Publications and Resources

Introduction Canada’s skilled trades shortage has negatively impacted organizations and consumers and has cost billions of dollars from healthcare expenditure and productivity loss. This issue is compounded by the high risk of disabling injury to workers in the skilled trades, particularly apprentices. While occupational health and safety (OHS) training may improve health and safety outcomes in theory, we must emphasize the appropriate delivery of OHS content to better suit skilled trades apprentices. It may be possible to maximize the impact of OHS training by first understanding how apprentices perceive their current training. The findings presented in this study improves on the current understanding of the potential links between a skilled trades apprentice’s perceptions and preferences of their OHS training, and their injury outcomes. Through effective delivery of OHS training, including considerations of apprentice preferences, we may be able to maximize the retention of health and safety information and contribute towards the development of a safer workforce. Objectives We aim to explore the relationships between a skilled trades apprentice's perception of their OHS knowledge and their self-reported physical and cognitive demands. This report also aims to explore the relationship between a skilled trades apprentice's self-reported functional limitations and their knowledge acquisition. Finally, we seek a better understanding of an apprentice’s preferred delivery method when learning about OHS. Key Findings An apprentice with a lower self-perception of their OHS knowledge was also more likely to report a negative OHS outcome. Inexperienced apprentices that have a lower self perceived knowledge in their OHS training were also more likely to report that they had sustained an injury over a 12-month period. There were also relationships between an apprentice’s self-perceived knowledge of health and safety, and the self-reporting of feeling burned out and overwhelmed. The program release type, age, and level of an apprentice influenced their perceived OHS confidence and subsequent relationship with injury and pain self reporting. Day release apprentices were 1.5 times more likely to self-report an injury, while younger apprentices perceived themselves as more confident than older apprentices but were twice as likely to self-report an injury. Older apprentices, while less likely to self-report an injury, were 1.24 times more likely to report non-injury related body pain. There was a greater self-reporting of cognitive functional limitations compared to physical functional limitations (e.g. walking). While apprentices with these functional limitations overall perceived that they were unaffected by them, trends indicated that these apprentices perceived themselves as less likely to be able to manage their own safety, and the safety of their coworkers. This may indicate that apprentices with functional limitations may not be fully aware of the underlying impacts of their functional limitations on their work ability, including their ability to implement their OHS training. Hands-on training was overwhelmingly preferred by apprentices as a means of improving the retention of information and improving the situational awareness that would otherwise be underdeveloped through traditional classroom lectures. A combination of receiving foundational OHS training through their apprenticeship training and workplace specific OHS training from the employer may improve an apprentice’s ability to identify and manage OHS hazards. Practical Implications We may be able to improve an apprentice’s OSH outcomes by improving their confidence in their OSH training. However, a confident apprentice is not necessarily a safe apprentice, as that confidence must be proportional to their OHS knowledge. Apprentices will benefit from receiving hands-on OHS training that is directly aligned with the most relevant workplace hazards. This requires that the apprentice receive not only foundational OHS knowledge in the classroom, but also more specific, situationally relevant training from their employer. If implemented correctly, OHS training may facilitate a reduction in workplace injuries and MSD development through the application of well-retained and relevant OHS knowledge.

Background and Objective Injuries and illnesses among skilled trades professions accounted for over 25% of all workers’ compensation claims in Ontario between 2015 and 2020. Ensuring that skilled trade professionals are equipped with the relevant occupational safety and health (OSH) knowledge, skills, and abilities is critical in mitigating occupational risks and reducing injuries. Low engagement during OSH training has been the primary reason for low retention of OSH-related knowledge; thus, skilled trade professionals and trainees must receive effective and engaging OSH training to ensure that the knowledge is learned, retained, and applied. Experiential learning technologies (ELTs) (e.g., immersive virtual reality (VR) experiences, simulators, and interactive and serious games) can increase engagement, and knowledge and skills retention when compared to traditional classroom PowerPoint lectures. Given that ELTs may be a powerful tool for teaching OSH, we aim to build an ELT toolbox to support OSH training in the skilled trades. As a first step in developing an ELT toolbox, we conducted an environmental scan to better understand the existing OSH-related ELTs that are commercially available for trainees and professionals working in the skilled trades. Methods A systematic web-based search was performed to obtain existing commercially available OSH-related ELTs for the skilled trades; snowballing technique was applied to identify additional results. Key information was extracted from each relevant ELT, including the description of the ELT and its intended occupation, the tasks performed in the ELT, and the OSH topics taught. Software developers who only offered customized ELT solutions were also documented. Key Findings ➢ 288 off-the-shelf OSH-related ELTs for skilled trade occupations were identified. Over 50 complimentary ELTs (nearly 20%) can be delivered via highly accessible platforms such as desktops or smartphones. ➢ 85 unique off-the-shelf ELT developers/distributors were identified. 65% of the off-the-shelf ELT developers’/distributors’ headquarters were in the USA; 11% were in Canada. More ELTs need to be developed in Canada or have options to be customized to Canadian safety laws and regulations. ➢ 10 different types of delivery mechanisms for OSH-related ELTs emerged. Most of the ELTs are delivered through VR headsets, meaning that, if trainees have access to a VR headset, they can access a vast library of OSH-related ELTs. ➢ 96 unique topic areas were identified. Thirteen topics were relevant to general skilled trades, 3 were relevant to the service sector, 3 for the automotive sector, 32 for the industrial sector, and 45 for the construction sector. Many of the ELTs identified were relevant to acute injury prevention while few focused on the chronic and long-term consequences of hazardous exposures. ELTs designed for trade-specific occupations (n=192) often focused on the safe work processes and practices of a given task (e.g., painting, welding, machine operations, gas leak inspection) with the integration of OSH concepts. ➢ 42 software developers who only offered customized ELT solutions were identified.