Article Text
Abstract
Objectives To investigate perceptions of medical students on the role of online teaching in facilitating medical education during the COVID-19 pandemic.
Design Cross-sectional, online national survey.
Setting Responses collected online from 4th May 2020 to 11th May 2020 across 40 UK medical schools.
Participants Medical students across all years from UK-registered medical schools.
Main outcome measures The uses, experiences, perceived benefits and barriers of online teaching during the COVID-19 pandemic.
Results 2721 medical students across 39 medical schools responded. Medical schools adapted to the pandemic in different ways. The changes included the development of new distance-learning platforms on which content was released, remote delivery of lectures using platforms and the use of question banks and other online active recall resources. A significant difference was found between time spent on online platforms before and during COVID-19, with 7.35% students before versus 23.56% students during the pandemic spending >15 hours per week (p<0.05). The greatest perceived benefits of online teaching platforms included their flexibility. Whereas the commonly perceived barriers to using online teaching platforms included family distraction (26.76%) and poor internet connection (21.53%).
Conclusions Online teaching has enabled the continuation of medical education during these unprecedented times. Moving forward from this pandemic, in order to maximise the benefits of both face-to-face and online teaching and to improve the efficacy of medical education in the future, we suggest medical schools resort to teaching formats such as team-based/problem-based learning. This uses online teaching platforms allowing students to digest information in their own time but also allows students to then constructively discuss this material with peers. It has also been shown to be effective in terms of achieving learning outcomes. Beyond COVID-19, we anticipate further incorporation of online teaching methods within traditional medical education. This may accompany the observed shift in medical practice towards virtual consultations.
- medical education & training
- world wide web technology
- telemedicine
- information technology
- education & training (see medical education & training)
- public health
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- medical education & training
- world wide web technology
- telemedicine
- information technology
- education & training (see medical education & training)
- public health
Strengths and limitations of this study
The COVID-19 pandemic has undoubtedly impacted the delivery of medical education with a sudden shift towards online teaching platforms; to date, this is the first study investigating the perceptions of medical students on these changes.
This study is strengthened by its collection of responses from a large national cohort of medical students from 39 out of 40 UK medical schools.
The survey extensively explored the benefits of and barriers to online teaching methods with the potential to provide medical schools nationally with a direction for development of resources.
Survey responses may have been subject to recall bias, and limited by timing of the study coinciding with the examination season where remote learning platforms may often be resorted to.
Introduction
Since the first case of coronavirus disease 2019 (COVID-19) in the UK,1 the WHO has declared the COVID-19 outbreak as a global pandemic.2 The nationwide lockdown restrictions to control the spread of disease and ‘flatten the curve’ have impacted all aspects of life;3–5 inevitably, medical education has also been affected, with the halting of lectures, clinical placements and key examinations.6 7 Such measures have resulted in a sudden shift in teaching methods towards online teaching. Online teaching has played a key role in medical education over recent years,8–10 demonstrated several benefits in enhancing student learning.11 A recent systematic review suggested that offline teaching and online teaching are equivalent in terms of outcomes of examinations.12 Key drawbacks have also been highlighted, including time constraints to implement effective online teaching.8
The unprecedented COVID-19 pandemic has caused a sudden shift towards the exclusive adoption of online teaching, forming the primary source of medical education and enabling students to continue to learn remotely.13 Teaching sessions have covered key clinical conditions, case studies and examination questions via live-streamed tutorials through platforms such as Zoom,6 shown to have high levels of engagement.14 With around 19.6% of the UK medical student demographic consisting of international students,15 many of whom have returned home, this allows individuals to access teaching regardless of location.6 Nevertheless, learning relying on the Internet needs to be tailored towards different learning styles to enable it to be impactful and effective.13 However, while the benefits to preclinical years of blended learning has been shown, for example, in anatomical teaching16 and especially in a generation accustomed to using YouTube,17 there is limited understanding of the impact of exclusive online teaching and its use in clinical years. Concerns have been raised regarding the quality of resources produced during the pandemic due to time constraints, particularly as these resources aim to compensate for lack of exposure.18 Indeed, a recent national Twitter discussion, involving representatives from the General Medical Council, NHS (National Health Service) England and WHO, found that a key concern among students was that remote learning impacted their ability to develop clinical competence.19 This also highlighted the potential role of the professional use of social media in facilitating medical education, as shown in surgical training.20
In the coming months, as lockdown restrictions ease, the need for social distancing will continue and the possibility of medical students acting as vectors of COVID-19,21 22 as seen in the SARS (severe acute respiratory syndrome) epidemic in Hong Kong,23 remains. Moreover, PPE (personal protective equipment) shortages may form potential barriers to patient interaction.24 Therefore, it is likely that e-learning and telemedicine will continue to form vital sources of medical education. Many authors have suggested that digital health platforms for both patients and students will remain an integral part of care even after the COVID-19 pandemic.25 Thus, having a greater understanding of the perceived advantages and drawbacks will allow medical schools to improve their delivery of online teaching. The COVID-19 pandemic has put us in a unique position to evaluate the significance of online teaching platforms in medical education. While many students have acknowledged the impact of COVID-19 on their education6 21 and explored their role during the pandemic,26 27 to date no study has investigated the outlook of medical students on the effect of these changes. Therefore, we aimed to investigate their perceptions on the role of online teaching in facilitating their education during the COVID-19 pandemic. Improving our understanding of this could help develop medical school curricula in the future.
Methodology
Questionnaire design and distribution
This was a cross-sectional study conducted on a national level via an online survey. A 20-item questionnaire was devised following a literature search on current online teaching methods and the effects of COVID-19 on medical education in the UK (online supplemental appendix 1). Questions exploring the experiences of online teaching were based on sections I to IV of the Dundee Ready Education Environment Measure (DREEM),28 a validated questionnaire designed to measure the educational environment of medical schools and healthcare professionals.29 These were 5-point Likert-type questions, ranging from strongly disagree to strongly agree. The remaining items in the questionnaire comprised a mixture of question styles. Certain questions were conditional. Open-ended text responses were also collected and underwent thematic analysis whereby responses were categorised. The question items were initially drafted and informally discussed with a group of medical students before undergoing a careful review and editing process. The final questions explored the following three themes:
Supplemental material
General demographics.
The use and experience of online teaching during the COVID-19 pandemic.
Perceived benefits and barriers of online teaching.
The survey was created using Qualtrics, an online survey software (V.XM, 2019, Provo, Utah30), and distributed by medical students recruited nationally via social media, with an interest in sharing a national survey, in order to maximise outreach to all 40 registered UK medical schools.31 The survey was accessible via an anonymous link and open for a 1-week period (04 May 2020 to 11 May 2020).
Participants
All 42 190 undergraduate and graduate entry medical students32 across all years (years 1 to 5 and intercalated year) from 40 registered UK medical schools31 were eligible to participate.
Patient and public involvement
As this study focussed on medical students, patients or the general public were not involved in the study design. However, medical students were involved with the piloting of the survey as well as its distribution across medical schools.
Participant consent and ethical considerations
Participation was voluntary, and participants were informed prior to starting the survey that all data collected was non-identifiable and would only be used for research purposes. A mandatory selection box consenting to participation and confirming that this was the first time completing this survey was included at the beginning of the survey, ensuring a 100% consent rate and preventing multiple responses.
Data analysis
Data was exported from Qualtrics to Microsoft Excel (Excel V.16.29, 2019). Qualtrics and GraphPad Prism (Prism V.8.2.1, 2019) were both used to generate graphs and calculate descriptive statistics for the survey responses to explore patterns in responses. Multiple responses were accounted for by identifying unique IP (Internet Protocol) addresses.
Wilcoxon test was used to compare hours of online teaching usage before and during COVID-19 overall, while Mann-Whitney U test was used in a subgroup analysis comparing usage between preclinical and clinical students. These were conducted following the Shapiro-Wilk and Kolmogorov-Smirnov normality tests which found the data set to be non-gaussian in distribution. P values <0.05 were considered statistically significant.
Results
Cohort demographics
Of the 2721 responses collected, 68.06% (n=1852) of respondents were women, 31.53% (n=858) were men and 0.40% (n=11) identified as other, contrasting against the population of UK medical students, which comprises of 55% women and 45% men.32 Responses were collected from 39 medical schools across the UK, from medical students across all years (table 1). Due to the inability to track the survey distribution, it was not possible to calculate a response rate. However, non-response bias was minimised by ensuring the survey was shared by a variety of medical students via a range of platforms.
Student engagement with online teaching platforms
Prior to the pandemic, students spent an average of 4 to 6 hours per week using online teaching platforms. Students used a combination of video tutorials (27.71%), online question banks (26.18%), pre-recorded tutorials via their respective medical schools (20.96%) and online flashcards (15.99%). Live tutorials via online platforms from their medical school were used by 4.46% of students, while 1.79% used live tutorials from other sources (figure 1). Other resources included the use of Anatomy TV, online notes such as Pulsenotes or TeachMeAnatomy, Acland’s Anatomy videos, revision websites, for example, OSCEstop and Zero To Finals, NICE (National Institute for Health and Care Excellence) guidelines, online textbooks and UpToDate and BMJ Best Practice.
Students then ranked the effectiveness of online teaching platforms with 1 being most effective and 5 being least effective. According to the responses by the students, video tutorials, for example, YouTube/Osmosis appeared to be the most effective, followed by online question banks, and live tutorials, while students commented using a variety of other sources. However, following subanalysis and exclusion of intercalating students, unlike preclinical students, clinical students found live tutorials to be the most effective, although rankings for the remaining platforms were similar.
During the pandemic, students spent an average of 7 to 10 hours using online teaching platforms, compared with 4 to 6 hours prior to the pandemic. The difference in hours prior to and during the COVID-19 pandemic were found to be significant (p<0.05). Similar numbers of students spent <1 hour on online teaching platforms before and during the pandemic. However, there was an increase in numbers of students spending longer periods of time on online teaching platforms, for example, 7.35% (n=200) versus 19.70% (n=641) of students spent >15 hours on online teaching platforms before and during the pandemic (figure 2A). Following subanalysis, before the pandemic, clinical and preclinical students spent similar times on online teaching (figure 2Bi), whereas during the pandemic differences in periods were found to be significant (p<0.001) (figure 2Bii), with a greater proportion of preclinical students spending >15 hours (28.69% vs 20.01%). Taking examinations remotely were reported by 57.28% of students; the remaining reported having postponed or cancelled examinations.
Medical school adaptations to COVID-19
Medical schools adapted to the pandemic in a combination of ways with 28.48% of students reporting their medical school to adapting to remote learning through the delivery of live tutorials via online platforms. Moreover, 42.19% of students reported that their medical school either introduced new resources to existing learning platforms or created a new online teaching platform with new resources. Other medical schools have either (1) not implemented anything as the curriculum had already been covered, or (2) delayed teaching with the introduction of a question bank.
The online teaching provided as an alternative by the medical schools followed a pre-set curriculum for 66.12% (n=1799) of students, was designed following student requests for 3.38% (n=92) of students, or using a combination of both for 30.50% (n=830) of students. This shows that student opinion was considered in the delivery of online teaching.
Furthermore, 59.73% of students found that online teaching sessions have been interactive, with students finding the opportunity to interact via the chat box or by directly speaking to the lecturer. Some students have also specified that having small group sizes, group discussions, online case simulations and quizzes have been useful in increasing their engagement.
Student perception of online teaching
Students ranked their experience of online teaching using a Likert scale with 1 being strongly disagree and 5 being strongly agree (table 2). Overall, students did not find online teaching to be engaging or enjoyable, with limited opportunities to ask questions. Furthermore, on average students were neutral when asked whether online teaching should be more interactive, but did not find it as effective as face-to-face teaching.
The main advantages of online teaching appeared to be that it saves students time on travelling (19.82%), provides flexibility (19.52%), the ability for students to learn at their own pace (18.63%), it is more comfortable (15.84%) and it cuts costs (14.24%) (figure 3A). Other medical students (n=82) also commented that it provides time efficiency, allows more time for students to focus on preparing for clinical placements, reduces anxiety and being able to be in a different country.
On the other hand, students stated that family distractions (26.76%), Internet connection (21.53%), timing of tutorials (17.31%), anxiety (11.08%) and lack of space (11.03%) as barriers to effective online teaching (figure 3B). Students (n=81) commented on experiencing a lack of motivation, difficulty concentrating and asking questions and a lack of contact with colleagues as further limitations.
Role of online teaching in clinical teaching
The feeling that online teaching had not successfully replaced the clinical teaching they received via direct patient contact was felt by 75.99% (n=1842) of the medical students, with 82.17% (n=1986) feeling they cannot learn practical clinical skills through online teaching. This shows that clinical skills remain a pertinent barrier to online teaching of medical students.
Discussion
Background
With the rise of COVID-19, it is unsurprising that many medical institutions have resorted to online education platforms. However, online education has been used preceding this pandemic. Here, we discuss how this pandemic has shaped the use of online teaching currently as well as its application in the future of medical education.
The impact of COVID-19 on uptake of online teaching
Our study found a significant increase in the time spent on online teaching platforms before and during the pandemic (p<0.05), particularly among preclinical students. This was expected, as the primary source of education and engagement of students with their medical school was online, in addition to the pre-existing use of online teaching resources. This is despite the reported cancellation of clinical examinations and conversion of written examinations into open book, which would arguably reduce student engagement. Hence, the cancellation of clinical examinations may have accounted for the greater proportion of preclinical students engaging with online teaching for more than 15 hours, which is greater than that of clinical students.
The development of innovative educational projects has been initiated to enhance remote medical education.19 A rise in external resources and teaching programmes such as Osmosis, BiteMedicine, Becoming A Doctor and Sustaining Medical education in a Lockdown Environment (SMILE) has allowed many teaching sessions to be available to medical students across the country. Hence, students may learn from a wider community of professionals. However, the high flow of resources causes a proliferation of choice which may increase burnout rates. Schwartz claimed that this choice overload is due to the failure of universities on fulfilling their education role to their students.33 34 Yet, although some platforms were created to facilitate learning during lockdown (eg, SMILE), many diverse medical education platforms available existed prior to the pandemic with increasing usage, which may suggest that students desire this flexible curriculum.
Our results suggest that students would like online teaching sessions to be more interactive. This could be achieved via student response systems incorporating methods such as polls, quizzes or breakout rooms,35 36 which have been shown to encourage student participation.37 Indeed, previous literature suggests the incorporation of online Q&A sessions to improve student engagement,13 based on a previous model advising the use of synchronous learning.38 Synchronous learning is defined as a social learning environment alongside answering questions live.39 This active communication between lecturers and students allows ambiguous concepts to be addressed immediately to increase student involvement, creating a more active learning environment.
Student perception of online teaching
Students scored their experiences of online compared with face-to-face teaching to be lower, with an average of 1.69 scored for preference for online teaching, and 2.55 for engagement in lessons (table 2), suggesting most students prefer face-to-face teaching. Furthermore, previous studies using the DREEM survey found higher average scores for educational environments.40–42 The discrepancies found may have been due to students comparing their current experiences to previous face-to-face teaching. However, given that students are currently solely limited to online teaching, responses may not truly reflect the efficacy of online teaching. Nevertheless, as online teaching has become mainstream, it is paramount to analyse its efficacy compared with previous methods for further development.
Furthermore, unlike teaching evaluated by DREEM previously, the current pandemic caused a sudden shift towards the use of online teaching on a large scale, allowing for inconsistencies with underdeveloped medical curricula, many teachers being inadequately prepared and technical difficulties.8 Therefore, the low scores of student experiences may be due to the unexpected, sudden introduction of online teaching. Despite the relatively high score of 3.36 for teacher preparation,40–47 the quality of the sessions delivered may have been impacted by several factors such as poor internet connection, family distractions and the timing of the tutorials, as demonstrated by our results. In the future, medical schools must carefully build an infrastructure comprising of technologically versatile lecturers to deliver well-organised, succinct tutorials, games and resources, especially given the lack of awareness of ‘conscientious online lecture design’ among medical educators.48
The low score of 2.28 for being ‘well prepared for my profession’ (table 2), compared with previous studies reporting up to 3.18,41 43 46 47 49 is striking, mirroring concerns that remote or online teaching may compromise the clinical competence and confidence of students.19 The loss of immediate feedback may have contributed to this, as generally students and doctors prefer face-to-face sessions for communication50 and feedback purposes.51 Nonetheless, it is important to note that students often do not feel completely prepared for their profession.52
Moreover, overall video tutorials (eg, YouTube or Osmosis), were ranked as the most effective online resources, compared with live tutorials, particularly for preclinical students. Reasons for this may include the short, organised and aesthetic nature of pre-recorded videos.53 In comparison, live tutorials tend to be longer, face technical difficulties and are less engaging. Despite these challenges, live tutorials were perceived to be the most effective by clinical students. This may be due to the sessions’ synchronous nature, allowing for real-time discussions to occur, reflecting clinical practice.
Notably, in this study, distinctions between the different forms of online teaching were not made when investigating students’ perceptions. Rather, it was an evaluation of online teaching as a whole, which may have impacted the results, as teaching modalities are often specific to the topic being taught.48 Furthermore, student preferences may depend on the purpose of engaging with resources, for example, for learning new content versus revision,54 or for short-term versus long-term knowledge retention.55
Benefits and barriers of online teaching
To students, the main advantages of online teaching are the time and money saved from the lack of travel, its flexibility and the ability for students to learn at their own pace (figure 3A). Further benefits of live online lectures14 include opportunities for students to anonymously ask and answer questions, potentially encouraging further engagement from those who would not otherwise participate in a live lecture, due to the less intimidating environment online.56 However, these benefits may not be applicable to all forms of online teaching. For example, the limited synchronous aspects of pre-recorded content may deter students due to the lack of opportunities to interact with lecturers.57 Also, watching pre-recorded lectures, alongside the possibility of attending face-to-face lecture, has been shown to negatively correlate with learning success.58
The main barriers to online teaching appear to be family distractions, Internet connection and the timing of tutorials (figure 3B). This may disadvantage students with large families or with limited Internet access. Moreover, the mental health of students, recently shown to be impacted by the COVID-19 pandemic,59 may be adversely affected as indicated by the free text responses. This may be, in part, attributed to the lack of interaction with friends and colleagues leading to a rise in anxiety. Alternatively, with exams being open book and with an unrestricted setting, students may be less prone to exam anxiety.60 Although, this does not address the family and noise disturbances which may still affect exam performance.
Medical student role during the COVID-19 pandemic
On the other hand, medical students are being asked to ‘step-up’ and join the front-line of doctors tackling COVID-19.61 As well as the early graduation of UK medical students,62 many universities have given their students the opportunity to volunteer. For example, the University of Birmingham has facilitated for over 700 medical students to volunteer in the NHS.27 Although medical schools have halted clinical placements, this opportunity could provide more exposure, undoubtedly impacting the development of medical students. However, for those who are not volunteering due to living with vulnerable family members or having health conditions themselves, this would then put them at a disadvantage as their peers continue to gain clinical exposure.
As lockdown restrictions ease and students slowly return to medical school, clinical placements may incorporate more virtual aspects as healthcare evolves.22 Indeed, new platforms have been developed by the NHS (eg, NHS Near Me) which have shown that video consultations are better than telephone consultations in reducing medical error and improving patient outcomes.31 However, Professor Martin Marshall, chairman of the Royal College of General Practitioners, has highlighted that most consultations are still taking place over the phone as opposed to video calls.63 This may be subject to change with a demographic who are increasingly familiar with the use of the Internet. Additionally, in Germany, online platforms as observed in Dermatology may ‘provide a safe and efficient alternative for face-to-face outpatient care’,25 abiding by social distancing rules.
Future direction of online teaching
Furthermore, the digitalisation of medical teaching could play a significant role in the future of medical schools. Allowing users to tailor their learning and acquire new skills through the chaotic nature of an amplitude of resources could halt the development of medical students. Having discussed benefits of both face-to-face and remote teaching as well as the future of healthcare online, we suggest that in order to maximise the benefits of these learning methods, a mixture of online and in-person teaching should be used moving forward. This can be incorporated into an effective learning method such as problem-based learning (PBL) or team-based learning (TBL) which have been shown to improve learning outcomes,64 65 student motivation and understanding.66 Students are set online materials to study and are then are expected to discuss content in person in a group tutorial.67 This allows students to study at their own pace, in a manner suitable to them, while also holding them accountable for their own learning. While students find PBL sessions to be interactive and to improve self-directed learning,68 69 TBL has been found to be more engaging and ‘conducive to learning’ in preclinical settings, due to smaller groups, ensuring timely tutor feedback.70
Compared with face-to-face teaching, students in this study felt less satisfied with online teaching and ill-prepared for their profession. With many of these students due to graduate as doctors in the next few years, this is concerning, highlighting the need for medical schools to improve their delivery of medical education given that online teaching is here to stay. Hence, we suggest that until innovative solutions are generated, medical schools adopt TBL or PBL learning styles for efficiently delivering high-yielded teaching.
Limitations and future work
This is the first study to look at the impact of COVID-19 on online teaching across the UK, with responses from 39/40 medical schools. One of the strengths of this study is its large sample size of 2792 medical student across all preclinical and clinical years. Furthermore, the recruitment of a variety of medical students for survey distribution via a range of methods minimised potential response bias. However, this study also had some limitations. Some medical schools may have been disproportionately represented with larger numbers of responses from some schools, for example, King’s College London, compared with newer medical schools such as Aston or Kent, potentially skewing results due to sample bias. Additionally, 68.06% of participants were women, in comparison to 55% of UK medical students who are women;32 thus, the results may not be generalisable to the medical student population. Further, some aspects of this survey depended on participants’ memory perhaps influencing their reporting, introducing elements of recall bias. The survey did not evaluate the various ways different content may have been taught, for example, online lectures, games or question banks; perceptions of game-based online anatomy teaching would have differed from online didactic lectures on immunology. Thus, we cannot truly evaluate the types of online teaching provided. Also, it is important to note that the period covered is usually when students have examinations, hence students may have been spending more time on online teaching platforms regardless. In addition, since this survey, medical schools may have updated their online resources. Lastly, student receptivity to PBL/TBL methods should have been evaluated. To truly measure the impact of COVID-19 on student utilisation of online teaching, a more in-depth, qualitative analysis such as focus groups conducted in collaboration with medical schools is required to gather more accurate results, such as the effects on examination performance.
Acknowledgments
We thank Bonita Sinartio, Shweta Madhusudanan, Harri Gruffydd Jones, Victoria Selwyn, Rebecca Conway-Jones, Aqsa Javed, Esmée Nourizadeh, Jack Alan Tagg, Ayshia Bibi, Hyacyntha Celine Hazna Imelda, Sonya Gibson, Kauther Al-Kaaby, Sharma Kansal, Muzammil Ali Khan, Haya Maki and Maryam Goralwalla, for their assistance in distributing the survey link and collecting data. We would also like to express our gratitude to our supervisor, Dr Samiullah Dost, for his guidance and support throughout the course of this study.
References
Supplementary materials
Supplementary Data
This web only file has been produced by the BMJ Publishing Group from an electronic file supplied by the author(s) and has not been edited for content.
Footnotes
SD and AH are joint first authors.
SD and AH contributed equally.
Contributors SD contributed to the study concept and design, and developed the questionnaire. SD recruited collaborators for survey distribution and data collection. SD supervised the project, had full access to the data, controlled the decision to publish and accepts full responsibility for the conduct of this study, as the guarantor. AH and SD contributed equally to this study as joint first authors. AH developed and designed the questionnaire, contributed to data acquisition and interpretation, writing and critical revision of the manuscript. AH is the corresponding author and managed project administration. MS developed the questionnaire, contributed to data acquisition and interpretation, and writing and critical revision of the manuscript. AA developed the questionnaire, and contributed to data visualisation and presentation, and writing and critical revision of the manuscript. LA-N performed data analysis, interpretation, visualisation and presentation and contributed to writing and critical revision of the manuscript. All authors approved the final version to be published and are accountable for all aspects of the work. Sixteen students were involved with survey distribution and data collection.
Funding The authors have not declared a specific grant for this research from any funding agency in the public, commercial or not-for-profit sectors.
Competing interests None declared.
Patient consent for publication Not required.
Ethics approval Ethical approval was requested from Imperial College London and was deemed not to be required as all data was anonymised, with informed consent taken from all participants. The work was carried out in accordance with the Declaration of Helsinki, including, but not limited to the anonymity of participants being guaranteed and the informed consent of participants being obtained.
Provenance and peer review Not commissioned; externally peer reviewed.
Data availability statement Data are available upon reasonable request from the corresponding author (ah2716@ic.ac.uk). Due to the anonymous nature of the survey, it was not possible to disseminate the results of this study to the participants.
Supplemental material This content has been supplied by the author(s). It has not been vetted by BMJ Publishing Group Limited (BMJ) and may not have been peer-reviewed. Any opinions or recommendations discussed are solely those of the author(s) and are not endorsed by BMJ. BMJ disclaims all liability and responsibility arising from any reliance placed on the content. Where the content includes any translated material, BMJ does not warrant the accuracy and reliability of the translations (including but not limited to local regulations, clinical guidelines, terminology, drug names and drug dosages), and is not responsible for any error and/or omissions arising from translation and adaptation or otherwise.