Abstract
Nurses and surgeons must identify and handle specialized instruments with high temporal and spatial precision. It is crucial that they are trained effectively. Traditional training methods include supervised practices and text-based study, which may expose patients to undue risk during practice procedures and lack motor/haptic training respectively. Tablet-based simulations have been proposed to mediate some of these limitations. We implemented a learning task that simulates surgical instrumentation nomenclature encountered by novice perioperative nurses. Learning was assessed following training in three distinct conditions: tablet-based simulations, text-based study, and real-world practice. Immediately following a 30-minute training period, instrument identification was performed with comparable accuracy and response times following tablet-based versus text-based training, with both being inferior to real-world practice. Following a week without practice, response times were equivalent between real-world and tablet-based practice. While tablet-based training does not achieve equivalent results in instrument identification accuracy as real-world practice, more practice repetitions in simulated environments may help reduce performance decline. This project has established a technological framework to assess how we can implement simulated educational environments in a maximally beneficial manner.
Highlights
Designing training protocols that effectively prepare people for rare or dangerous situations is not a trivial task
In order to accurately assess the current methodologies available in the field, we modeled training protocols in both selfguided training environments on educational tools that are currently commercially available and marketed for the training of perioperative nurses [4, 15]
Tablet-based simulated training media are being increasingly incorporated into the education curriculum for healthcare providers, yet substantial evidence for their educational efficacy for complex ordered procedures is still lacking
Summary
Designing training protocols that effectively prepare people for rare or dangerous situations is not a trivial task. While simulated environments have been implemented with great success in multiple training situations—semi-realistic multisensory simulations have been in use for nearly fifty years [see 6 for review]—and are demonstrated to be highly effective as educational tools in the medical profession [7,8,9,10], the generalizability of skills from tablet-based learning platforms remains unknown. They lack a history of implementation and evaluation— those utilized in perioperative nursing education [see 11 for review]. This highlights a vital need to assess the utility of tablet-based training tools, those, involving low-fidelity simulation (e.g., tablet-based procedure simulations), which are applied as educational tools for complex, high-risk procedures
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