Serious Game Development for Public Health: Participatory Design Approach to COVID-19 Quarantine Policy Education.

Serious Game Development for Public Health: Participatory Design Approach to COVID-19 Quarantine Policy Education.

Publication date: Oct 15, 2024

Public health education plays a crucial role in effectively addressing infectious diseases such as COVID-19. However, existing educational materials often provide only foundational information, and traditional group education faces challenges due to social distancing policies. Addressing these gaps, our study introduces a serious game called “Flattening the Curve. ” This interactive experience immerses learners in the role of quarantine policy managers, offering unique insights into the effects and challenges of social distancing policies. The development of the game adhered to the SERES framework, ensuring a scientifically designed foundation. To achieve its learning objectives, the game incorporated learning and game mechanics including an agent-based infection model, a social distancing policy model, and an economic model, which were developed based on previous literature. After defining a broad concept of scientific and design foundations, we used a participatory design process. This study included 16 undergraduates and took place over one semester. Participants played the game, gave feedback, and answered surveys. The game was improved based on participants’ feedback throughout the process. Participants’ feedback was analyzed based on the Design, Play, and Experience framework. Surveys were conducted before and after the activity and analyzed to assess participants’ evaluation of and satisfaction with the game. The game successfully achieved its learning objectives, encompassing a comprehensive understanding of infectious disease characteristics; the disease transmission process; the necessity and efficacy of quarantine policies and their delicate balance with economic factors; and the concept of flattening the curve. To achieve this, the game includes the following: (1) an agent-based infection model based on the modified Susceptible-Exposed-Infectious-Hospitalized-Recovered (SEIHR) model with five infectious disease scenarios; (2) a quarantine policy model with social distancing, travel control, and intensive care unit management; and (3) an economic model that allows users to consider the impact of quarantine policies on a community’s economy. In response to participatory design feedback, the game underwent meticulous modifications, including refining game systems, parameters, design elements, the user interface, and interactions. Key feedback included requests for more scenarios and engaging yet simple game elements, as well as suggestions for improving the scoring system and design features. Notably, concerns about the fairness of the outcome evaluation system (star rating system), which could incentivize prioritizing economic activity over minimizing casualties, were raised and addressed by replacing the star rating system with a progress-based vaccine development system. Quantitative evaluation results reflect participants’ positive assessments of the game through the learner-centric approach. The serious game “Flattening the Curve,” developed through a participatory design approach, emerges as a valuable tool for public health education, particularly concerning social distancing policies. The game and its source code are openly accessible online, enabling widespread use for research and educational purposes.

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Concepts Keywords
Distancing game
Economy infectious diseases
Meticulous learner-centric
Undergraduates online learning
Vaccine public health education
quarantine policy
serious game
simulation
social distancing policy

Semantics

Type Source Name
disease MESH COVID-19
disease IDO role
disease MESH infectious diseases
disease MESH infection
disease IDO process
pathway REACTOME Infectious disease
disease IDO infectious disease
drug DRUGBANK Isoxaflutole
disease MESH death
disease MESH measles
pathway KEGG Measles
pathway REACTOME Reproduction
drug DRUGBANK Trestolone
disease MESH latent infection
disease MESH morbidity
disease IDO intervention
drug DRUGBANK Tropicamide
disease IDO site
disease MESH lifestyle
drug DRUGBANK Coenzyme M
drug DRUGBANK Cycloserine
drug DRUGBANK Cefapirin
disease IDO infectivity
disease MESH Ebola virus disease
disease MESH Vaccine Preventable Diseases
disease MESH influenza
drug DRUGBANK Pentaerythritol tetranitrate
disease MESH Emergency
disease MESH asthma
pathway KEGG Asthma
drug DRUGBANK Sulfasalazine

Original Article

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