JMIR Serious Games
A multidisciplinary journal on gaming and gamification including simulation and immersive virtual reality for health education/promotion, teaching, medicine, rehabilitation, and social change.
Editor-in-Chief:
Gunther Eysenbach, MD, MPH, FACMI, Founding Editor and Publisher; Adjunct Professor, School of Health Information Science, University of Victoria, Canada
Impact Factor 4.1 CiteScore 8.6
Recent Articles

Adolescents’ internet adaptability (IA) is crucial for their online behavior and mental health. Serious games (SGs), as an emerging educational tool, hold promise for enhancing this adaptability through engaging, goal-oriented learning. Yet, direct evidence in this area remains limited. This viewpoint aims to clarify the mechanisms through which SGs enhance adolescents’ IA and to derive corresponding design principles that can inform educational practice and game development. Drawing on insights from both Chinese and international studies, this study adopts a cross-contextual perspective to explore how SGs can foster IA in varied educational environments. Beyond synthesizing existing findings, this viewpoint provides an integrated account of why IA is essential in contemporary digital life and how SGs can support its development. It proposes a 3-stage framework, illustrating how contextualized design, real-time feedback, and dynamic tasks promote experiential learning, self-regulation, and the transfer of online skills. Based on this framework, the study further articulates 6 core design principles: clear goal definition, interaction diversity, contextual authenticity, immediate, scaffolding and explanatory feedback, a dynamically adaptive learning environment, and safety-by-design for digital well-being. These principles translate the core characteristics and mechanisms of SGs into actionable guidance for developing effective IA interventions. By synthesizing theoretical insights with practical considerations, this viewpoint highlights how SGs can serve as accessible and scalable tools to support adolescents in navigating increasingly complex digital environments. Together, these insights provide practical implications for educators, curriculum designers, and digital game developers seeking to foster adolescents’ safe, responsible, and adaptive engagement in online environments.


Children with autism spectrum disorder (ASD) exhibit cognitive, motor, and social difficulties that affect engagement, causing developmental delays, behavioral challenges, and obesity—interrelated concerns in daily functioning and well-being. Although interactive interventions have incorporated physical activity, they often rely on limited physical involvement and lack iterative, expert-informed design, as built on pre-existing game frameworks. Physical activity is often operationalized as constrained input (eg, gestures or in-place actions) rather than exertion-intensive, whole-body exercise, and design guidance for adapting exercise content under ASD-oriented safety and cognitive-sensory constraints remains limited. These limitations highlight the need for exergames that promote sustained, full-body participation aligned with developmental goals, motivating formative, co-design with expertise and initial field testing in this population.

Slowness in voluntary movements is a hallmark of Parkinson disease (PD); yet, objective measurement outside clinical settings is limited. Serious games represent a promising alternative to extract motor performance metrics during interactions. However, evidence on the effectiveness of these games in discriminating motor performance between individuals with and those without PD is still scarce.

Managing blood pressure (BP) in prehypertensive individuals is crucial to prevent the incidence of hypertension. While physical activity has proven effective in BP management, physical inactivity remains prevalent. Gamification has shown promise in addressing physical inactivity; however, its effectiveness is limited due to the suboptimal intervention design.


Exergaming, which combines physical activity with interactive gaming, has been shown to improve motor skills and fitness. However, exergaming’s potential in complex, open-skill sports such as tennis, which require real-time coordination, decision-making, and technical precision, remains underexplored. Furthermore, only a few studies have evaluated the impact of exergaming on both technical skill development and psychological outcomes such as motivation and confidence, especially among novice players. This study addresses these gaps by comparing the combination of exergame-based tennis training and on-court tennis training (EBTT+OCTT) with on-court tennis training alone (OCTT×2) in improving technical skills, grip strength, confidence, and motivation.

Educators are exploring new methods to educate beyond the classroom as global concerns about students’ cognitive, emotional, and social well-being grow. Physical education (PE) has been demonstrated to boost cognitive and psychological outcomes in several studies. Most research has neglected the benefits of gamification and artificial intelligence (AI)–based feedback in PE, focusing instead on conventional PE formats. The impacts of technologically enhanced PE settings on students’ cognitive performance through feedback and reward mechanisms remain understudied.

In the context of global aging, cognitive decline among older adults has become a prevalent issue, significantly impacting their daily lives. Serious games have demonstrated potential in enhancing cognitive abilities in this population. However, most existing serious games designed for older adults rely heavily on visual interfaces, which are often potentially detrimental for those with pre-existing visual impairments.

Serious games offer promising avenues for clinical care by enhancing patient engagement and delivering therapeutic benefits. In Psoriatic Arthritis (PsA), chronic pain contributes to emotional distress, functional limitations, and reduced well-being. While symptom-tracking apps exist, few digital interventions directly address chronic pain through engaging, therapeutic experiences tailored to patients’ cognitive and physical needs.

Longer life expectancy makes physical exercise crucial for active aging, however, adherence to traditional exercise among community-dwelling older adults is generally low. Virtual Reality (VR) and Mixed Reality (MR) Tai Chi exergames show significant potential as novel health promotion tools, particularly for older adults exercising in a home setting. While promising, usability and safety issues such as cybersickness are significant barriers that must be addressed before these technologies can be widely implemented for unsupervised home use.







