Abstract
Background Health education materials (HEMs) are widely used in general practice. However, there is little information on the variety of HEMs currently available to patients in the UK, or their preferences for accessing educational materials.
Aim To assess patients’ perceptions of HEMs, and the variety and accessibility of these materials.
Design and setting Cross-sectional study conducted in general practices in Brighton and Hove.
Method An anonymous questionnaire was distributed to patients in the waiting room (WR). Additionally, an audit was conducted to measure the variety of the HEMs. Results were analysed using binary multiple logistic regression.
Results In all, 556 participants (response rate 83.1%) from 19 practices took part. The mean age of participants was 49.3 years (SD ±18.9) and 63% were female. Perceived usefulness of HEMs was associated with reading in the WR using written HEMs, and not having a university degree; noticeability was associated with reading in the WR, and being female; attractiveness was associated with not having a university degree and shorter waiting time. On average, WRs contained 72 posters covering 23 topics, and 53 leaflets covering 24 topics, with many outdated and poorly presented materials of limited accessibility.
Conclusion This study found substantial variation in the amount, topicality, and quality of material available in WRs. As most patients notice HEMs and find them useful, available technology could be better utilised to widen access to HEMs. The introduction of wireless free internet (Wi-Fi) to waiting rooms should provide an opportunity to update this area.
INTRODUCTION
Health education materials (HEMs) in the waiting room (WR) have been associated with increased knowledge and satisfaction, and decreased anxiety among patients,1,2 and may help to support informed decision making and patients’ involvement in their care.3–5
Health information needs to be evidence based, acceptable, useful, comprehensible, and relevant.6 The subject of HEMs has been heavily researched, but much of the evidence available in general practice is more than two decades old,7–10 or focuses on individual interventions.11–15 Little information is available on the variety of HEMs currently offered to general practice patients in the UK, or patient preferences for accessing educational materials.
METHOD
Study design
This study used a cross-sectional methodology to assess patients’ opinions regarding the usefulness, noticeability, and attractiveness of HEMs in general practice WRs. The study also examined the variety and accessibility of these materials.
Study setting
The study was conducted in the WRs of general practices in Brighton and Hove. All general practices in Brighton and Hove were approached by email and telephone between February and May 2017. Between March and May 2017, one to three visits were made to each practice to distribute the questionnaire and collect data. Practices were visited on different days of the week, in both morning and afternoon sessions
Participants
Patients were included if they were >18 years, had visited the practice location in the last 6 months, and were able to complete the questionnaire independently and in English.
Data sources
The questionnaire
The questionnaire was based on previous literature,7,9,10,16 and covered information in relation to age, sex, ethnic background, sexual orientation, smoking status, highest level of education, disability, English as a first language, number of general practice visits in the last 6 months, waiting time, use of health-related information, and activities in the WR (further information is available from the authors on request). The questionnaire was piloted in five individuals who had visited their doctor in the previous 2 weeks. Patients who had been in the waiting room for at least 5 minutes were approached, and, once eligibility had been confirmed, were asked to complete the questionnaire before they left the practice. Participant consent was implied by return of the questionnaire. The questionnaire took <10 minutes to complete.
The audit tool
Data were also collected on the variety, number, and topics of HEMs available in the WRs, the accessibility of health information (assessed against relevant guidelines),17,18 and the representativeness of the HEMs present (further information is available from the authors on request). The number of different varieties of HEMs, and the topics represented by them, were recorded. Practice characteristics and free-text comments from the researcher were also collected. The audit was conducted at a time when no participants were completing questionnaires.
How this fits in
Although existing research on the variety of health education materials (HEMs) currently available to general practice patients in the UK is limited, this study found substantial variation in the amount, topicality, and quality of HEMs, with many outdated and poorly presented materials. Patients notice HEMs and find them useful, but investment and leadership are needed to improve, differentiate, and widen access to HEMs. Effective patient education could help to reduce some of the current burden facing GPs through increasing self-management and appropriate use of healthcare services, with the introduction of WiFi into general practices as an opportunity to update health education in the waiting room and, in addition, remote consultations could be easily linked with online HEMs. As the movement towards practice federations continues, national and local producers of HEMs should target educational materials towards these groups, and federations should consider creating a role with specific training and responsibilities for patient education.
Study size
The sample size calculation for this study was based on a previous study.16 Details of the sample size calculation are available from the authors on request.
Statistical analysis
Data were analysed using SPSS (version 24). Binary multiple logistic regression analysis was used to examine which predictors were independently associated with the primary outcome measures. Likert scale responses to the statements assessing the primary outcome measures were merged to form two categories: ‘agreed’ and ‘did not agree’. Results were considered significant at the 5% level. The following variables were included in the model: age, sex, racial background, sexual orientation, smoking status, highest level of education, disability, English as a first language, number of general practice visits in the last 6 months, waiting time before previous appointment, use of written, electronic, and face-to-face sources of health-related information, and a description of whether the patient reported reading, using electronics, or doing nothing in the WR. Descriptive statistics were used to examine the variety, number, topics, and accessibility of HEMs in the WR. Missing data were included in the descriptive analysis of questionnaire responses and were excluded listwise in the regression model. Word clouds were generated using https://www.wordclouds.com/.
RESULTS
Results from the questionnaire survey
Study setting and participants
In all, 19 (14 single-site and five multisite) of the 44 practices in Brighton and Hove agreed to participate in the study (participation rate 43.2%). Altogether, the survey was carried out in 27 WRs of the 19 practices. The mean number of full-time equivalent (eight sessions per week) general practices was 3.96 (SD ±2.44), and the mean number of registered patients per practice was 8162 (SD ±5412).
In total, 845 patients were approached, of whom 669 were eligible, and 568 agreed to take part. Of these, 556 questionnaires were completed, giving a response rate of 83.1% of those eligible. Reasons for exclusion of potential participants were: not having attended the practice in the last 6 months (n = 86), being unable to complete the questionnaire independently (n = 34, of whom 27 had poor eyesight and/or had forgotten their spectacles), being <18 years of age (n = 11), and other reasons (n = 45). Reasons for declining to participate were: no reason given (n = 56), feeling that there was not enough time before their appointment (n = 16), and other reasons (n = 29).
The mean age of participants was 49.3 years (SD ±18.9), and 62.6% of participants were female; 90.5% of participants were white, and 87.5% had English as their first language. On average, participants spent 15.6 minutes (SD ±14.1) in the WR, and the mean number of visits to the practice in the previous 6 months had been 4.6 (range 0–180) (Table 1).
Usefulness, noticeability, and attractiveness
The statement ‘I normally notice posters, leaflets, and other information on display in the waiting room’ was agreed with by 77.9% of participants, and 68.4% agreed with ‘I find posters and/or leaflets in the waiting room useful’. Only 47.1% of participants agreed with the statement ‘The displays in the waiting room are well-designed and attractive’ (Table 2).
More than half of participants in WRs with TV screens stated that they usually watched it, and only half of all WRs contained a TV screen. In the WR, more participants reported using their mobile (52%) than any other activity, and the internet (72%) was the second most common source of health information.
Multivariate analysis
Results from the multiple logistic regression are presented in Table 3. Participants with university-level education and above were significantly less likely to find HEMs useful (odds ratio [OR] 0.33, 95% confidence interval [CI] = 0.16 to 0.67) compared with those who were less qualified. Additionally, patients who used written HEMs were more than twice as likely to find them useful (OR 2.21, 95% CI = 1.31 to 3.74), and those who read in the WR were 1.8 times more likely to find HEMs useful (OR 1.83, 95% CI = 1.14 to 2.94). Noticeability was negatively associated with being male (OR 0.58, 95% CI = 0.34 to 1.00). Patients who read in the waiting room were more likely to notice HEMs (OR 3.29, 95% CI = 1.80 to 6.00). Participants with a longer waiting time (OR 0.98, 95% CI = 0.97 to 1.00), and those with university-level education and above (OR 0.47, 95% CI = 0.26 to 0.86) were significantly less likely to find HEMs attractive.
Results from the audit
Number and topics of health education materials
On average, there were 72 posters covering 23 topics; and 53 leaflets covering 24 topics. The most commonly available topics of HEMs were relating to service provision, patient involvement, cancer and screening, mental health, and safeguarding and abuse. Figures 1⇓–3 present word clouds displaying the frequency of topics found in posters, leaflets, or on television screens.
The mean review frequency for displays in the WR was 7.8 weeks (SD ±8.3 weeks), although this was stated by the practice staff rather than observed by the researcher, and three practices stated that the WR was never reviewed. The person most commonly responsible for reviewing and updating HEMs was the practice manager (57.9%). Others responsible included administrative staff, patient participation groups, healthcare assistants, commercial leaflet companies, GPs, nurses, and ‘nobody’. In nine practices, more than one person was responsible. The researcher’s written observations noted a large amount of out-of-date information (n = 25 comments), blank displays, duplicated posters, closed leaflets pinned to noticeboards, out-of-use television screens (n = 5), posters targeted at staff, and other poor utilisation of resources, such as displaying matching posters and leaflets separately, and using glossy laminate that reflects light, rendering posters difficult to read (n = 12 comments).
Accessibility and design of health education materials
The provision of HEMs in accessible formats was generally poor, with a mean score of 8.74/35 for posters, and 13.21/35 for leaflets. No posters were provided in braille, audio, or video formats in any WR (all had a mean score of 1 on the audit tool), and very few leaflets were available in video format (mean score 1.13). In many cases, braille, audio, or foreign-language formats of leaflets were available to order from the producer but were not physically present in the WR. The mean design score was 35.90/45 for posters, and 34.08/45 for leaflets. The highest scoring criterion for both posters and leaflets was ‘Bold type or colours used for headings or to accentuate meaning’ (means 4.85 and 4.96, respectively). The lowest scoring criteria were ‘Materials represent patient groups of varying age, sex, ethnicity, sexuality, and disability for posters’ (mean 2.85), and ‘Font size 14 or more’ for leaflets (mean 2.00).
DISCUSSION
Summary
To the authors’ knowledge, this is the first study to combine patient opinion with assessment of the availability and quantity of HEMs in general practice WRs. They appear to be a forgotten and under-resourced corner of health promotion, with little national or local oversight, and no mention of HEMs in the Quality and Outcomes Framework (QOF), Care Quality Commission (CQC) inspections, or general practice contracts. There is substantial variation in the amount, topicality, and quality of material available in WRs, with a variety of people, or even nobody, responsible for the provision or updating of WR information in some practices.
There also appears to have been little effort to systematically utilise available technology to widen access to information by linking into existing databases of validated information, differentiating information according to health literacy levels and/or the interests of the patient, and providing translated materials. Despite this, most patients reported that they notice HEMS and find them useful, although it appeared that fewer patients find them to be well-designed and attractive.
The authors found a wide variety of HEMs available in the WR. Usefulness was associated with reading in the WR, using written HEMs as a source of health information, and not having a university degree. Noticeability was associated with reading in the WR, and being female. Attractiveness was associated with not having a university degree and shorter waiting time. The quality of HEMs available was highly variable. WRs scored highly on the design components of the audit tool. However, there was poor provision of information in accessible and foreign-language formats.
With the recent decision to provide free wireless free internet (Wi-Fi) in general practices in England, it may be time to review the materials on offer in general practice waiting rooms.
Strengths and limitations
This study involved nearly half of the general practices in Brighton and Hove (43%), and was successful in recruiting 556 patients from these practices, achieving a high response rate. The questionnaire was piloted, and included patients visiting various professionals, therefore collecting a range of viewpoints. Additionally, rather than focusing on a single form of information, this study included all HEMs in the WR and, to the authors’ knowledge, no other study has assessed the accessibility of HEMs in this way.
The sample size calculation for this study accounted for intra-cluster correlation, and the authors used linear mixed model analysis to examine clustering of questionnaire responses by practice location (further information available from the authors on request). The analysis suggested that there was minimal clustering of participant responses by practice.
Though the overall sample size was achieved, the authors failed to recruit the desired number of practices, which may have affected the power of the study. Roughly the same number of participants were recruited from each practice, irrespective of the size of the practice, which overrepresents smaller practices. Also, all practices involved were from Brighton and Hove, suggesting the findings might have some limitations regarding generalisability to other settings. However, because the sample size was large, a range of practices was included, and the participant characteristics were similar to those of the local population, the findings of this study are likely to be generalisable to WRs in other locations.
The questionnaire was piloted, but it was not validated. Furthermore, the eligibility criteria excluded first-time or infrequent attenders as they would not have experience to base their responses on. However, these groups are also targets for health education.
Finally, this study does not explore the effectiveness of HEMs at increasing knowledge and changing behaviours, though this has been evaluated elsewhere.
Comparison with existing literature
More than two-thirds of participants in this study agreed that they found posters and/or leaflets in the WR useful, which is double the proportion found by Moerenhout et al in 2013.16 This study also agreed that reading in the WR or using written HEMs were positively associated with usefulness.16 In contrast, however, the authors of the current study found that having a university degree was negatively associated with usefulness,16 in spite of previous findings that only 24.3% of leaflets in the UK meet recommended reading level criteria.19 More than three-quarters of patients noticed HEMs in the WR, a finding that is similar to other studies from the UK.9,10 Men were less likely than women to notice HEMs, which could be related to lower health literacy in men.20 The number of posters and leaflets present was higher than that reported in previous studies, although these studies took place outside of the UK.16,21,22
Implications for research and practice
More than two-fifths of participants in WRs with TV screens stated that they usually watched it. Despite substantial evidence that educational videos in the WR lead to positive outcomes,13,23–27 only half of all WRs contained a TV screen.
Furthermore, in several WRs the screen was turned off, or playing commercial television or advertisements, and none played sound. TV screens are a potentially effective educational resource that currently seem underutilised.
In the WR, more participants reported using their mobile (52%) than any other activity, and the internet (72%) was the second most common source of health information. As 81% of adults in the UK now own a smartphone, and 54% have access to 4G,28 this represents a future target for WR educational interventions. Some HEMs contained a Quick Response (QR) code linking to a website with more information. In the future, this could be used to link to reliable online sources of health information. The provision of HEMs in accessible formats and foreign languages was extremely limited, despite patients’ desire for this.13,21 Also, almost no HEMs in alternative formats were physically present in the WR, although many were available on request from the producer of the HEM. A database in the WR could provide translated materials and be linked to a print- or email-on-demand system. These technologies could be used to provide more effective, personalised, targeted health information.2 As groups of practices work together to care for larger populations of patients, and remote access to health care becomes more common, traditional health promotion strategies based around the face-to-face consultation may need to change. Online resources are easy to signpost patients to, and many practices already have websites that could be used for this purpose. Electronic health education may allow a broad population of patients to access accurate, high-quality, and potentially personalised health information at a time and place of their choosing, although this may not be suitable or preferable for all patients. For example, in 2017, the Office for National Statistics found that only 41% of adults aged >75 years had used the internet in the previous 3 months.29
Despite practices reporting that the contents of WRs were reviewed regularly, there were many examples of out-of-date information. In one practice, it was nobody’s responsibility to maintain and update the WR, and in many practices a variety of staff members were tasked with this, which may reflect a lack of importance attached to health education in the WR. This could be addressed by creating a role within the practice with responsibility for managing patient education and associated training for this. Most practices produced very few, if any, of their own HEMs, and many were provided by national or local charities and organisations. This suggests that the variable quality of the HEMs may not be due to the practices, but the producers and distributors of the information. One could argue that those responsible for displaying HEMs in their WR ought to assess their accuracy and quality before distributing them to patients. However, given the current pressures on general practice, it is unlikely that this is seen as a priority. Interventions to improve the quality of HEMs would be best targeted at these bodies producing the majority of HEMs, rather than the practices that distribute them.
There is also a need for more outcome-based research on the effectiveness of health information materials in this setting.
Acknowledgments
This study was conducted as Katherine Maskell’s dissertation for the University of Brighton MSc in Public Health in the Department of Medical Education at the Brighton and Sussex Medical School. The authors thank the patients who took part in this study, and the general practices granting access to their waiting rooms.
Notes
Funding
This study received no external funding. Katherine Maskell was awarded a Wolfson Foundation Intercalated Degree Research Fellowship of £5000 from the Royal College of Physicians to undertake this research.
Ethical approval
A favourable ethical opinion and Health Research Authority (HRA) approval were obtained via the Integrated Research Approval System (IRAS) (project ID: 217441). Institutional sponsorship was obtained from the University of Sussex, and Brighton and Hove Clinical Commissioning Group (CCG) gave their support for the study.
Provenance
Freely submitted; externally peer reviewed.
Competing interests
The authors have declared no competing interests.
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- Received March 4, 2018.
- Revision requested April 23, 2018.
- Accepted May 29, 2018.
- © British Journal of General Practice 2018