A comparison of public views about sports concussion recovery with current guidelines: where are the gaps and overlaps?
Karen A. Sullivan A * and Kannan Singaravelu Jaganathan AA
Abstract
Sports concussion (SC) management guidelines have recently been updated. A key focus is the emphasis on rest (immediately postinjury) followed by gradual resumption of activity (active recovery). This study aimed to explore community views on SC management and compared these with the guidelines.
A total of 157 volunteers completed an online SC survey, including listing three pieces of advice for a concussed person immediately postinjury, and after 2 weeks (subacute). Quantitative data were statistically compared, and qualitative data underwent content analysis.
Almost all participants offered different immediate versus subacute advice; however, rest featured highly at both timepoints. Commonly expressed themes, consistent with guidelines were immediate rest; safety and reinjury prevention; and symptom monitoring. Two themes were identified in the community advice with limited emphasis in the guidelines: general health advice and psychological and social support. Expert clinical assessment was not always identified in community advice.
Community members hold some views that align with expert advice for SC, particularly the importance of immediate postinjury rest. However, there is scope to grow public awareness of some recommended practices, including expert clinical assessment following injury and when to engage in active recovery.
Keywords: concussion, injury prevention, practice guidelines, public education, rehabilitation, sports injury, traumatic brain injury.
Introduction
Mild traumatic brain injury (TBI) or concussion is a significant health problem globally (Maas et al. 2022; Yue et al. 2023). Over 90% of people presenting to hospital for TBI will meet diagnostic criteria for mild TBI. The causes of mild TBI include common incidents, such as non-fatal road traffic crashes, falls, sport, and physical assaults. The incidence of mild TBI depends on the geographical region, with estimates ranging from 476 to 1153 cases per 100,000 individuals annually (Maas et al. 2022). Mild TBI can lead to adverse effects including symptoms such as headache. These effects can slow the return to work or usual activities, and at least one estimate suggests that as many as 50% of adults seen at hospital for mild TBI were not back to usual by 6 months (Maas et al. 2022). Improving TBI outcomes is a topic demanding global attention and the implementation of strategies for effective injury management is key to this endpoint (Maas et al. 2022).
Concussion management advice is fast evolving (Schneider et al. 2022), including guidance on the nature and duration of postinjury rest (Kroshus et al. 2021). Early advice for concussion management emphasised sustained rest from all activities, known as cocoon therapy, encompassing physical and cognitive domains (Leddy et al. 2018). However, several studies have not supported this approach. For example, a recent study showed that limiting children’s screen time as a postconcussion cognitive rest strategy improved their recovery; however, it was only effective if applied short-term, specifically within the first 48 h postinjury (Macnow et al. 2021). Further, a large systematic meta-analysis of more than 4000 patients found that while prescribed rest did not slow recovery, it did worsen symptoms (Kontos et al. 2023). Based on such findings, the field has moved away from the advice that prolonged rest is the best medicine for concussion (Silverberg and Iverson 2013).
Current guidelines for sports concussion (SC) management such as those promoted by American Congress of Rehabilitation Medicine (ACRM) Brain Injury Interdisciplinary Special Interest Group Mild TBI Task Force (Silverberg et al. 2020), the Concussion in Sport Interest Group (CISG) (Patricios et al. 2023), and the Australian Institute of Sport (AIS) (Australian Institute of Sport 2023) do recommend a short rest period, but this is not ‘strict’ or ‘bed’ rest (i.e. as in cocoon therapy). Instead, after a period of short rest, some of the current guidelines recommend ‘relative rest and exercise’ for SC (Patricios et al. 2023, p. 71) or ‘active recovery’ (Australian Institute of Sport 2023, p. 35). This form of recovery for SC is now known to benefit patients (Neidecker et al. 2021). The idea of relative rest supports an ongoing break from high-risk activities and exercise (such as contact sports) while other activities and exercises are gradually resumed. Specifically, it typically involves a brief period of postinjury rest (24–48 h), then a gradual return to usual activities, except contact sport or other activities with high brain injury risk. This approach allows for low intensity activity or exercise, with gradual increases in intensity as tolerated, over a period of approximately 10 days. The level of activity is ideally individually tailored and may be physiologically titrated (e.g. based on heart rate thresholds; Patricios et al. 2023). If postconcussion symptoms worsen or new symptoms emerge (Silverberg et al. 2020), the progression may be stopped or slowed. A medical evaluation is recommended for the final clearance for return to high-risk activity, such as contact sport.
Despite the new consensus around active recovery for SC, clinical practice may be lagging (Stuart et al. 2022). For example, a recent paper claimed that ‘the current standard of care remains to be strict rest’ (Haider et al. 2021, p. 154). To support the shift in clinical practice towards embracing active recovery for SC, formal strategies (such as ‘de-implementation’ through practitioner education) have been designed and are being researched. A recent intervention study with 21 family physicians evaluated a program aimed at supporting the de-implementation of the prior rest advice, in favour of active recovery. Despite its promising findings, including improving physicians’ concussion knowledge and use of the active recovery guidelines, the study could not be completed for feasibility reasons (Silverberg et al. 2021). A strategy for similarly preparing the public to receive the new active recovery advice has not yet been implemented.
Multiple additional factors appear to influence whether a concussed person will receive and can enact active recovery advice. These factors include: (1) the concussion point-of-care (e.g. primary or tertiary care; Stoller et al. 2014; Arbogast et al. 2016); (2) the specialisation/qualification of the care provider (e.g. medical or non-medical provider/s; Ellis et al. 2017); (3) the provider’s guideline knowledge and ‘confidence’ providing care (Salmon et al. 2022; Stuart et al. 2022); and (4) the provider’s capacity to ‘oversee’ care delivery, according to the guidelines (D’Lauro et al. 2018; Salmon et al. 2022). Patient-related factors also impact the chance of effectively enacting active recovery advice for SC. This includes whether patients adhere to the advice (Moor et al. 2015) and have the capacity to do so (Mohammed et al. 2023), and whether people understand, expect, and are supported to enact the advice. When a healthcare provider’s advice conflicts with patient’s expectations about what they might be told about their recovery, it can adversely affect communications (Hardavella et al. 2017) and potentially compliance.
Prior studies indicate that community members have some understanding of active recovery for SC (i.e. that a period of rest should be followed by gradual return to activity), and thus they may have some expectation that they could receive such advice (e.g. Sullivan and Cox 2019). However, these findings are from studies about activity plans postconcussion. By comparison, unless community volunteers are probed specifically about activity plans, they do not commonly propose active recovery for SC (Singaravelu 2022). For example, when 224 community members were asked for concussion recovery recommendations, rest was mentioned by 70% of the sample, medical referral by a third of the sample, and active recovery by less than 10% of the sample (Singaravelu 2022). Even in the studies framed around postconcussion activity plans, some gaps in community understanding of active recovery are evident (Sullivan and Finnis 2020) and rest duration is overestimated by the public compared to current advice (Sullivan and Billing 2019; Sullivan and Cox 2019). It remains unclear from this past research if members of the community would offer different concussion advice if given different timeframes to consider (e.g. immediate versus subacute). The current SC guidelines are time-sensitive, but it is unclear if the public has an awareness of this aspect of concussion care.
A study of community views about SC recovery could inform decisions about how to implement the new advice with patients. If the public is not sufficiently aware of the new advice, it could contradict or challenge their expectations about such advice, including if they had previously been told to take prolonged or strict rest for SC. Additional patient education could be needed to explain why prolonged (>48 h) strict rest is no longer best for SC. Despite the many challenges of patient adherence, a key requirement is that people need to know and understand what they need to do for their recovery (Martin et al. 2005), and this advice is most effectively communicated when it fits with patient expectations (Hardavella et al. 2017). The current study used a mixed methods approach to explore existing community views about SC recovery, and to extend the past research by determining whether these views are time-sensitive.
Materials and methods
Participants
This study was part of a larger SC study approved by the University’s Human Research Ethics Committee (approval no.: 5567). A convenience sample of 182 community members was recruited via word of mouth, email, and website posts at the host university, including advertisement to a first-year psychology research participation pool. Eligible participants were aged 18 years or over, completed more than 50% of the survey, and returned a valid protocol. Twenty-five records were removed due to significant (>50%) missing data (n = 21) or failure on more than one inbuilt validity check (n = 4), leaving a sample of 157 people.
Measures
The data for this study were gathered through an open-ended item/s administered in an online SC survey (Qualtrics CoreXM, Qualtrics, Provo, UT, USA). The survey included questions about the respondents’ background (e.g. education and self-reported concussion history) and their views about the actions to take if someone is concussed. Specifically, participants were asked to: List three things you would recommend to someone who has just had a concussion to help with their recovery (hereafter referred to as immediate advice). A second question asked: Now, list three things you would recommend to someone who had a concussion more than 2 weeks ago to help with their recovery (hereafter referred to as subacute advice).
Procedure
The participants entered the study via the promotional materials (e.g. by clicking an embedded link, scanning a QR code, or pasting the study URL from an email into their web browser). They were provided the study information and asked to register their consent to participate via a yes/no radio-button. Non-consenting persons were thanked for their interest and exited from the study. Consenting participants then completed a mix of fixed response (e.g. Likert-type scale) or open-ended (free text) survey questions. At the survey conclusion the participants either chose to exit the survey directly, or to exit the survey after providing their contact information in a separate survey for token administration and/or to receive a summary of the study results. Two tokens of thanks were offered (i.e. prize draw entry to win a small gift voucher, or the awarding of a small amount of academic course credit if applicable).
Data analysis
The qualitative data were analysed using content analysis (Bengtsson 2016; Erlingsson and Brysiewicz 2017; Kleinheksel et al. 2020). As per precedent (Bengtsson 2016; Erlingsson and Brysiewicz 2017; Kleinheksel et al. 2020), manifest analysis and a deductive coding system was used to categorise the advice offered by participants. First, the responses were read to gain a sense of the information. Next, the responses were broken into elements, coded, categorised, and used to identify themes. Coded responses were also counted. If the same point was raised twice in the response, such as see a doctor and seek medical advice, it was coded once (seek medical advice). In a recontextualisation phase (Bengtsson 2016), it was confirmed that all the data fit into the coded categories, except for a handful of undecipherable responses (see below). The themes were arbitrarily grouped as commonly, somewhat commonly, or uncommonly expressed, based on code volume. For example, if at least 20% of the coded responses were considered representative of a theme, that theme was classed as commonly expressed, whereas if fewer than 10% of the coded responses were representative of a theme, it was considered uncommonly expressed. The themes were then appraised according to recognised advice drawn from synthesised practice guidelines for mild TBI prepared by the ACRM Brain Injury Interdisciplinary Special Interest Group Mild TBI Task Force (Silverberg et al. 2020), the CISG (Patricios et al. 2023), and the AIS’s Concussion and Brain Health Position Statement (Australian Institute of Sport 2023). The proportion of responses from each theme expressed in the immediate and post-acute advice timepoints was compared using a test of the differences in proportions (MedCalc Software Ltd, https://www.medcalc.org/).
Results
The sample characteristics are shown in Table 1. The average age of participants was 28.23 years (s.d. = 14.23; range = 18–69 years). More females than males participated (75:25), most were born in Australia (71%), and approximately half (52%) had some university education. People with (n = 44) and without (n = 113) a self-reported concussion history participated. While most participants resided in Queensland (~80%), all Australian states and territories were represented, except the Northern Territory. A subset of these participants (n = 90) provided the subacute advice.
Abstraction level | Element | Example | |
---|---|---|---|
Highest | Theme | Raise awareness of injury to others and monitor | |
Category | Monitor self and communicate change | ||
Code | Monitor health | ||
Condensed meaning unit | Take note of unusual symptoms | ||
Lowest | Meaning unit | ‘Take note and let Doctor know of any unusual symptoms.’ |
Adapted from Erlingsson and Brysiewicz (2017).
Immediate advice
Most participants (n = 123/157; 78%) offered three pieces of immediate advice as prompted, with a small number offering no (n = 4), one (n = 1), two (n = 12), four (n = 14), or five (n = 3) suggestions. The most mentioned immediate advice was rest (114 mentions, approximately one-third of the immediate advice), seek expert medical guidance (‘medical advice’, 85 mentions), and attend to safety/prevention (80 mentions; each accounting for approximately one-fifth of the immediate advice). The gradual return to activity (‘active recovery’) was the least mentioned advice for this time point (13 mentions, approximately 3% of the immediate advice).
Subacute advice
Most participants (n = 61/90, 69%) offered three pieces of subacute advice as requested, with a small number offering no (or no new advice, n = 5), one (n = 4), two (n = 15), or four (n = 4) suggestions. The most mentioned subacute recommendation was seek expert medical guidance and safety/prevention (46 mentions each), and rest (42 mentions; each accounting for approximately one-fifth of the subacute advice). The gradual return to activity was featured in 11% of the subacute advice (24 mentions), representing a significant increase in the proportion of these mentions compared to the immediate advice, χ2(1) = 14.359, P < 0.05. The proportion of comments about rest also reduced as a proportion of the subacute advice, compared to as a proportion of the immediate advice, χ2(1) = 7.211, P < 0.05. These data are graphed in Fig. 1.
Themes
The coded responses fell into seven main themes, leaving a handful of responses (n = 14 across both timeframes) that were undecipherable due to being incomplete, ambiguous, or too general (e.g. ‘avoid any head constraining activities’ or ‘evidence-based advice’). Following Erlingsson and Brysiewicz (2017), Table 2 shows an example of how the analysis proceeded from manifest to latent content and theme identification (highest level of abstraction).
Demographic variables | N | % A | |
---|---|---|---|
Gender | |||
Male | 39 | 25 | |
Female | 118 | 75 | |
Other | 0 | 0 | |
Highest level of completed education | |||
Some high/secondary school | 2 | 1 | |
Completed high/secondary school | 59 | 38 | |
Non-university post-school qualification B | 15 | 10 | |
Undergraduate (3 or 4 year) degree | 46 | 29 | |
Postgraduate degree | 35 | 22 | |
Born in Australia | |||
Yes | 111 | 71 | |
No C | 46 | 29 | |
No. of past concussion/s | |||
None | 113 | 72 | |
1 | 27 | 17 | |
2 | 10 | 6 | |
3 | 3 | 2 | |
>3 | 4 | 3 | |
Cause of most recent prior injury | |||
Trip or fall | 23 | 15 | |
Playing sport | 15 | 10 | |
Assault | 3 | 2 | |
Motor vehicle incident | 3 | 2 | |
Self-reported concussion education/training D | |||
Yes | 49 | 31 | |
No | 108 | 69 |
This commonly expressed theme was represented in comments for both timepoints. In its simplest form and most often, it was stated as ‘rest’. Other comments advised environmental adjustments (e.g. low-noise or low-light environments), and adaptations to work or routine (e.g. ‘no screen time’ or ‘don’t go on your phone’). Some responses qualified that the rest should cover several domains (e.g. ‘rest … physically and mentally’ or ‘mentally remove yourself from demanding tasks in the first few days’ or ‘avoid watching TV and all mental stimulation’), and a handful specified ‘bed rest’. In the subacute phase, rest was sometimes qualified with statements such as ‘when necessary’, or until ‘100% better’. Non-strict rest is recommended in all three guidelines, especially up to 48 h postinjury (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023). Rest in the new guidelines is not synonymous with bed rest, but activity levels should be reduced or reconsidered under certain circumstances (e.g. if increased activity leads to more than mild, brief symptom exacerbation; Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023).
A commonly expressed theme at both timepoints was to seek and follow medical assessment (via presentation to the ‘hospital’, ‘doctor’, or emergency room), and that specialist assessments (especially [brain] ‘scans’) could be needed. While most responses were simply framed as ‘seek medical advice’ or ‘go to the doctor’, some participants linked their advice to specific circumstances, such as determining safe return to play or, contingent on ongoing symptoms. Some participants explained their reasoning for this advice; for example, one participant wrote: ‘asking for medical advice to see how bad the concussion is’ and another participant wrote: ‘ensure … all necessary tests [are] done to rule out further life-threatening injuries’. This theme is consistent with advice in all three guidelines (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023).
A commonly expressed theme was about actions to avoid worsening the injury or prevent re-injury (e.g. removal from contact sport), ensuring general safety (no operation of vehicles), and supporting assessment (keeping the injured person awake). It included actions such as wearing a helmet and avoiding symptom-triggering situations. Some examples of comments offered in this theme were: ‘avoid vigorous activities in the short term’, ‘avoid further knocks’, ‘staying away from anything that would risk any sort of exacerbation of the concussion for at least the next 2 weeks’, ‘avoid sleeping for the first couple of hours after [the injury]’. This theme is consistent with advice in all three guidelines to take actions that prioritise immediate safety, including by preventing playing when injured (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023). However, some of the specific suggestions from community members within this theme (such as helmet usage for concussion prevention or keeping people awake) are not endorsed or specifically identified in all guidelines (Australian Institute of Sport 2023; Patricios et al. 2023).
This somewhat commonly expressed theme was evident across both timepoints. It emphasised general health or first aid advice (such as taking a healthy diet, keeping hydrated, getting sufficient sleep, or use of non-prescription pain relief medication). For example, one participant described this as ensuring ‘hydration and proper health behaviours (sleep, nutritious diet etc.)’. Some respondents explained their belief that such behaviours benefit ‘brain functioning’ or facilitate healing (‘the brain recovers during sleep’). This theme was not obviously expressed in the guidelines (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023), although medication for the management of specific, ongoing symptoms is recommended (Silverberg et al. 2020).
This relatively uncommonly expressed theme raised the idea that monitoring of the injury effects would be important, both in the short- and longer-term. The comments suggested that the injured person should remain attentive to changes in their health or functioning (e.g. ‘listen to your body [for changes]’), and report symptoms (e.g. ‘do not “push through” symptoms’), and that the injured person should be supervised by another person in the period immediately following the injury (e.g. ‘Have someone monitor [the injured person] closely’). This theme is consistent with several recommendations in the guidelines which discuss the idea of symptom monitoring via the use of formal symptom reporting tools, and how this information should feed into adjusted injury management (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023).
This theme was relatively uncommonly expressed, especially as immediate advice. As subacute advice, it featured more often. People recommended ‘walking’ or ‘gentle exercise’, or ‘work[ing] on coordination and reflexes’, and the idea of a graduated return to activity was explained as follows: ‘gradually ease back into play (don’t go all out straight away)’ or ‘gradually return to your daily routine’ or ‘start slowly resuming … normal routine, start going back to work/uni/school’. All guidelines now recommend low intensity activity, commencing as soon as 48-h postinjury with daily increases, if tolerated (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023).
This theme was uncommonly expressed (low code volume), but clearly distinct from other concepts. This theme featured as a component of both immediate and subacute advice. Comments within this theme recommended attending to social or psychological functioning postinjury. Examples of these comments included advice to: ‘[enlist the] support of sporting team members and coaches’ or ‘get in touch with a mental health professional’ or ‘ensure they … are confident to play’. Some advice emphasised that recovery may take time and to be prepared for this (e.g. ‘give yourself plenty of time to recover’ or ‘think positive’). With some possible exceptions (see Discussion), this theme was not commonly or explicitly addressed in the guidelines (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023).
Discussion
This study aimed to determine community understanding of what people should do for concussion recovery. In a previous study (Singaravelu 2022), rest for SC was most commonly recommended by community members, seeking medical advice was identified by less than half of the sample, and active recovery was infrequently mentioned. While the present study replicates these findings to a large extent, it also shows that community advice for SC is time-sensitive (immediate and subacute advice differed) and that, compared to immediate advice, mention of active recovery was proportionally higher as subacute advice, and rest was proportionally lower. Despite this, some of the SC advice that the community offered, and could expect if injured, was not explicitly recommended in the guidelines, and some strategies from the guidelines may need further public promotion (e.g. expert assessment for SC, active recovery).
This study shows, for the first time, that community members do offer different SC advice when asked to make recommendations for different timepoints (i.e. immediate versus subacute). Although rest still featured highly in the subacute period (and it could be indicated for some individuals in this period), very few respondents failed to adjust their advice for the different timepoints. This may indicate that community members are aware that SC management should change over time, and that immediate and subacute advice will likely emphasise different strategies (Patricios et al. 2023). Notably, compared to the immediate advice, ‘rest’ was a smaller component of the subacute advice and the gradual return to usual activities was mentioned more often, consistent with official directions (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023).
In most cases, the major themes identified in the present study were consistent with current SC advice, including in recently updated or synthesised guidelines (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023). An exception to this finding is that the theme of general health advice is not specifically articulated or endorsed in these guidelines (e.g. Australian Institute of Sport 2023; Patricios et al. 2023). The current SC guidelines refer to alcohol or drug use, or other factors identified in this theme such as sleep, but often in relation to diagnostic relevance (e.g. as a factor that is ‘concomitant’ (Patricios et al. 2023) or ‘confounding’ (Silverberg et al. 2020)) as opposed to recovery. It seems that the community responses indicate general injury (non-concussion) advice, which may be appropriate or expected from a non-specialist audience, but it could also signal an opportunity to direct public concussion education campaigns in ways that can improve this advice and support stronger alignment with injury-specific advice (e.g. expert clinical assessment is needed).
In another possible departure from current formal SC advice, this study identified a social/psychological support theme, as a component of the public’s advice for SC. Such advice is not a clear, or top-level, recommendation in all current SC guidelines (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023), although there are some relevant statements about it. For example, the CISG recommends consideration of mental health screening and prior psychological health (Patricios et al. 2023), primarily to support diagnosis. However, the ACRM recommendation to provide education/advice for the patient/family (including setting ‘favorable expectations for recovery’ (Silverberg et al. 2020, p. 389), and the AIS statement that ‘education of both athlete and their support network is crucial as part of this rehabilitation and graduated return to sport process’ (Australian Institute of Sport 2023, p. 27), do connect with this theme. Some community members identified a psychological or social dimension for SC care and may expect consideration of this should they require such care. It seems likely that not all providers will address this functional aspect, as it may depend on the guidelines they follow. The beneficial role of psychosocial factors (e.g. social support) in the SC recovery process due to the emotional challenges of recovery has been observed in some studies (McGuckin et al. 2016; Wayment and Huffman 2020). It might be worthwhile for providers to draw from such evidence when providing SC management advice.
A key study finding is that the SC advice offered by the community was time-sensitive (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023). However, rest for SC was still a prominent theme in the subacute period in this sample. According to current guidelines, rest should be reduced in the subacute period, typically giving way to active recovery. Further, the concept of ‘bed rest’ for SC recovery was proposed by some participants, but this is not endorsed in current guidelines. These findings suggest that the concept of ‘relative rest’ as promoted in recent guidelines (Silverberg et al. 2020; Australian Institute of Sport 2023; Patricios et al. 2023) would benefit from further public promotion to grow community awareness of it as core component of SC care. This would ensure that members of the public who need SC advice will be primed to expect active recovery advice.
This study has several limitations. First, some themes were challenging to distinguish from others, especially the idea of rest (reducing activity), presumably for recovery, versus the idea of avoiding or stopping activities, which could be for safety or re-injury prevention reasons (such as stopping contact sports). There could be some unreliability in these specific coded responses and thus identification of themes. These were identified by one author, and future studies could use additional coder/s for cross-checking. However, the coding difficulty likely reflects some conceptual overlap in these concepts and the known challenge of defining ‘rest’ for SC (Sullivan et al. 2012), including whether rest is achieved by increasing restorative activities or reducing energy-depleting activities or both (Bernhofer 2016; Rydstedt and Johnsen 2019). Second, three published guidelines were used to provide an indication of gold standard SC advice, but they should not be regarded as fully independent. For example, there is overlap in the authorship of some guidelines, and the AIS guidelines reference CISG statements (McCrory et al. 2017; Australian Institute of Sport 2023). Third, this study had a relatively small sample, obtained through convenience sampling, and the survey was not tested for readability. This study recruited members of the community, but it does not reflect the views of the wider community. The sample had a relatively narrow demographic range (e.g. overrepresentation of women and people with university education), and the views expressed by these participants may not be replicated in a larger or more representative sample. Fourth, this paper is a cross-sectional survey, so comments about change in understanding of SC advice, and awareness of active recovery specifically, must be understood as relative to the timepoints in this study. A longitudinal study is needed to empirically address the question of change in public understanding of SC management. Finally, this paper has discussed typical SC management advice including timeframes, but this advice will not suit all concussed individuals and is not appropriate for all circumstances.
In conclusion, this study found that members of the public have an understanding that SC advice is time-sensitive, and they offered different recommendations about SC care depending on the timepoint (immediate or subacute advice). Most of the SC recovery advice suggested by the participants in this study fell into themes that aligned with the formal advice, but the rest period was overestimated. Some specific exceptions were that general health advice and psychological and social supports were suggested by community members as important for SC recovery, whereas these factors are not featured as top-level advice in all current SC guidelines. Similarly, expert clinical assessment is identified as key in the guidelines, but it was not proposed by all respondents. Public education fact sheets and clinical services could specifically target these ‘gaps’; for example, explaining why bed rest is no longer recommended for SC, clarifying the meaning and timing of relative rest/active recovery, encouraging specialist injury assessment, and providing guidance for psychological and social support. Future studies could examine if such changes support more people to engage in correct SC recovery. Additionally, future research could investigate if the findings from this study are replicated in different sub-populations, including those with heightened injury exposure (e.g. contact sport players). Importantly, there appears to be a growing community awareness that an injured person may need to rest first, then engage in active recovery for SC, but there is still a strong need to grow community awareness that one of the first steps should be expert clinical injury evaluation.
Data availability
The data that support this study will be shared upon reasonable request to the corresponding author.
Declaration of funding
This research received no specific grant from any funding agency, commercial or not-for-profit sectors.
Ethics standard
The authors assert that all procedures contributing to this work comply with the ethical standards of the relevant national and institutional committees on human experimentation and with the Helsinki Declaration of 1975, as revised in 2008. This study was approved by the University’s Human Research Ethics Committee [approval number: 5567].
Author contributions
K. S. was involved in study design, ethics submissions, data collection, data analysis and drafting of the manuscript. K. S. J. was involved in the study design and contributed to the writing of the manuscript.
References
Arbogast KB, Curry AE, Pfeiffer MR, et al. (2016) Point of health care entry for youth with concussion within a large pediatric care network. JAMA Pediatrics 170, e160294.
| Crossref | Google Scholar | PubMed |
Bengtsson M (2016) How to plan and perform a qualitative study using content analysis. NursingPlus Open 2, 8-14.
| Crossref | Google Scholar |
Bernhofer EI (2016) Investigating the concept of rest for research and practice. Journal of Advanced Nursing 72, 1012-1022.
| Crossref | Google Scholar | PubMed |
D’Lauro C, Johnson BR, McGinty G, et al. (2018) Reconsidering return-to-play times: a broader perspective on concussion recovery. Orthopaedic Journal of Sports Medicine 6, 2325967118760854.
| Crossref | Google Scholar | PubMed |
Ellis MJ, Ritchie L, Selci E, et al. (2017) Googling concussion care in the USA: a critical appraisal of online concussion healthcare providers. Concussion 2, Cnc33.
| Crossref | Google Scholar |
Erlingsson C, Brysiewicz P (2017) A hands-on guide to doing content analysis. African Journal of Emergency Medicine 7, 93-99.
| Crossref | Google Scholar | PubMed |
Haider MN, Bezherano I, Wertheimer A, et al. (2021) Exercise for sport-related concussion and persistent postconcussive symptoms. Sports Health 13, 154-160.
| Crossref | Google Scholar | PubMed |
Hardavella G, Aamli-Gaagnat A, Frille A, et al. (2017) Top tips to deal with challenging situations: doctor-patient interactions. Breathe 13, 129-135.
| Crossref | Google Scholar | PubMed |
Kleinheksel AJ, Rockich-Winston N, Tawfik H, et al. (2020) Demystifying Content Analysis. The American Journal of Pharmaceutical Education 84, 7113.
| Crossref | Google Scholar | PubMed |
Kontos AP, Eagle SR, Braithwaite R, et al. (2023) The effects of rest on concussion symptom resolution and recovery time: a meta-analytic review and subgroup analysis of 4329 patients. The American Journal of Sports Medicine 51, 03635465221150214.
| Crossref | Google Scholar | PubMed |
Kroshus E, Lowry SJ, Garrett K, et al. (2021) Development of a scale to measure expected concussion reporting behavior. Injury Epidemiology 8, 70.
| Crossref | Google Scholar | PubMed |
Leddy JJ, Wilber CG, Willer BS (2018) Active recovery from concussion. Current Opinion in Neurology 31, 681-686.
| Crossref | Google Scholar | PubMed |
Maas AIR, Menon DK, Manley GT, et al. (2022) Traumatic brain injury: progress and challenges in prevention, clinical care, and research. The Lancet Neurology 21, 1004-1060.
| Crossref | Google Scholar | PubMed |
Macnow T, Curran T, Tolliday C, Martin K, McCarthy M, Ayturk D, Babu KM, Mannix R (2021) Effect of Screen Time on Recovery From Concussion. JAMA Pediatrics 175(11), 1124-1131.
| Crossref | Google Scholar |
Martin LR, Williams SL, Haskard KB, et al. (2005) The challenge of patient adherence. Therapeutics and Clinical Risk Management 1, 189-199.
| Google Scholar | PubMed |
McCrory P, Meeuwisse W, Dvorak J, et al. (2017) Consensus statement on concussion in sport–the 5th international conference on concussion in sport held in Berlin, October 2016. British Journal of Sports Medicine 51, 838-847.
| Crossref | Google Scholar | PubMed |
McGuckin ME, Law B, McAuliffe J, et al. (2016) Social Influences on Return to Play Following Concussion in Female Competitive Youth Ice Hockey Players. Journal of Sport Behavior 39, 426-445.
| Google Scholar |
Mohammed FN, Master CL, Arbogast KB, et al. (2023) Disparities in adherence to concussion clinical care recommendations in a pediatric population. Journal of Head Trauma Rehabilitation 38, 147-155.
| Crossref | Google Scholar | PubMed |
Moor HM, Eisenhauer RC, Killian KD, et al. (2015) The relationship between adherence behaviors and recovery time in adolescents after a sports-related concussion: an observational study. International Journal of Sports Physical Therapy 10, 225-233.
| Google Scholar | PubMed |
Neidecker JM, Gealt DB, Lambert K, et al. (2021) First-time sports-related concussion recovery revisited: management changes and impact on recovery. Journal of Osteopathic Medicine 121, 49-56.
| Crossref | Google Scholar | PubMed |
Patricios JS, Schneider KJ, Dvorak J, et al. (2023) Consensus statement on concussion in sport: the 6th International Conference on Concussion in Sport–Amsterdam, October 2022. British Journal of Sports Medicine 57, 695-711.
| Crossref | Google Scholar | PubMed |
Rydstedt LW, Johnsen SÅK (2019) Towards an integration of recovery and restoration theories. Heliyon 5, e02023.
| Crossref | Google Scholar | PubMed |
Salmon DM, Badenhorst M, Falvey É, et al. (2022) Time to expand the circle of care – general practitioners’ experiences of managing concussion in the community. Journal of Sports Sciences 40, 2102-2117.
| Crossref | Google Scholar | PubMed |
Schneider KJ, Patricios JS, Echemendia RJ, et al. (2022) Concussion in sport: the consensus process continues. British Journal of Sports Medicine 56, 1059.
| Crossref | Google Scholar | PubMed |
Silverberg ND, Iverson GL (2013) Is rest after concussion “the best medicine?”: recommendations for activity resumption following concussion in athletes, civilians, and military service members. Journal of Head Trauma Rehabilitation 28, 250-259.
| Crossref | Google Scholar | PubMed |
Silverberg ND, Iaccarino MA, Panenka WJ, et al. (2020) Management of concussion and mild traumatic brain injury: a synthesis of practice guidelines. Archives of Physical Medicine and Rehabilitation 101, 382-393.
| Crossref | Google Scholar | PubMed |
Silverberg ND, Otamendi T, Panenka WJ, et al. (2021) De-implementing prolonged rest advice for concussion in primary care settings: a pilot stepped wedge cluster randomized trial. Journal of Head Trauma Rehabilitation 36, 79-86.
| Crossref | Google Scholar | PubMed |
Stoller J, Carson JD, Garel A, et al. (2014) Do family physicians, emergency department physicians, and pediatricians give consistent sport-related concussion management advice? Canadian Family Physician 60, 548.
| Google Scholar | PubMed |
Stuart C, Reid D, Theadom A, et al. (2022) Knowledge and management of sport-related concussion in primary care in New Zealand. The New Zealand Medical Journal 135, 31-41.
| Google Scholar | PubMed |
Sullivan KA, Billing L (2019) An experimental study of the effect on activity intentions of postconcussion recovery advice. Journal of Concussion 3, 205970021987267.
| Crossref | Google Scholar |
Sullivan KA, Cox R (2019) Prior head injury but not sex or sports-participation affects expectations for post-injury rest and activity in simulated mild traumatic brain injury. Applied Neuropsychology: Adult 26, 374-382.
| Crossref | Google Scholar | PubMed |
Sullivan KA, Finnis SJ (2020) An experimental study of two forms of concussion advice on planned physical activity. Brain Impairment 21, 19-31.
| Crossref | Google Scholar |
Sullivan SJ, Alla S, Lee H, et al. (2012) The understanding of the concept of ‘rest’ in the management of a sports concussion by physical therapy students: a descriptive study. Physical Therapy in Sport 13, 209-213.
| Crossref | Google Scholar | PubMed |
Wayment HA, Huffman AH (2020) Psychosocial experiences of concussed collegiate athletes: the role of emotional support in the recovery process. Journal of the American College of Health 68, 438-443.
| Crossref | Google Scholar | PubMed |
Yue JK, Krishnan N, Andrews JP, et al. (2023) Update on pediatric mild traumatic brain injury in rural and underserved regions: a global perspective. Journal of Clinical Medicine 12, 3309.
| Crossref | Google Scholar |