Go Play Outside! Effects of a risk-reframing tool on mothers’ tolerance for, and parenting practices associated with, children’s risky play: study protocol for a randomized controlled trial

Participant inclusion criteria include:

Participants will be recruited through advertising on online forums and social media, distributing notices through our networks, snowball sampling and posting notices in community centres.

Interested participants link to REDCap where they are provided with a comprehensive cover letter describing the study procedures and informing participants that completing the survey questions indicates consent. Once eligibility questions are answered, enrolled participants will be sent a link to the baseline questionnaire package to be completed in REDCap.

To promote participant retention and complete outcome data, a CDN$30 honorarium will be paid at baseline (T1) and CDN$15 at each follow-up (T2 and T3) as compensation for participation. Non-respondents will receive two email reminders to complete survey data. Participants attending in-person RR workshops are provided with an additional CDN$30 honorarium to compensate them for any expenses incurred in attending, such as travel or childcare.

The Tolerance for Risk in Play Scale (TRiPS) is our main study outcome. The TRiPS is scored on a logit scale and we know from previous data collection among parents of 5–13-year-old children that scores on the TRiPS range from 0.20 to about 1.95 with standard deviations in the range of 1.78 to 1.82 [45]. With a sample size of 81 mothers in each condition, a test that averaged the differences in TRiPS score from baseline to the first assessment will have 80% power at a 0.05 level of significance to detect a difference of 0.75 with the control condition when the standard deviation is 1.82 and the correlation between repeated observations is 0.75. From our previous work [46], we expect needing to complete baseline assessments among 501 mothers who will then be randomised into the three conditions. From our previous work [46], we are assuming a 65% retention rate at our first assessment (n = 325) and a 75% retention rate at our second assessment, which would result in a final sample of 244 mothers, corresponding to 81 in each condition.

We adapted Bundy and colleagues’ RR in-person workshop [21, 36] using social cognitive theory [41] to incorporate health behaviour-change techniques (BCT) [40] that were amenable to a stand-alone online platform that was efficient, taking little time to understand and use, and would not require repeated visits to the tool [47]. For example, the use of associations, and reward and threat were not deemed possible as they would require an external assessor and/or repeat visits to the tool. We sought to address common concerns about risky play and engage participants in self-reflection tasks to consider how these concepts applied to their parenting approach. The participant proceeds through three chapters, as outlined in Table 1. The tool takes 15–45 min to complete, depending on participants’ movement through each task. Table 1 also outlines the BCT and social cognitive theory constructs that correspond to each task. Not reflected in the table are the following social cognitive theory constructs: social support, normative beliefs, and reinforcement and punishment. Social support (along with BCT 3.3 Social support (emotional)) is being addressed via encouraging participants to share the digital tool with their co-parent and social networks to promote discussion and change. Related to this, sharing the digital tool with their network may help prompt a shift in normative beliefs about risky play among their peer group. Reinforcement and punishments are not addressed because the tool involves interaction at one time point and these constructs would emerge after mothers try to make changes. For example, a punishment could be that their child is injured while engaged in risky play; a reinforcement could be that their child seems more confident since having more opportunities for risky play. Additional file 2 includes a description of measures we are using to assess social cognitive theory constructs. Interested readers are also directed to Michie et al.’s [40] BCT taxonomy for descriptions of each BCT, and to Glanz et al. [48] for a full description of social cognitive theory’s application to health-behaviour change.

The RR in-person workshop is a 2-h, facilitator-guided discussion of the same tasks as outlined in Table 1 above. Participants are taken through each task using PowerPoint slides that include the videos from the digital tool. The facilitator guide contains detailed guidance on discussion for each component and length of time to be dedicated to each slide. Participants are provided with a paper booklet to complete that mimics the online tasks.

For this RCT, a professional facilitator will be running all the workshops to ensure consistency in delivery. She does not have any prior knowledge or expertise on the topic, nor will she be involved in collecting or analysing the data. This was a deliberate choice in order to test real-world conditions where organisations with little or no background knowledge may be running the workshop, and ensure that our materials are sufficient to account for this. The workshops will include 6–12 participants and will be run once the minimum number of participants are enrolled for a given session.

Participants in the control condition are presented with the Canadian Position Statement on Active Outdoor Play [43, 44]. The Position Statement is available at http://​stage.​participaction.​com/​sites/​default/​files/​downloads/​Participaction-PositionStatemen​t-ActiveOutdoorPla​y.​pdf. This four-page document summarises the issues and research regarding children’s access to outdoor play and provides recommendations for various stakeholders. It was developed by a cross-sectoral consortium of researchers, practitioners and stakeholders. It states that ‘Access to active play in nature and outdoors – with its risks – is essential for healthy child development’ and recommends increasing children’s opportunities for self-directed play in all settings [43, 44]. The Position Statement includes recommendations for parents, educators, health professionals, administrators and various levels of governments to address the barriers to children’s outdoor play. Recognising the role of widespread risk aversion in limiting play, the Position Statement addresses common misconceptions and encourages that danger be differentiated from risk and outdoor play and fun be valued as much as safety.

Participants will complete a questionnaire package at three time points: baseline (T1), 1 week post intervention (T2) and 3 months post intervention (T3). Long-term change is unlikely if participants do not make initial changes, thus, the 1-week follow-up was selected to assess short-term effectiveness, while still providing participants sufficient time to make their initial planned changes. The 3-month follow-up will assess long-term effectiveness once participants have had several months to reflect on the intervention and implement change.

Survey data will be collected and managed using REDCap. See Fig. 2, the Standard Protocol Items: Recommendations for Intervention Trials (SPIRIT) schedule, for an overview of the study schedule and measures.

Baseline data collection includes socio-demographic data: age, ethnicity, marital status, education, employment, home dwelling type, household income and number of children in the household. Participants will also complete measures to assess primary and secondary outcomes at each time point.

The primary outcome measure is increase in the total score on the Tolerance of Risk in Play Scale (TRiPS), a 31-item measure examining adults’ tolerance of risk during children’s play, which has been psychometrically validated [45]. The scale is based on Sandseter’s six-category model of risky play [9]. Goodness-of-fit statistics for TRiPS have been found to be in the acceptable range [45]. Examination of logical item hierarchy indicated that items that were relatively difficult to endorse (e.g. ‘Would you let the child play near the edge of steep cliffs?’) were located higher on the hierarchy than those that were easier to endorse (e.g. ‘Would you let the child play in the backyard supervised?’). The Person Separation Index was 2.63, indicating that the measure separated persons into more than two distinct groups, such as more and less risk tolerant. The Person Reliability Index was 0.87 indicating that the instrument was able to consistently differentiate between those scoring high versus low. Self-perceived risk tolerance was highly positively associated with scores on TRiPS, and the mean score increased with age of the child [45].

Adherence to the RR digital tool will be measured by examining the percentage of content viewed, time spent online and task completion [49]. Adherence to the in-person RR tool will be measured by examining workshop attendance and task completion. Further outcomes and measures are described in detail in Additional file 2. All measures that were created for this study can be seen in Additional file 3.

We will use multiple imputation to manage missing data and will report and justify our imputation strategies. Imputed data for multiple imputation will be analysed as part of a sensitivity analysis.

The latest version of R (R Foundation for Statistical Computing, Vienna, Austria) and Stata (StataCorp LLC, College Station, TX, USA) will be used for statistical analysis and graphics.