Virtual environment to quantify the influence of colour stimuli on the performance of tasks requiring attention

BackgroundRecent studies indicate that the blue-yellow colour discrimination is impaired in ADHD individuals. However, the relationship between colour and performance has not been investigated. This paper describes the development and the testing of a virtual environment that is capable to quantify the influence of red-green versus blue-yellow colour stimuli on the performance of people in a fun and interactive way, being appropriate for the target audience.MethodsAn interactive computer game based on virtual reality was developed to evaluate the performance of the players.The game's storyline was based on the story of an old pirate who runs across islands and dangerous seas in search of a lost treasure. Within the game, the player must find and interpret the hints scattered in different scenarios. Two versions of this game were implemented. In the first, hints and information boards were painted using red and green colours. In the second version, these objects were painted using blue and yellow colours. For modelling, texturing, and animating virtual characters and objects the three-dimensional computer graphics tool Blender 3D was used. The textures were created with the GIMP editor to provide visual effects increasing the realism and immersion of the players. The games were tested on 20 non-ADHD volunteers who were divided into two subgroups (A1 and A2) and 20 volunteers with ADHD who were divided into subgroups B1 and B2. Subgroups A1 and B1 used the first version of the game with the hints painted in green-red colors, and subgroups A2 and B2 the second version using the same hints now painted in blue-yellow. The time spent to complete each task of the game was measured.ResultsData analyzed with ANOVA two-way and posthoc TUKEY LSD showed that the use of blue/yellow instead of green/red colors decreased the game performance of all participants. However, a greater decrease in performance could be observed with ADHD participants where tasks, that require attention, were most affected.ConclusionsThe game proved to be a user-friendly tool capable to detect and quantify the influence of color on the performance of people executing tasks that require attention and showed to be attractive for people with ADHD.

[1]  J. Sergeant,et al.  Color perception deficits in co-existing attention-deficit/hyperactivity disorder and chronic tic disorders , 2007, Journal of Neural Transmission.

[2]  Thomas Desaive,et al.  Validation of a model-based virtual trials method for tight glycemic control in intensive care , 2010, Biomedical engineering online.

[3]  S. Faraone,et al.  Early Precursors of Low Attention and Hyperactivity in a Preterm Sample at Age Four , 2005, Issues in comprehensive pediatric nursing.

[4]  Alan T. Pope,et al.  Extended Attention Span Training System: Video Game Neurotherapy for Attention Deficit Disorder. , 1996 .

[5]  P. Verschure,et al.  Neurorehabilitation using the virtual reality based Rehabilitation Gaming System: methodology, design, psychometrics, usability and validation , 2010, Journal of NeuroEngineering and Rehabilitation.

[6]  J. Sergeant,et al.  Interference control in attention-deficit/hyperactivity disorder: differential Stroop effects for colour-naming versus counting , 2007, Journal of Neural Transmission.

[7]  Qingmao Hu,et al.  Scale-adaptive surface modeling of vascular structures , 2010, Biomedical engineering online.

[8]  T. Banaschewski,et al.  Color naming deficits and attention-deficit/hyperactivity disorder: A retinal dopaminergic hypothesis , 2006, Behavioral and Brain Functions.

[9]  V. Russell,et al.  A dynamic developmental theory of attention-deficit/hyperactivity disorder (ADHD) predominantly hyperactive/impulsive and combined subtypes. , 2005, The Behavioral and brain sciences.

[10]  Dong Pyo Jang,et al.  Attention Enhancement System using virtual reality and EEG biofeedback , 2002, Proceedings IEEE Virtual Reality 2002.

[11]  Todd Bowerly,et al.  A Virtual Reality Scenario for All Seasons: The Virtual Classroom , 2009, CNS Spectrums.

[12]  J. Sergeant,et al.  Colour perception in ADHD. , 2006, Journal of child psychology and psychiatry, and allied disciplines.

[13]  A. Cruz,et al.  Supermarket Game: An Adaptive Intelligent Computer Game for Attention Deficit/Hyperactivity Disorder Diagnosis , 2006, 2006 Fifth Mexican International Conference on Artificial Intelligence.

[14]  Adela Martínez Fernández,et al.  Nuevas aportaciones a la neurobiología del trastorno por déficit de atención con hiperactividad desde la magnetoencefalografía , 2005 .

[15]  Elaine W. H. Yan,et al.  Usability of a virtual reality environment simulating an automated teller machine for assessing and training persons with acquired brain injury , 2010, Journal of NeuroEngineering and Rehabilitation.

[16]  C. S. Green,et al.  Action video game modifies visual selective attention , 2003, Nature.

[17]  Sungkil Lee,et al.  Effects of visual cues and sustained attention on spatial presence in virtual environments based on spatial and object distinction , 2008, Interact. Comput..