Immersive Virtual Reality App to Promote Healthy Eating in Children

An immersive virtual reality application was developed as a serious game to support children on their decisions about food, the system was composed by the Gear VR (Viewer and controller), and a phone which contains the mobile application developed in Unity, providing the immersive environment, the platform was based on a path where the player has to go through it choosing between different sort of meals and also between different physical activities, the effect of balanced diet plus adequate physical activity seems reflected on the avatar previously chosen by the user, the app was tested on 12 children between 8 and 10 years old during one week, children participated on the study after receiving an informed consent, analyzing the tendencies of food choice on children before and after, a notorious positive effect could be seen on the users according to the avatar analyzed at the end of the round, besides a System usability ore was also applied to evaluate the degree of usability of the app, reaching a ore of 88.33% which rates the app as very usable, this results were even better than what was planned at the beginning of the experience.

[1]  H. B. Giap Can Virtual Reality, Interactive Game, and Body Motion Sensors be a Replacement for General Anesthesia in Children Receiving Radiation Therapy? , 2018, International Journal of Radiation Oncology*Biology*Physics.

[2]  Nelci Adriana Cicuto Ferreira Rocha,et al.  Effects of virtual reality in body oscillation and motor performance of children with cerebral palsy: A preliminary randomized controlled clinical trial. , 2019, Complementary therapies in clinical practice.

[3]  S. Jebb,et al.  Public health nutrition in the UK , 2019, Medicine.

[4]  André Hinkenjann,et al.  Towards VR-based Systems for School Experiments , 2013, VARE.

[5]  Hynek Pikhart,et al.  An exploratory randomised controlled trial of a public health nutrition intervention delivered in children's centres in Islington and Cornwall , 2013, The Lancet.

[6]  S. Velardo,et al.  Australian children's discourses of health, nutrition and fatness , 2019, Appetite.

[7]  P. Velemínský,et al.  Early medieval diet in childhood and adulthood and its reflection in the dental health of a Central European population (Mikulčice, 9th-10th centuries, Czech Republic). , 2019, Archives of oral biology.

[8]  Kraig Finstad,et al.  The Usability Metric for User Experience , 2010, Interact. Comput..

[9]  K. Szamotulska,et al.  Bone status and adipokine levels in children on vegetarian and omnivorous diets. , 2017, Clinical nutrition.

[10]  M. Fisberg,et al.  Children's nutrient intake variability is affected by age and body weight status according to results from a Brazilian multicenter study. , 2014, Nutrition research.

[11]  Paul Foeller,et al.  Effects of immersive virtual reality headset viewing on young children: Visuomotor function, postural stability and motion sickness. , 2019, American journal of ophthalmology.

[12]  Ross E. Willis,et al.  Virtual reality simulators: valuable surgical skills trainers or video games? , 2014, Journal of surgical education.

[13]  J. B. Brooke,et al.  SUS: A 'Quick and Dirty' Usability Scale , 1996 .

[14]  Ali F. Bakr,et al.  Virtual reality as a tool for children’s participation in kindergarten design process , 2018, Alexandria Engineering Journal.

[15]  Isla Kuhn,et al.  Effectiveness of virtual reality in the treatment of hand function in children with cerebral palsy: A systematic review. , 2019, Journal of hand therapy : official journal of the American Society of Hand Therapists.

[16]  Jeremy N. Bailenson,et al.  Virtual reality's effect on children's inhibitory control, social compliance, and sharing , 2019, Journal of Applied Developmental Psychology.