Cardiopulmonary Resuscitation Clinical Trial
Official title:
Does Contextual Interference Improve Retention of Basic Life Support Skills? A Randomized Controlled Trial
The current method of teaching Basic Life Support (BLS) courses involves a practice schedule where learners rotate through each station once, without repetition. Laypeople learning within this blocked schedule may experience poor skill retention, resulting in suboptimal delivery of Cardiopulmonary Resuscitation (CPR). Implementing a Contextual Interference (CI) practice scheduling method to BLS training would involve presenting each station multiple times within the same timeframe. CI is known to lead to better retention in other domains, such as sport and engineering. Our project will test the effect of CI on the long-term retention of BLS skills. We hypothesize that participants trained in BLS using CI techniques will have superior skill retention at 3 months compared to those trained with the conventional BLS course.
Current BLS courses deliver a curriculum in which learners go through several basic stations
in a sequence organized by the American Heart Association (AHA). Learners spend a fixed
amount of time at each station, once, thus switching task as many times as the number of
stations. This blocked practice design is easy to implement and manage and could also be a
contributing factor to the poor retention of BLS skills in laypeople (11). In the next three
paragraphs, we highlight why contextual interference is beneficial for skill retention, how
contextual interference can be beneficial for medical skills training and why the benefits of
contextual interference are particularly relevant for BLS training.
Contextual interference (CI) is a practice scheduling method that involves presenting skills
(or stations) in a sequential or random order. Each skill or station is presented multiple
times during a learning session (i.e., performing for a shorter duration at each station, but
returning multiple times). Both random and sequential order schedules can yield comparable
learning benefits (19). With a CI practice schedule, skills are partially forgotten while
learners are practicing other skills. As a result, the learner must actively recall each
skill multiple times. These repeated memory retrieval processes facilitate better retention
after CI practice, compared to a blocked practice schedule (19). A simple analogy can be made
with learning multiplication tables: once one has tried 7 times 9, the exercise is not as
beneficial for learning if one tried 7 times 9 again on the next trial. Having to retrieve
information multiple times with other skills (or time) between trials maximizes long-term
skill retention (19). CI is also beneficial when practiced skills are distinct from each
other (12). Because many skills are being processed at the same time, the learner must create
distinctive memories for each skill. Altogether, the repeated recalls and contrasts involved
in CI may have a negative effect on immediate performance (i.e. immediate testing), but
typically have a positive effect on long-term learning (i.e. retention) (13). More relevant
to this project, the positive effects of CI extend from the motor to the verbal-cognitive
domain and have been replicated with various skills levels and learner age groups (14).
Contextual interference has been shown to improve long-term learning among engineers in
training of troubleshooting skills (15). Although well studied in sport and other areas
outside healthcare, CI has been less well studied in medical education with only a few
studies on surgical procedural tasks. Not all implementations of contextual interference have
yielded better skill retention and transfer compared to blocked practice (16, 17). In this
project, contextual interference will be carefully tested for BLS training by optimizing
subtask transitions. In surgical procedures, for instance, CI studies have involved breaking
a complex sequential task or procedure into subtasks and implementing CI practice with
arbitrarily organized subtasks. An issue with that approach is that learners miss the
opportunity to practice the transition from one subtask to another, which can hinder
learning. Conversely, BLS skills stations are distinct from each other, technically simple,
and do not require complex transitions between skills.
The last but not least relevant factor is that BLS requires transferring the skill into an
unpracticed context (13). While orthopedic surgery is learned and performed in fairly
comparable and repeatable conditions, BLS is learned in a classroom but needs to be
transferred wherever a cardiac arrest takes place. Because contextual interference not only
favours better retention but also better transfer to new situations (20), it is imperative to
test if such a practice can lead to better BLS skill retention and transferability than
conventional blocked practice schedules.
The proposed study will compare skill retention among a group of laypeople being taught BLS
using the current standard teaching program compared to those exposed to a CI based program.
We hypothesize that participants trained in BLS using a contextual interference practice
schedule will have superior skill retention at a retention post-test, 3 months after
training, compared to the standard blocked practice schedule employed in current BLS training
sessions. This study will be a single-blinded randomized controlled trial. Ethical approval
will be obtained from the Ottawa Health Science Research Ethics Board prior to recruitment.
Written informed consent and a confidentiality agreement will be obtained from all
participants.
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