Virtual patients as activities: exploring the research implications of an activity theoretical stance

Computer-based simulations of patient encounters have been a focus of interest in the medical education literature for some time [1, 2], often but not always under the label of ‘virtual patients’ [3, 4]. Some have sought to define or typify virtual patients and their many varieties [5]; others have explored how they should be designed and built [6, 7], and others have described how they can be used in particular curriculum contexts [8, 9]. A systematic review by Cook and Triola in 2009 concluded that ‘virtual patients should be designed and used to promote clinical reasoning skills’ [10]. An assumption more or less explicit in much of this work is that a virtual patient is an intervention, a catalyst that causally affords different or improved educational outcomes. This tends to equate the design of virtual patients to the design of the activities in which they will be used with most if not all of the activity encoded in the virtual patient itself.

The perspective that I explore in this paper is that educational value is realized through using tools and techniques in ways that are not defined solely by their design characteristics. I argue that we should therefore consider virtual patients in the broader context of the educational activities in which they are used, rather than as self-contained educational artifacts. This has implications for different dimensions of scholarship including original research, research synthesis, translational research, and the evaluation of teaching and learning processes [11]. Given the focus on activity as an organizing principle I draw on aspects of activity theory to create a model to guide and connect different approaches to scholarship in and around the use of virtual patients in educational activities.

The key concept in considering how educational artifacts (such as virtual patients) are used is the activity or activities constructed and performed around them. An activity consists of the specific actions and motivations of the participants engaged in a particular procedure in a particular place and time. While technical artifacts and the data they generate are concrete and easily observable, human activities are often less so, at least without some framework through which an activity can be understood. Activity theory developed as a body of thought focused on describing and understanding the complexities of human activity, and as such it provides a range of different perspectives and models that describe different aspects of what activity is and how it comes about. Different facets of activity theory can be applied to virtual patient activities to help us to understand what it is we should be paying attention to in and around them.

Leont’ev defined three levels within an activity; its overall objectives, the specific actions by which the broad objectives are to be addressed, and the stepwise operations that go to make up the actions [12]. Virtual patients have been described using this approach; the overall objectives of virtual patients (how they fit into a curriculum or programme of study), the actions constructed around the virtual patient (what teachers and learners do with and around them), and the operations needed to use the virtual patient (the clicks and key presses needed to make them run) [13]. In terms of scholarship these levels can equate to inquiry into why virtual patients are used, how they are used and how they work.

Engeström described activity systems where the subjects, objects and outcomes of an activity are bound to the mediating artifacts (tools and signs) that they employ and the sociocultural contexts in which they take place, in terms of the communities and individuals involved (both directly and indirectly), the rules by which these communities and individuals work, and the division of labour between them [14]. For example, a medical student (subject) may engage in a process of medical education (object) in order to qualify as a doctor (outcome). In doing so they engage with the curriculum, specific classes and sessions, as well as tools such as books, anatomical models, and simulators (mediating artifacts). This takes place in the context of a particular institution (community), various regulations (rules), and a distribution of responsibility and authority (division of labour).

Engeström also defined five principles of activity theory [15]: the design and orientation of activities around their object; the ways in which artifacts trigger actions; the relationships between specific actions and the activity as a whole; the ways in which contradictions and deviations change the activity; and the precedents and cultural norms the activity follows. Although there is much more to activity theory, and a full exposition is beyond the scope of this paper, these components have a particular relevance to the way we can understand virtual patient activities as they describe the structure of activities and activity systems, and the components within them.

A previous paper explored how Leont’ev’s three levels of activity could be applied to virtual patients, noting that the nature of scholarly inquiry will change depending on the level under consideration [13]. This model can be developed by expanding on Leont’ev’s concepts and by incorporating Engeström’s concepts of activity systems, in particular the mediating role of artifacts and the role of context in defining and shaping activities.

Engeström states that artifacts function as mediating objects within activities [15]. An artifact may take many forms, from the concrete (books, buildings, software) to the more abstract (curricula, competences, systems). Although different artifacts mediate actions within an activity in different ways, the common concern is how and to what extent artifacts elicit or trigger these actions. We can therefore consider the mediating role of virtual patients within the activities in which they are used and the ways in which they trigger certain actions either at the individual level (such as scaffolding, pacing or sequencing a learning activity) or at the group level (such as gathering individuals with differing perspectives and abilities and helping them to move towards a common goal).

Engeström is also concerned with the ways in which activities are constructed and shaped, at least in part by the social and cultural contexts within which they are situated. Mediating artifacts are also defined and shaped by the social and cultural contexts in which they are used; something that other research into educational technologies confirms [16]. From the perspective of virtual patients we can consider both the influence of sociocultural context within which a virtual patient is used (in terms of its culture, community, and rules), and the influence of the backgrounds and personalities of the participants involved in the virtual patient activity and the roles they undertake as part of the activity.

We can assimilate these five activity components (three from Leont’ev and two from Engeström) to create a model of the different approaches to scholarship that pertain to the efficacy and effectiveness of different virtual patient activities—see Fig. 1. Each of these five interconnected domains has different implications for research and evaluation.

There are many ways in which the approach and the framework I have set out could be used in practice. Recognizing this plurality, I provide the following as an illustration of these domains in action. These examples are based on a hypothetical study into a team-based learning activity that involves a class of second-year medical students alternating between short lectures as a whole group and small group virtual patient activities. The virtual patient component involves learners working in pairs to apply concepts and knowledge from the lecture to solve the problems presented by the virtual patient. Options for designing and conducting research into this virtual patient activity can be organized around the five domains set out in the previous section:

These approaches should not necessarily be used independently. Indeed, real world inquiry would be expected to draw on several domains to be able to say something meaningful about a particular situation. For instance, a study may relate activity design to objectives and outcomes while another may be based on relating participant roles to the actions they perform and the efficacy of different intersections between the two. Furthermore, research that draws on these domains (individually or in combination) may simply explore ‘what worked in this situation?’ or it could take a more design-based approach by asking ‘how should we design or change this situation to optimize its efficacy and efficiency?’

It would be unusual for an experienced medical educator to mistake a PBL case for a PBL activity, so it may be a particular quirk of virtual patients that they are so often mistaken for the activities in which they are used. However, it is arguable that this artifact-activity tension applies to many other educational technologies, such as social media, portfolios, smartphones, and virtual worlds. A framework derived from concepts in activity theory may therefore have a wider applicability, although more work would be needed to explore this.

I have selected certain aspects of activity theory to construct this framework based on their utility in describing different aspects of virtual patient activities. Activity theory is much larger and complex than I have been able to represent in this paper and it could be further explored to inform the scholarship of virtual patients. For instance, Engeström’s more recent work has explored the concept of ‘knots’, the ways in which loosely connected activities are dynamically linked and unlinked [15]. This perspective could be used to explore interactions and interdependencies between virtual patient, problem-based learning, and simulation activities. Activity theory is not the only theoretical stance that can relate to virtual patient activities. As an example, realist methods explore and explain different mechanisms that achieve certain outcomes in certain contexts [37] and could be used to explain ‘how’ virtual patients work as a precursor to, or in parallel to, studies that explore ‘if’ they work. Another field that has the potential to inform this area is design-based research [38] as virtual patients and the activities that make use of them have an intrinsic design component.

This paper is presented in the context of calls for more deliberate and robust use of theory in medical education research [39, 40], with a particular focus on the exploration and use of socio-cultural learning theories [41, 42], as a way of establishing what is and is not ‘good’ evidence to inform medical education scholarship [43]. Using multiple lenses to research and evaluate educational technologies can yield valuable insights that a single approach cannot access [44], and as such, a pluralistic approach to exploring and undertaking scholarship in and around virtual patients is, I argue, a critical response to those who simply ask whether or not virtual patients work. In making this assertion we should be clear that the framework I have set out is intended to help to expand and diversify the way we approach research and evaluation in and around virtual patients. It is also intended to make the relationships and dependencies between virtual patients and the activities in which they are used more explicit and tractable to scholarly inquiry. Although I have tended to focus on primary research, I hope that this framework will inform different kinds of scholarship including systematic and thematic reviews, translational research, and the systematic evaluation of teaching and learning systems.

We clearly need to move beyond the ‘works’/’not works’ discourse of much of the existing scholarship around virtual patients, and for that matter, around educational technologies as a whole. I have argued that we should not simply ask whether a virtual patient works any more than we would ask whether a PBL case works. It is the virtual patient activity that is the educational intervention or mechanism and as such it should be the main focus of our attention rather than the technological artifacts that are used within it. There is an emerging discourse around activity within the virtual patient literature [13, 20, 45] and this paper is presented in that context. Activity perspectives, and activity theory in particular, offer new horizons for research and evaluation that have the potential to address many of the limitations of an intervention-based paradigm. By using them we might at last be able to demonstrate and make use of the real value (be it high or low) of using virtual patients in medical education.