schoelles, Totten, Whitlock, Wilt, Anderson, Berliner, Gozu, Kato, Paynter and Umscheid2016). The review follows the methods described by Tricco et al. (Reference Tricco, Langlois and Straus2017). The review was made rapid using the following modifications:

  1. 1. Targeted research questions

  2. 2. Limiting searches to two electronic databases

  3. 3. Reduced timeframe

  4. 4. Exclusion of grey literature

  5. 5. Limiting inclusion criteria by date (2001–2021) and in the English language.

Search methods

Two electronic databases (Medine and PsychINFO) were searched on 20th July 2021 on the Ovid platform, including results from 1st January 2001. The search strategy was developed based on a combination of keyword and expert search strings which was compiled by consulting similar published reviews and by exploring the relevant MeSH terms in the two databases. The search strategy for Medline was as follows:

  1. 1. Leukaemia, Myeloid, Acute/or Hematologic Neoplasms/or Lymphoma/or Myelodysplastic Syndromes/or Leukaemia/or Multiple Myeloma/or blood cancer

  2. 2. Symptom appraisal or appraisal or symptom awareness or help-seeking or seek help or early presentation or late presentation or healthcare-seeking or patient interval or help-seeking interval or diagnostic interval or diagnos$ delay or patient delay or experiences or symptomatic presentation

  3. 3. 1 and 2.

The search strategy for PsychINFO is below:

  1. 1. blood cancer or haematological cancer or haematological neoplasms or haematological malignancies or lymphoma or leukaemia or myeloma or myelodysplastic syndromes or myeloproliferative neoplasms or multiple myeloma

  2. 2. Symptom appraisal or appraisal or symptom awareness or help-seeking or seek help or early presentation or late presentation or healthcare-seeking or patient interval or help-seeking interval or diagnostic interval or diagnos$ delay or patient delay or experiences or symptomatic presentation

  3. 3. 1 and 2.

MeSH terms are shown in bold. The search results were limited by language (English) and by date (2001–2021).

Eligibility criteria

Both qualitative and quantitative studies were included in the review provided they met the criteria displayed in Table 1. We included studies of adults and children, as we considered the help-seeking and appraisal processes to be broadly similar, even if some of these processes were experienced by parents or carers by proxy in the case of early childhood cancers.

Table 1. Eligibility criteria

Studies were screened by abstract and full text for eligibility by two reviewers (LB and GB) independently, with a minimum of 20% double coding to ensure the reliability of decision-making; disagreements regarding inclusion were resolved by discussion with the wider study team. We completed additional searches using key authors’ names and relevant search terms in the web engine Google Scholar, and by searching reference lists. This resulted in no additional papers.

Quality appraisal

All articles were formally assessed for quality using the Mixed Methods Appraisal Tool (MMAT) Version 2018 (Appendix A) (Hong et al., Reference Hong, Gonzalez-Reyes and Pluye2018). No papers were excluded as a consequence. The qualitative papers contained few poor quality items, and the issues were associated with deficiency of information in methods. The main limitations of the quantitative papers included a lack of information about the representativeness of the samples compared with the target population and risk of nonresponse bias.

Data charting and analysis

We extracted information from each study to a spreadsheet, including the authors, title, year, journal and reference, country, sample size, gender split, age range, participant characteristics, clinical setting, data type, study design, analysis method and included blood cancer types. The Model of Pathways to Treatment (MPT) is a framework that can be used to direct research into early diagnosis of cancer (Scott et al., Reference Scott, Walter, Webster, Sutton and Emery2013). In this study, we used parts of the framework to extract the findings from each included study into categories:

  1. 1. Appraisal

  2. 2. Help-seeking

  3. 3. Diagnostic interval

  4. 4. Other.

The fourth category was included to help capture any data which did not fit easily into the intervals of the MPT. For example, findings that traversed more than one category or contextual information such as the availability of blood testing.

Our analysis proceeded using data synthesis techniques drawn from rapid methodologies such as summarising key findings, regular discussions between authors and iterative cycles of interpretation. This produced a narrative synthesis of the studies, as well as charts and tables summarising the quantifiable aspects.

Results

Search outcome

Figure 1 outlines the searching and identification of eligible studies for the review. The searches in Medline and PsychINFO produced 492 records. These articles were imported to Rayyan systematic review software where duplicates were removed. Initial screening of titles and abstracts excluded 413 articles, leaving 32 remaining. A full-text review produced a final sample of 15 studies, after excluding 17 that were ineligible for the review.

Figure 1. Preferred Reporting Items for Systematic Reviews (PRISMA) guidelines flow diagram of study selection

Study selection and characteristics

Ten articles were from the UK, two from the United States, one from Brazil, one from Lithuania and one from South Africa. All studies were published between 2008 and 2019. Full study details including participant characteristics, data collection and findings can be found in Tables 2 and 3.

Table 2. Characteristics of studies included in review

Table 3. Summary of included studies

Narrative synthesis

Estimating delay

Seven studies aimed to estimate delays in diagnosing blood cancers using quantitative approaches. The reported delays ranged from 30 days to 7 months. These studies varied in their approach to measurement of delay, including self-report (n = 3), GP or patient records (n = 4). Four studies used a combination of both. Self-report methods included face-to-face interviews or postal surveys. The intervals themselves were defined from different time points. Additionally, some studies focused on several intervals, for example, Antel et al. (Reference Antel, Levetan, Mohamed, Louw, Oosthuizen, Maartens and Verburgh2019), whereas other studies attempted to measure one interval, for example, Howell et al. (Reference Howell, Warburton, Ramirez, Roman, Smith and Forbes2015). We noted that studies published after the Aarhus statement/MPT (Weller et al., Reference Weller, Vedsted, Rubin, Walter, Emery, Scott, Campbell, Andersen, Hamilton, Olesen, Rose, Nafees, van Rijswijk, Hiom, Muth, Beyer and Neal2012; Scott et al., Reference Scott, Walter, Webster, Sutton and Emery2013) which defined cancer delay intervals by discrete events such as time to first presentation, time to referral to secondary care and time to diagnosis, were more consistent in their reporting. There were exceptions however (e.g. Dapkevičiūtė et al., Reference Dapkevičiūtė, Šapoka, Martynova and Pečeliūnas2019) which did not report delay within the MPT intervals. This may reflect differences in health systems.

When several intervals are measured, there was interest in where there is greatest “delay” and this also varied between studies and blood cancer types. The most common analytical approach was to decide what would constitute “delay” and perform logistic regression, with correlates (e.g. demographics) included in the model and delayed/not delayed as the dependent variable. One study used linear regression and therefore continuous measure of delay (Dapkevičiūtė et al., Reference Dapkevičiūtė, Šapoka, Martynova and Pečeliūnas2019). One study used the interval from symptom onset to presentation at primary care, using a 3-month threshold to define delay (Howell et al., Reference Howell, Warburton, Ramirez, Roman, Smith and Forbes2015). Two studies used the interval between symptom onset and diagnosis to measure delay, but there was variation in its definition, for example, one study defined delay as >30 days (Lins et al., Reference Lins, Amorim, Vilela, Viana, Ribeiro, Pedrosa, Lucena-Silva, Howard and Pedrosa2012) where another used the distribution of diagnosis times to identify patients experiencing greater delays greater than the median (Friese et al., Reference Friese, Abel, Magazu, Neville, Richardson and Earle2009). One study used the interval from first presentation to diagnosis, with a threshold of 6 weeks to define delay (Antel et al., Reference Antel, Levetan, Mohamed, Louw, Oosthuizen, Maartens and Verburgh2019).

We noted that some studies’ samples were too small to use logistic regression optimally, and several studies did not justify their sample size. Those retrospective studies based on case note review had insufficient information about data quality and how they handled missing data. Overall, we appraised the quantitative sample to lack robust examples or methodological rigour.

Factors associated with delay

Our data analysis produced a number of factors associated with delayed diagnosis in terms of disease-related factors, patient characteristics and health system factors (Table 4). There was no consistent pattern of factors associated with delay across these quantitative studies, although explanations for how disease and patient-related characteristics contributed to delay often related to lower cancer suspicion in some groups over others (i.e. due to the way the disease presented or who was presenting with the disease). There was relatively little discussion of health system factors (being the focus of one study in younger people).

Table 4. Factors associated with delay identified in reviewed studies

How do people make sense of vague/intermittent symptoms relevant to blood cancer and make decisions about seeing a healthcare professional (HCP)?

A wide variety of symptoms were reported in relation to multiple blood cancer types including fever, pallor/skin change, fatigue or tiredness, non-blanching rash, behavioural changes, bodily pain (particularly bones/joint and back), cough, lump, rectal bleeding, abdominal swelling, nausea, sweating, weakness, feeling ‘sickly’ or generally unwell, weight loss, respiratory problems, swollen lymph nodes, bleeding, itching, thirst, stomach tenderness and hoarseness (Howell et al., Reference Howell, Smith and Roman2008; Gibson et al., Reference Gibson, Pearce, Eden, Glaser, Hooker, Whelan and Kelly2013; Clarke et al., Reference Clarke, Jones, Mitchell and Thompson2014; Howell et al., Reference Howell, Warburton, Ramirez, Roman, Smith and Forbes2015, Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019, Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020).

These symptoms are not specific to blood cancers, and the studies reported a variety of alternative interpretations by patients. We have synthesised these findings to produce a four-part typology of symptom interpretation.

  1. (1) Nothing wrong at all – symptoms compatible with normal state of health

In this interpretation, participants judged what they were experiencing to be a part of the normal functioning of their body. This could be just a particular feature of their body, “just me” (Gibson et al., Reference Gibson, Pearce, Eden, Glaser, Hooker, Whelan and Kelly2013) or due to ageing (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020). This could also be due to the long-lasting nature of the symptoms. For example, Gibson et al. reported a woman who had experienced the same symptoms for over 10 years (including rectal bleeding and abdominal swelling) and had therefore integrated these symptoms into her normal interpretation of health, saying “‘The symptoms were just me’ (Participant 1)” (Gibson et al., Reference Gibson, Pearce, Eden, Glaser, Hooker, Whelan and Kelly2013). This typology also included participants who were not sure whether or not their symptoms existed because they were hard to see or to feel or were not sure whether they were normal:

“Patient appraisal of symptoms and health changes was described as ongoing by participants, with observation and monitoring occurring periodically or continuously from first symptom to diagnosis. When ‘normal’ health was not regained, appraisal was said to become more deliberate and rigorous. It involved, for example, checking and comparing affected and non-affected sites: ‘My mind was going, “If you can feel (a lump)…both sides, then it’s normal. If you can feel it on one side, then that’s something to worry about”. So I tried, I felt the other side, and again…’ [Lymphoma patient 06: L06]. This was said to take place repeatedly over time: ‘I couldn’t decide whether my skin was a different colour…I’d look at it and think, “It looks strange”, and then I’d look again, and it didn’t’ [L03].”(Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020)

This typology also included isolated changes (even cancer-related e.g. lumps or unexplained bleeding) apart from which the participant felt well. This meant that they continued to consider themselves to be well (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019). In one isolated example, a participant was reassured by friends despite noticing a significant bodily change (lump):

‘I showed the lump to my friends and they said, “You’re just freaking out, it’s nothing, we can’t even see the lump”.’ (P23) (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019)

Studies suggested that individuals falling into this part of the typology needed extra influence or active measures from friends or family members in order to seek help, as they themselves did not have a sense of being unwell.

My wife was more worried than me and made me an appointment at the doctors. Because we were going away on holiday, the following week. [My wife] insisted that I went down. I’d have waited longer before going to see the doctor if it hadn’t already gone. I was expecting it to go in a couple of days. I thought well okay, see how it goes. I didn’t feel any effect you see. It wasn’t making me ill or anything like that. The point was we were going overseas. I think that that’s what annoyed me, affected me. The wife was a little bit ‘you’re not going if you’re not well’. (P037) (Howell, Smith and Roman, Reference Howell, Smith and Roman2008)

However, friends could also delay help-seeking by offering reassurance and normalising symptoms, or reinforcing the idea that the symptom did not exist:

‘I had these lumps on my neck and I, I didn’t take any notice of them…I said to a friend and she said…“Oh it’s nothing, everybody gets lumps”.’ [L15]. (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020)

  1. (2) Event-linked problem

Patients often plausibly related their symptoms to an event such as an accident or difficult time in their lives. This was particularly relevant to pain, which could be explained as a consequence of injury (e.g. twisted ankle) (Gibson et al., Reference Gibson, Pearce, Eden, Glaser, Hooker, Whelan and Kelly2013). Two studies identified social/psychological causes for symptoms, such as stress (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore, Cook and Roman2018, Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019).

Another common explanation was life changes or stress: ‘we’d got my daughter, son-in-law and three year old living here… so it was very, very hectic here, and stressed’ [P02]. (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore, Cook and Roman2018)

Lack of pain was reassuring and caused participants to maintain their attribution or diminish likelihood of alternative diagnosis (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019) and they responded by, for example, reducing physical activity rather than seeing help (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore, Cook and Roman2018).

  1. (3) Mild or chronic illness

Patients and/or their parents often explained symptoms by relating them to a known mild illness or non-serious condition such as viruses or bad back. Around half of the blood cancer patients assumed that their initial symptoms would resolve on their own (Dapkevičiūtė et al., Reference Dapkevičiūtė, Šapoka, Martynova and Pečeliūnas2019). One of the key challenges with symptoms of blood cancer is that there were multiple plausible explanations depending on the individual’s circumstances (Molassiotis et al., Reference Molassiotis, Wilson, Brunton and Chandler2010).

For example, a patient with hoarseness of voice blamed smoking for this change in health; back or rib pains were interpreted as pulled muscles; cough and breathlessness were associated with a cold or chest infection; fatigue was attributed to stress; night sweats were linked to menopause; and itching to an allergy, thus leading to misinterpretations of their implications for changed health. (Molassiotis et al., Reference Molassiotis, Wilson, Brunton and Chandler2010)

This meant that the same symptom could be normalised differently to fit each individual, for example, fever and fatigue could be explained by self-limiting illness in children (Clarke et al., Reference Clarke, Jones, Mitchell and Thompson2014) and explained as part of the ageing process for older adults (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore, Cook and Roman2018).

Patients particularly associated their symptoms – at least initially – with any co-existing chronic conditions, for example, a change in bowel habit was attributed to pre-existing irritable bowel syndrome in the Molassiotis et al.’s (Reference Molassiotis, Wilson, Brunton and Chandler2010) study. Intermittent symptoms were sometimes misconstrued as resolved, which could interrupt and extend the diagnostic interval, for example, because of the cancellation of investigations (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019). Symptom type was important, as study of multiple cancer types noted that “It seemed that patients who had a lump as the presenting symptom sought medical advice with minimal delay, whereas patients with other symptoms delayed presentation to health service” (Molassiotis et al., Reference Molassiotis, Wilson, Brunton and Chandler2010).

  1. (4) Non-specific unwell state

A significant minority of patients in the study attributed their symptoms to a general state of being unwell. This was particularly associated with systemic symptoms such as fatigue. Participants described feeling, for example, “Vaguely off” [or] “Just didn’t feel right.” (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019); “‘off it’, ‘out of whammy’, ‘run down’, ‘deteriorated’, ‘worn’, ‘awful’ and ‘gone downhill’.” (Howell, Smith and Roman, Reference Howell, Smith and Roman2008). The interpretation of this seemed more serious, but it was not related to cancer:

You felt you are no use to you or to anybody else, you felt so weak. and then the effects also were you felt sickly all the time, but not actually being sick, just sickly. (Howell, Smith and Roman, Reference Howell, Smith and Roman2008)

Without a specific explanation, participants described being unsure about what to do. Some participants sought help from a HCP, asking for “broad health checks” which may have diminished urgency in the consultation:

Initial help seeking could include requests for broad health checks: ‘I just felt, okay I’ll go to the doctor’s and…(say), “Well, I want an MOT…I seem a bit tired” (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020)

Having a non-specific explanation for the symptoms also meant that individuals lacked appropriate language to communicate their fears to HCPs.

“I knew there was something that wasn’t right. I wasn’t myself, and I couldn’t explain it so well to the doctor.” (Howell, Smith and Roman, Reference Howell, Smith and Roman2008)

Difficulty communicating with HCPs was also experienced by relatives who felt the need to communicate that their relative was “not right” to reinforce the urgency of the presentation (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020).

Alarming symptoms that precipitated help-seeking

Participants in multiple studies reported that they started with an interpretation of symptoms within the typology above, but that their thinking changed over time and eventually acknowledged that they required help from a HCP (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore, Cook and Roman2018). We found that this was often precipitated by particular symptoms or signs that provoked alarm. These symptoms (particularly pain) were a stronger indicator to the individual of a more serious illness. For example, one participant in Howell et al. (Reference Howell, Hart, Smith, Macleod, Patmore, Cook and Roman2018) described “alarm bells” when they experienced severe pain during physical activity:

“I just couldn’t do anything. I mean I’m used to a fairly active (life), even though I’m retired, I’ve an exercise bike in there…, which I used to go on every day and do 10 to 12 mile. When I started that I couldn’t do one mile… I knew–alarm bells there was something wrong [P10].” (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore, Cook and Roman2018)

Other participants described a more formal appraisal process that led to feeling of alarm, such as tracking their weight or how much medication they were taking (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020). Participants were particularly alarmed by rapid changes, or those that were suddenly severe or disruptive (Molassiotis et al., Reference Molassiotis, Wilson, Brunton and Chandler2010; Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019).

What happens once someone presents to primary care with symptoms relevant to blood cancer?

Our synthesis showed that delays in the diagnostic interval were caused by a number of factors including low recognition of blood cancer symptoms, misleading clinical tests, HCP reassurance of the patient and subsequent slow reconsultation by the patient.

HCP interpretation of blood cancer symptoms is similar to that of patients

HCP interpretation of symptoms directly maps onto the patient typology of symptom interpretation outlined above. HCP recognition and knowledge of symptoms also seemed particularly problematic where symptoms were subtle and gradual in onset (Clarke et al., Reference Clarke, Jones, Mitchell and Thompson2014; Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019). Young people reported in the study by Gibson et al. reported delays and a lack of seriousness about their concerns, as well as slow decision-making by the HCP (Gibson et al., Reference Gibson, Pearce, Eden, Glaser, Hooker, Whelan and Kelly2013). For example, some studies reported that patients experienced normalisation of their symptoms from a doctor, with some being told that they definitely did not have cancer:

“‘I’d been in pain for a long time, and I actually said, “I think I’ve got cancer” and (Dr) said to me, “You don’t look like somebody who’s got cancer”’ [M14]; ‘(GP) said, “No, no, you haven’t…lymphoma, old people get lymphoma. You’re (under 40)…don’t even think about that”’ [L06].” (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020)

In other studies, it was reported that this caused diagnostic delays due to fear of conflict and patient over-reassurance (Molassiotis et al., Reference Molassiotis, Wilson, Brunton and Chandler2010). Some HCPs suggested alternative diagnoses (mild or chronic illness) which also caused delays if these alternatives were investigated and reassured the patient that the causes were not serious:

‘I noticed, like, a little pea-sized lump in my leg…my right calf…I thought… “Probably me varicose veins”. I didn’t rush, I went to see the doctor, regarding something else, and I just happened to mention to him about it… he had a feel of it, and he says “right, we’ll send you off to have and ultrasound”, you know, get it checked out. I asked (radiographer)…“Is it a varicose vein?” She says “yes”. ‘I got on with my life, I just carried on. I thought well fair enough, you know, its varicose veins…I never bothered when I started getting other lumps in my leg, I thought, “well it’s all just part of it”. (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020)

Some participants were being investigated for other conditions when their blood cancer was diagnosed, which meant that they were ill-prepared for the diagnosis:

“I was completely shocked … because they’d been treating me for a virus for two months. So that was… kind of a shock. And uh… Got a little… hazy after that. I just felt numb because I didn’t know that…it had progressed… into leukemia.” (LeBlanc et al., Reference LeBlanc, Fish, Bloom, El-Jawahri, Davis, Locke, Steinhauser and Pollak2017)

Howell et al. (Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019) also found that HCPs proposed a range of explanations for symptoms, including psychological conditions (stress, anxiety, depression):

“‘They thought it was anxiety, because I’d got myself in a state, and I was in a tearful mess at the doctor’s, because of feeling ill and they’re not getting anywhere…So she just thought it was an anxiety issue. It was like turned from one thing to something else’ [L17].” […] “‘[The GP] said, “Well what’s probably happening is your body, you know, now that your mum’s gone in the [nursing] home, your body is saying, ‘Pffh, that’s it, you know, just relax’ … and this is why you’re sleeping so much’.”(P31) (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2019)

In contrast, a number of studies described effective symptom knowledge by HCPs and swift referrals for specialist consultation (Gibson et al., Reference Gibson, Pearce, Eden, Glaser, Hooker, Whelan and Kelly2013; Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020). This included explicit admission of uncertainty and effective use of gut feeling reported by GPs in Clarke et al. (Reference Clarke, Jones, Mitchell and Thompson2014):

This was one of those ones where I opened the door and thought, ‘I ought to telephone, to get the hospital on the line, yeah.’… I just remember that lurch of your stomach, you know, when you think ‘oh’… She wasn’t bouncy, she was very quiet, she seemed to be in pain actually, she was moaning, and she looked slightly swollen, her face was rounder than it should have been. (GP I). (Clarke et al., Reference Clarke, Jones, Mitchell and Thompson2014)

In the same study, GPs shared the view that their role was not to diagnose cancer but to discriminate between unwell and healthy patients (children in this case) and to refer quickly (Clarke et al., Reference Clarke, Jones, Mitchell and Thompson2014).

Mixed role of blood tests and other investigations in progressing diagnosis

The synthesis of our findings revealed that blood tests had a particularly important role in diagnosis. It was reported that over half of patients had urine or serum tests, around a third had bone scans or bone marrow biopsies (Friese et al., Reference Friese, Abel, Magazu, Neville, Richardson and Earle2009). Some blood tests were more helpful than others; Koshiaris et al. found that 55% of patients with multiple myeloma had at least one blood test in the year before diagnosis; however, some blood tests were unhelpful at detecting myeloma: “plasma viscosity and erythrocyte sedimentation rate, while C-reactive protein is unhelpful. In addition, the combination of a normal haemoglobin and plasma viscosity can be used to rule out the disease on patients currently being tested in primary care” (Koshiaris, Van den Bruel, et al., Reference Koshiaris, Van den Bruel, Oke, Nicholson, Shephard, Braddick and Hamilton2018). Howell et al. (Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020) found that referral was delayed by blood tests with negative results in the lead up to diagnosis:

“I think I’d three lots of blood tests done as well, to try and find out, you know, and yet none of ‘em showed anything to do with the lymphoma’ [L31]; ‘The blood test revealed nothing, did it, and neither did the camera in the stomach’ [L20]. Where abnormal blood tests were noted, rapid hospital referral was described: ‘I’d had about four or five different blood tests, and it were all coming back negative’ [M15]…‘til these blood tests did come back abnormal, all of a sudden, so that’s when they sent him up to haematology [Relative: M15]; ‘(GP) immediately, more or less said, I’m sending you into hospital. You’re anaemic’ [L24].” (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020)

Many patients had investigations for other conditions/diseases, for example, vitamin B12 deficiency (LeBlanc et al., Reference LeBlanc, Fish, Bloom, El-Jawahri, Davis, Locke, Steinhauser and Pollak2017) and varicose veins (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020).

Varying effects of discontinuity of care

Three studies reported different effects of seeing multiple HCPs. Two studies reported that this could be helpful, for example, that seeing a different HCP from normal could precipitate a referral after a long delay as they interpreted symptoms differently (Gibson et al., Reference Gibson, Pearce, Eden, Glaser, Hooker, Whelan and Kelly2013). Similarly, Molassiotis et al. (Reference Molassiotis, Wilson, Brunton and Chandler2010) reported that other HCPs expedited referral, citing dentists in the case of symptoms around the head or neck area. In contrast, one study reported that the lack of continuity of GP between consultations was identified as a cause of delay by both patient (or their parents) and GPs themselves (Clarke et al., Reference Clarke, Jones, Mitchell and Thompson2014).

Overcoming barriers in the diagnostic pathway

Howell et al. (Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020) were the only study to report detailed information about how patients had to advocate or actively direct steps in the diagnostic phase (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020). For example, patients reported multiple behaviours reported by patients to convince HCPs of the need for further investigative action, such as having to request specific input or be more directive in their requests for further investigation:

I weren’t going to take “no” for an answer… because I knew there was something’ [L34]. Doubt about an earlier explanation was often key: ‘I was convinced there was something wrong with me, other than osteoporosis, because I thought “I shouldn’t feel, this unwell, with osteoporosis.”’ [M14]. (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020)

One patient reported that they kept track of their weight loss in a diary in order to convince their GP to refer them for tests. Other patients used other HCPs’ opinions to try and persuade the GP or did their own research about cancer.

Discussion

This rapid review illustrates the complexity of blood cancer symptoms, and how patients appraise them, leading to distinct help-seeking patterns in primary care. The importance of patient appraisal and help-seeking in the timely diagnosis has been established in other cancers (Liu, n.d.; Oberoi et al., Reference Oberoi2016; O’mahony, Reference O’mahony2016; Mills et al., Reference Mills, Birt, Emery, Hall, Banks, Johnson, Lancaster, Hamilton, Rubin and Walter2017; Scott et al., Reference Scott, Penfold, Saji, Curtis, Watts, Hamilton, Joannides and Walter2019; van Os et al., Reference van Os, Syversen, Whitaker, Quaife, Janes, Jallow and Black2021); this review adds to this body of evidence about the specific qualities of blood cancer symptoms, and how these create distinct patterns of appraisal and behaviour.

We found that studies have measured diagnostic delay differently, although there has been more homogeneity since the introduction of the MPT (Scott et al., Reference Scott, Walter, Webster, Sutton and Emery2013). We found a range of factors that contribute to delay including disease factors, patient characteristics and health system factors. There was a lack of consistency in the quantitative studies (in terms of sampling, approach, definitions and findings), making cross-study comparisons difficult. However, one unifying interpretation was that the overall reason for delay was due to lower cancer suspicion in particular disease types (because symptoms were more likely to be interpreted as non-significant) or demographic (e.g. younger) groups.

In a narrative synthesis of the included studies, we produced a four part typology of patient interpretation of symptoms and found that this was mirrored by HCPs. The typology includes (1) nothing being wrong, (2) an event-linked problem (e.g. injury), (3) mild or chronic illness and (4) a non-specific unwell feeling.

The problem of symptom normalisation and mild illness attribution in cancer diagnosis is well established (Andersen and Cacioppo, Reference Andersen and Cacioppo1995; Smith et al., Reference Smith, Pope and Botha2005; Koo et al., Reference Koo2021), alongside the influence of sudden changes/worsening of symptoms referred to as the rate of change rule (Kummer et al., Reference Kummer, Walter, Chilcot, Emery, Sutton and Scott2019). However, of particular novelty in our review is the interpretation that nothing is wrong at all, due to the ambiguous nature of some blood cancer symptoms (e.g. pallor, swollen lymph nodes) where patients are not sure whether or not their symptom even exists. The fourth typology of a “non-specific unwell feeling” is also unusual and may be a target for interventions in primary care. Similar findings were found in a qualitative study of head and neck cancers, where the results highlighted the subtlety of symptoms (Scott et al., Reference Scott, Penfold, Saji, Curtis, Watts, Hamilton, Joannides and Walter2019).

Another finding of note is the fact that blood cancer symptoms could be interpreted differently for individuals according to age and co-morbidities, for example, fatigue was attributed to stress in younger people and ageing effects in older people. This is similar to the findings of a systematic review into delays in gynaecological cancer diagnosis, where bleeding was interpreted differentially by women according to their age (Williams et al., Reference Williams, Murchie and Bond2019).

In line with other studies of primary care consultations, we found that diagnosis could be delayed by HCP interpretation of symptoms, either by misalignment between HCP and patient interpretation (Amelung et al., Reference Amelung, Whitaker, Lennard, Ogden, Sheringham, Zhou, Walter, Singh, Vincent and Black2020) or direct denial of any cancer risk (van Os et al., Reference van Os, Syversen, Whitaker, Quaife, Janes, Jallow and Black2021). Blood tests and their interpretation were also highlighted as a risk for delay, particularly if the wrong test was chosen or negative results were reported.

Finally, we found that there was a relative paucity of evidence about the burden on patients to overcome barriers in the blood cancer diagnostic pathway, with only one recent qualitative study reporting on this (Howell et al., Reference Howell, Hart, Smith, Macleod, Patmore and Roman2020). Most evidence to date has focused on the earlier part of the diagnostic pathway (e.g. symptom appraisal), with little discussion around other concepts relevant to how people with potential blood cancer symptoms navigated the healthcare system and influences on this. For example, it is important to understand perceived eligibility for healthcare (candidacy) (Dixon-Woods et al., Reference Dixon-Woods2006; Tookey et al., Reference Tookey, Renzi, Waller, von Wagner and Whitaker2018), particularly given the vague nature of symptoms, or the ability to understand and cope with symptoms following primary care consultations (Howie et al., Reference Howie, Heaney and Maxwell1997). This is surprising, particularly given the higher frequency of multiple consultations in primary care in this group and complex, often protracted pathways to diagnosis. Interestingly, social networks could have a detrimental impact on prompt help-seeking for blood cancer patients (e.g. by supporting the normalisation of symptoms), despite previous research demonstrating that lay conversations were considered important in the decision to seek medical help for new symptoms (e.g. Scambler et al., Reference Scambler, Scambler and Craig1981).

Study limitations

This review is the first to examine the factors influencing patient and health system factors in diagnosis delay for all blood cancers. It has been conducted rigorously according to a rapid review protocol and provides a summary of the available evidence to inform future research and complex interventions to reduce diagnostic delay.

There are some limitations. Despite a systematic search strategy, some studies may have been missed due to the limited database search entailed by the rapid design. The studies were heterogeneous with different methodologies, blood cancer types and populations, making it challenging to synthesise findings; however, our four-part typology aids their interpretation. Variations in methodology – including the definition of delay – prevented aggregation or meta-analysis. This methodological heterogeneity limits definitive conclusions about the primary causes of delay.

Clinical implications

HCPs are under increasing pressure in primary care, particularly in response to the COVID-19 pandemic, as well as lack of investment in the cancer workforce (Dacre et al., Reference Dacre, Francis, Appleby, Charlesworth, Peckham, Ahmed, Brown, Dickson, Morris and Patel2022). Blood cancer symptoms are rarely presented and hard to interpret; we cannot expect all HCPs to retain this knowledge constantly. Our typology also suggests that patients relating to our Typologies 2 and 3 may initially present with symptoms that they interpret as mild illness or an event-linked problem. Solutions may be found in systems that reduce the burden on HCPs and patients to support effective decision-making and appropriate reconsultation, such as electronic safety netting software and risk calculation tools, as well as specialist referral to non-specific symptom pathways (Black et al., Reference Black, Bhuiya, Friedemann Smith, Hirst and Nicholson2022). Blood tests and investigations are crucial to blood cancer diagnosis, and access to these (as well as specialist advice) must be made available. Additionally, our Typologies 1 and 4 indicate that patients would not seek help at all initially as they have difficulty recognising a disease state. Greater public awareness of blood cancer signs and symptoms through educational campaigns and other types of public messaging may improve this, supported by accessible primary care services.

Conclusions

Blood cancers are difficult to diagnose due to non-specific heterogeneous symptoms, and this is reflected in how those symptoms are interpreted by patients, their family and friends, and subsequently managed by HCPs. It is important to understand how different interpretations affect delays in help-seeking, and what HCPs can do to support timely follow-up for patients presenting with non-specific symptoms such as these. Research relating to patient empowerment in progressing investigations for blood cancer symptoms would be beneficial.

Acknowledgements

This study was funded by Blood Cancer UK. GBB was funded by a Fellowship from The Institute of Healthcare Improvement Studies (University of Cambridge) (RG88620/PD-2019-02-004).

Authors’ contribution

GBB, KLW and JH conceived the idea for the study and wrote the protocol. LB and GBB completed the search and extracted the data. All authors contributed to analysis and interpretation of the data. LB and GBB prepared the manuscript. All authors contributed to editing the manuscript and approved the final submission.

Conflict of interest statement

None.

Appendix A

Quantitative studies

Qualitative studies

References

Amelung, D, Whitaker, KL, Lennard, D, Ogden, M, Sheringham, J, Zhou, Y, Walter, FM, Singh, H, Vincent, C and Black, G (2020) Influence of doctor-patient conversations on behaviours of patients presenting to primary care with new or persistent symptoms: a video observation study. BMJ Quality & Safety 29, 198208.Google ScholarPubMed
Andersen, BL and Cacioppo, JT (1995) Delay in seeking a cancer diagnosis: delay stages and psychophysiological comparison processes The British Journal of Social Psychology/The British Psychological Society 34, 3352.Google ScholarPubMed
Antel, K, Levetan, C, Mohamed, Z, Louw, VJ, Oosthuizen, J, Maartens, G and Verburgh, E (2019) The determinants and impact of diagnostic delay in lymphoma in a TB and HIV endemic setting, BMC Cancer 19, 384.Google Scholar
Black, GB, Bhuiya, A, Friedemann Smith, C, Hirst, Y and Nicholson, BD (2022) Harnessing the electronic health care record to optimize patient safety in primary care: Framework for evaluating e-safety-netting tools. JMIR Medical Informatics 10, e35726.Google ScholarPubMed
Blood Cancer UK . (2019) Report: The Current State of Blood Cancer Diagnosis in England https://media.bloodcancer.org.uk/documents/bloodwise-delayed-diagnosis-report_RIQgdp7.pdf (Accessed: 26 April 2022).Google Scholar
Blood Cancer UK . Website. Available at: https://bloodcancer.org.uk/understanding-blood-cancer/blood-cancer-signs-symptoms/ (Accessed: 7 December 2021).Google Scholar
Cassim, S, Chepulis, L, Keenan, R, Kidd, J, Firth, M and Lawrenson, R (2019) Patient and carer perceived barriers to early presentation and diagnosis of lung cancer: a systematic review. BMC Cancer 19, 25.CrossRefGoogle ScholarPubMed
Cerqua, R, Balestrini, S, Perozzi, C, Cameriere, V, Renzi, S, Lagalla, G, Mancini, G, Montanari, M, Leoni, P, Scerrati, M, Iacoangeli, M, Silvestrini, M, Luzzi, S and Provinciali, L (2016) Diagnostic delay and prognosis in primary central nervous system lymphoma compared with glioblastoma multiforme. Neurological Sciences: Official Journal of the Italian Neurological Society and of the Italian Society of Clinical Neurophysiology 37, 2329.Google ScholarPubMed
Clarke, RT, Jones, CH, Mitchell, CD and Thompson, MJ (2014) “Shouting from the roof tops”: a qualitative study of how children with leukaemia are diagnosed in primary care. BMJ Open 4, e004640.CrossRefGoogle ScholarPubMed
Dacre, J, Francis, R, Appleby, J, Charlesworth, A, Peckham, S, Ahmed, S, Brown, J, Dickson, J, Morris, N and Patel, M (2022) Expert panel: evaluation of the Government’s commitments in the area of cancer services in England, (HC 1025), p. 63.Google Scholar
Dapkevičiūtė, A, Šapoka, V, Martynova, E and Pečeliūnas, V (2019) Time from symptom onset to diagnosis and treatment among haematological malignancies: Influencing factors and associated negative outcomes. Medicina 55. Available at: https://doi.org/10.3390/medicina55060238.Google ScholarPubMed
Dixon-Woods, M, Cavers D, Agarwal S, Annandale E, Arthur A, Harvey J, Hsu R, Katbamna S, Olsen R, Smith L, Riley R and Sutton AJ (2006) Conducting a critical interpretive synthesis of the literature on access to healthcare by vulnerable groups. BMC Medical Research Methodology 6. Available at: https://doi.org/10.1186/1471-2288-6-35.CrossRefGoogle ScholarPubMed
Fish, JA, Prichard, I, Ettridge, K, Grunfeld, EA and Wilson, C (2015) Psychosocial factors that influence men’s help-seeking for cancer symptoms: a systematic synthesis of mixed methods research. Psycho-Oncology 24, 12221232. Available at: https://doi.org/10.1002/pon.3912.Google ScholarPubMed
Friese, CR, Abel, GA, Magazu, LS, Neville, BA, Richardson, LC and Earle, CC (2009) Diagnostic delay and complications for older adults with multiple myeloma. Leukemia & Lymphoma 50, 392400.CrossRefGoogle ScholarPubMed
Gibson, F, Pearce, S, Eden, T, Glaser, A, Hooker, L, Whelan, J and Kelly, D (2013) Young people describe their prediagnosis cancer experience. Psycho-oncology 22, 25852592.Google ScholarPubMed
Grimley, CE, Kato, PM and Grunfeld, EA (2020) Health and health belief factors associated with screening and help-seeking behaviours for breast cancer: A systematic review and meta-analysis of the European evidence. British Journal of Health Psychology 25, 107128.CrossRefGoogle ScholarPubMed
Hartling, L, Guise, J-M, Hempel, S, Featherstone, R, Mitchell, MD, Motu’apuaka, ML, Robinson, KA, Schoelles, K, Totten, A, Whitlock, E, Wilt, T, Anderson, J, Berliner, E, Gozu, A, Kato, E, Paynter, R and Umscheid, CA (2016) EPC Methods: AHRQ End-User Perspectives of Rapid Reviews. Rockville (MD): Agency for Healthcare Research and Quality (US).Google ScholarPubMed
Hong, QN, Gonzalez-Reyes, A and Pluye, P (2018) Improving the usefulness of a tool for appraising the quality of qualitative, quantitative and mixed methods studies, the Mixed Methods Appraisal Tool (MMAT). Journal of Evaluation in Clinical Practice 24, 459467. https://doi.org/10.1111/jep.12884.CrossRefGoogle ScholarPubMed
Howell, D, Hart, R, Smith, A, Macleod, U, Patmore, R and Roman, E (2020) “Unpacking” pathways to lymphoma and myeloma diagnosis: Do experiences align with the Model of Pathways to Treatment? Findings from a UK qualitative study with patients and relatives. BMJ open 10, e034244.CrossRefGoogle ScholarPubMed
Howell, DA, Smith AG, Jack A, Patmore R, Macleod U, Mironska E and Roman E (2013) Time-to-diagnosis and symptoms of myeloma, lymphomas and leukaemias: a report from the Haematological Malignancy Research Network. BMC Blood Disorders 13. https://doi.org/10.1186/2052-1839-13-9.CrossRefGoogle ScholarPubMed
Howell, DA, Warburton, F, Ramirez, A-J, Roman, E, Smith, AG and Forbes, LJL (2015) Risk factors and time to symptomatic presentation in leukaemia, lymphoma and myeloma. British Journal of Cancer 113, 11141120.CrossRefGoogle ScholarPubMed
Howell, DA, Hart, RI, Smith, AG, Macleod, U, Patmore, R, Cook, G and Roman, E (2018) Myeloma: patient accounts of their pathways to diagnosis. PloS one 13, e0194788.CrossRefGoogle ScholarPubMed
Howell, DA, Hart, RI, Smith, AG, Macleod, U, Patmore, R and Roman, E (2019) Disease-related factors affecting timely lymphoma diagnosis: a qualitative study exploring patient experiences. The British Journal of General Practice: The Journal of the Royal College of General Practitioners 69, e134e145.CrossRefGoogle ScholarPubMed
Howell, DA, Smith, AG and Roman, E (2008) Help-seeking behaviour in patients with lymphoma. European Journal of Cancer Care 17, 394403.CrossRefGoogle ScholarPubMed
Howie, JG, Heaney, DJ and Maxwell, M (1997) Measuring quality in general practice. Pilot study of a needs, process and outcome measure. Occasional paper (Royal College of General Practitioners) 75, ixii, 1–32.Google Scholar
Kane, E, Howell, D, Smith, A, Crouch, S, Burton, C, Roman, E and Patmore, R (2017) Emergency admission and survival from aggressive non-Hodgkin lymphoma: A report from the UK’s population-based Haematological Malignancy Research Network. European Journal of Cancer 78, 5360. Available at: https://doi.org/10.1016/j.ejca.2017.03.013.CrossRefGoogle ScholarPubMed
Koo, MM, Hamilton, W, Walter, FM, Rubin, GP and Lyratzopoulos, G (2018) Symptom signatures and diagnostic timeliness in cancer patients: A review of current evidence. Neoplasia 20, 165174.CrossRefGoogle ScholarPubMed
Koo, MM, Unger-Saldaña K, Mwaka AD, Corbex M, Ginsburg O, Walter FM, Calanzani N, Moodley J, Rubin GP and Lyratzopoulos G (2021) Conceptual framework to guide early diagnosis programs for symptomatic cancer as part of global cancer control. JCO Global Oncology 7, 3545.CrossRefGoogle ScholarPubMed
Koshiaris, C, Oke, J, Abel, L, Nicholson, BD, Ramasamy, K and Van den Bruel, A (2018a) Quantifying intervals to diagnosis in myeloma: a systematic review and meta-analysis. BMJ open 8, e019758.CrossRefGoogle ScholarPubMed
Koshiaris, C, Van den Bruel, A, Oke, JL, Nicholson, BD, Shephard, E, Braddick, M and Hamilton, W (2018b) Early detection of multiple myeloma in primary care using blood tests: a case-control study in primary care. The British Journal of General Practice: The Journal of the Royal College of General Practitioners 68, e586e593.CrossRefGoogle ScholarPubMed
Kummer, S, Walter, FM, Chilcot, J, Emery, J, Sutton, S and Scott, SE (2019) Do cognitive heuristics underpin symptom appraisal for symptoms of cancer?: A secondary qualitative analysis across seven cancers. Psycho-Oncology [Preprint]. Available at: https://doi.org/10.1002/pon.5049.CrossRefGoogle Scholar
LeBlanc, TW, Fish, LJ, Bloom, CT, El-Jawahri, A, Davis, DM, Locke, SC, Steinhauser, KE and Pollak, KI (2017) Patient experiences of acute myeloid leukemia: A qualitative study about diagnosis, illness understanding, and treatment decision-making. Psycho-oncology 26, 20632068.CrossRefGoogle ScholarPubMed
Lima, A-M, Meira, I-A, Soares, M-S, Bonan, P-R, Mélo, C-B and Piagge, C-S (2021) Delay in diagnosis of oral cancer: a systematic review. Medicina oral, patologia oral y cirugia bucal 26, e815e824.CrossRefGoogle ScholarPubMed
Lins, MM, Amorim, M, Vilela, P, Viana, M, Ribeiro, RC, Pedrosa, A, Lucena-Silva, N, Howard, SC and Pedrosa, F (2012) Delayed diagnosis of leukemia and association with morbid-mortality in children in Pernambuco, Brazil. Journal of Pediatric Hematology/Oncology 34, e271e276.CrossRefGoogle ScholarPubMed
Liu, S-K (n.d.) Analytical review of reasons for delay in help-seeking for colorectal cancer related symptoms. Available at: https://doi.org/10.5353/th_b4299734.CrossRefGoogle Scholar
Lyratzopoulos, G, Saunders, CL, Abel, GA, McPhail, S, Neal, RD, Wardle, J and Rubin, GP (2015) The relative length of the patient and the primary care interval in patients with 28 common and rarer cancers. British Journal of Cancer 112 (Suppl 1), S35S40.CrossRefGoogle ScholarPubMed
McCutchan, G, Weiss, B, Quinn-Scoggins, H, Dao, A, Downs, T, Deng, Y, Ho, H, Trung, L, Emery, J and Brain, K (2021) Psychosocial influences on help-seeking behaviour for cancer in low-income and lower middle-income countries: a mixed-methods systematic review. BMJ Global Health 6, e004213. Available at: https://doi.org/10.1136/bmjgh-2020-004213.CrossRefGoogle ScholarPubMed
McCutchan, GM, Wood, F, Edwards, A, Richards, R and Brain, KE (2015) Influences of cancer symptom knowledge, beliefs and barriers on cancer symptom presentation in relation to socioeconomic deprivation: a systematic review. BMC Cancer 15, 1000.CrossRefGoogle ScholarPubMed
Mills, K, Birt, L, Emery, JD, Hall, N, Banks, J, Johnson, M, Lancaster, J, Hamilton, W, Rubin, GP and Walter, FM (2017) Understanding symptom appraisal and help-seeking in people with symptoms suggestive of pancreatic cancer: a qualitative study. BMJ open 7, e015682.CrossRefGoogle ScholarPubMed
Molassiotis, A, Wilson, B, Brunton, L and Chandler, C (2010) Mapping patients’ experiences from initial change in health to cancer diagnosis: a qualitative exploration of patient and system factors mediating this process. European Journal of Cancer Care 19, 98109.CrossRefGoogle ScholarPubMed
Najor, AJ, Dao, D, Bakkum-Gamez, JN, Sherman, ME, Connor, AE and Destephano, CC (2021) Disparities and interventions in the timeliness of endometrial cancer diagnosis and treatment in the United States: a scoping review protocol. Systematic Reviews 10, 107.CrossRefGoogle ScholarPubMed
O’mahony, M (2016) Help-seeking behavior for breast cancer symptoms. Nursing Concept Analysis [Preprint]. Available at: https://doi.org/10.1891/9780826126825.0005.Google Scholar
Oberoi, DV et al. (2016) Help-seeking experiences of men diagnosed with colorectal cancer: a qualitative study. European Journal of Cancer Care 25, 2737.CrossRefGoogle ScholarPubMed
Petrova, D, Okan, Y, Salamanca-Fernández, E, Domínguez-López, S, Sánchez, M-J and Rodríguez-Barranco, M (2020) Psychological factors related to time to help-seeking for cancer symptoms: a meta-analysis across cancer sites. Health Psychology Review 14, 245268.CrossRefGoogle ScholarPubMed
Renzi, C, Whitaker, KL, Winstanley, K, Cromme, S and Wardle, J (2016) Unintended consequences of an “all-clear” diagnosis for potential cancer symptoms: a nested qualitative interview study with primary care patients. The British Journal of General Practice: The Journal of the Royal College of General Practitioners 66, e158e170.CrossRefGoogle ScholarPubMed
Saunders, CL, Abel, GA and Lyratzopoulos, G (2015) Inequalities in reported cancer patient experience by socio-demographic characteristic and cancer site: evidence from respondents to the English Cancer Patient Experience Survey. European Journal of Cancer Care 24, 8598.CrossRefGoogle Scholar
Scambler, A, Scambler, G and Craig, D (1981) Kinship and friendship networks and women’s demand for primary care. The Journal of the Royal College of General Practitioners 31, 746750.Google ScholarPubMed
Scott, SE, Walter, FM, Webster, A, Sutton, S and Emery, J (2013) The model of pathways to treatment: conceptualization and integration with existing theory. British Journal of Health Psychology 18, 4565.CrossRefGoogle ScholarPubMed
Scott, SE, Penfold, C, Saji, S, Curtis, S, Watts, C, Hamilton, W, Joannides, AJ and Walter, FM (2019) “It was nothing that you would think was anything”: qualitative analysis of appraisal and help seeking preceding brain cancer diagnosis. PloS one 14, e0213599.CrossRefGoogle ScholarPubMed
Smith, LK, Pope, C and Botha, JL (2005) Patients’ help-seeking experiences and delay in cancer presentation: a qualitative synthesis. The Lancet 366, 825831.CrossRefGoogle ScholarPubMed
Tookey, S, Renzi, C, Waller, J, von Wagner, C and Whitaker, KL (2018) Using the candidacy framework to understand how doctor-patient interactions influence perceived eligibility to seek help for cancer alarm symptoms: a qualitative interview study. BMC Health Services Research 18, 937.CrossRefGoogle ScholarPubMed
Tricco, AC, Langlois, EV and Straus, SE (2017) Rapid Reviews to Strengthen Health Policy and Systems: a Practical Guide. https://apps.who.int/iris/bitstream/handle/10665/258698/9789241512763-eng.pdf;sequence=1.Google Scholar
van Os, S, Syversen, A, Whitaker, KL, Quaife, SL, Janes, SM, Jallow, M and Black, G (2021) Lung cancer symptom appraisal, help-seeking and diagnosis - rapid systematic review of differences between patients with and without a smoking history. Psycho-oncology [Preprint]. Available at: https://doi.org/10.1002/pon.5846.Google ScholarPubMed
Weller, D, Vedsted, P, Rubin, G, Walter, FM, Emery, J, Scott, S, Campbell, C, Andersen, RS, Hamilton, W, Olesen, F, Rose, P, Nafees, S, van Rijswijk, E, Hiom, S, Muth, C, Beyer, M and Neal, RD (2012) The Aarhus statement: improving design and reporting of studies on early cancer diagnosis. British Journal of Cancer 106, 12621267.CrossRefGoogle ScholarPubMed
Williams, P, Murchie, P and Bond, C (2019) Patient and primary care delays in the diagnostic pathway of gynaecological cancers: a systematic review of influencing factors. The British Journal of General Practice: The Journal of the Royal College of General Practitioners 69, e106e111.CrossRefGoogle ScholarPubMed
Zhou, Y, Mendonca, SC, Abel, GA, Hamilton, W, Walter, FM, Johnson, S, Shelton, J, Elliss-Brookes, L, McPhail, S and Lyratzopoulos, G (2018) 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. British Journal of Cancer 118, 2431.CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Eligibility criteria

Figure 1

Figure 1. Preferred Reporting Items for Systematic Reviews (PRISMA) guidelines flow diagram of study selection

Figure 2

Table 2. Characteristics of studies included in review

Figure 3

Table 3. Summary of included studies

Figure 4

Table 4. Factors associated with delay identified in reviewed studies