Ramesh Tadayon
ABSTRACT
As the consequences of anxiety and depression have been compared to obesity and smoking as predictors of physical health, further findings, more advancements, and new technology are necessary to help those struggling with psychological disorders such as anxiety. This study investigates the potential relationships between Trait Anxiety or general anxiety scores and physiological and perceived reactions to a simulated virtual reality (VR) experience that induces mild anxiety as well as the ability to recover from the anxious event. The study additionally explores a potential relationship of a medical diagnosis on the physiological and perceived reactions to the simulated environment designed to induce mild anxiety and the potential effect on the ability to recover from such an event. Eighteen adults participated in the IRB (Institutional Review Board) approved study by completing a consent form, followed by the Trait Anxiety Questionnaire corresponding to the State Trait Anxiety Inventory form Y-2 to assess general anxiety levels. Participants additionally recorded a self-reflected Likert-scale interpretation of their perceived anxiety on a scale of one to ten after each phase of the study (Baseline, Introduction, Virtual Reality, Recovery). The experiment was designed to elicit mild anxiety with an ambiguous introduction and a shocking VR experience. The results showed no statistically significant difference between those with higher general anxiety with Trait Anxiety scores above 40 and those with lower Trait Anxiety in their percent increase of heart rate and increase of self-reflected anxiety score between baseline and VR phases as well as between baseline and recovery phases. Additionally, participants with medical diagnoses of anxiety showed no statistically significant difference in their percent increase of heart rate from baseline to VR phases as well as from baseline to recovery phases than their counterparts without any diagnoses of anxiety disorders. There is a potential indication, however, of a possible pattern of individuals with higher general anxiety (Trait Anxiety scores above 40) having a less-severe reaction, physiologically and perceptively, to an anxious situation than individuals with lower Trait Anxiety scores. This could indicate the possibility of desensitization to anxiety with frequent exposure. Conclusions of this study call for further investigation into this potential pattern and evaluation of future assistive technologies for individuals with anxiety.
- DSI 7. (n.d.). Retrieved from http://wearablesensing.com/products/dsi-7/Google Scholar
- F.N.M Facts & Statistics. (n.d.). Retrieved from https://adaa.org/about-adaa/press-room/facts-statisticsGoogle Scholar
- The State-Trait Anxiety Inventory (STAI). (n.d.). Retrieved from http://www.apa.org/pi/about/publications/caregivers/practice-settings/assessment/tools/trait-state.aspxGoogle Scholar
- A. O. Akmandor and N. K. Jha, 'Keep the Stress Away with SoDA: Stress Detection and Alleviation System," in IEEE Transactions on Multi-Scale Computing Systems, vol. 3, no. 4, pp. 269--282, 1 Oct.-Dec. 2017.Google Scholar
- C. Kelvens, Fear and Anxiety, 1997. Retrieved from http://www.csun.edu/~vcpsy00h/students/fear.htmGoogle Scholar
- C. Kelling, D. Pitaro, and J. Rantala, 'Good Vibes: The Impact of Haptic Patterns on Stress Levels," In: 20th International Academic Mindtrek Conference (AcademicMindtrek '16), 130--136.Google Scholar
- C. Eichenberg and C. Wolters, 'Virtual Realities in the Treatment of Mental Disorders: A Review of the Current State of Research," Virtual Reality in Psychological, Medical and Pedagogical Applications, Christiane Eichenberg, IntechOpen, 2012.Google Scholar
- D. Price, Psychiatric Focus - When Panic Sets In. Retrieved from https://www.inmo.ie/Article/PrintArticle/4273Google Scholar
- J.A. Day, Anxiety and Heart Disease, 2016. Retrieved from https://www.hopkinsmedicine.org/heart_vascular_institute/clinical_services/centers_excellence/womens_cardiovascular_health_center/patient_information/health_topics/anxiety_heart_disease.htmlGoogle Scholar
- J. Allen, "Photoplethysmography and Its Application in Clinical Physiological Measurement," Physiological Measurement, 28(3), 2007.Google Scholar
- L.J. Julian, "Measures of Anxiety: State-Trait Anxiety Inventory (STAI), Beck Anxiety Inventory (BAI), and Hospital Anxiety and Depression Scale-Anxiety (HADS-A)," Arthritis Care & Research, 63(Suppl 11), S467--S472, 2011.Google ScholarCross Ref
- P. Paredes and M. Chan, "CalmMeNow: Exploratory Research and Design of Stress Mitigating Mobile Interventions," In: CHI "11 Extended Abstracts on Human Factors in Computing Systems (CHI EA '11), 2011, pp. 1699--1704.Google Scholar
- R. Tadayon, C. Gupta, D. Crews, and T. McDaniel, "Differences in Psychophysiological Reactions to Anxiety in Individuals with Varying Trait Anxiety Scores," In: The 3rd International Workshop on Multimedia for Personal Health and Health Care (HealthMedia'18), 2018, pp. 19--24.Google Scholar
Index Terms
- Do Trait Anxiety Scores Reveal Information About Our Response to Anxious Situations?: A Psycho-Physiological VR Study
Recommendations
Differences in Psychophysiological Reactions to Anxiety in Individuals with Varying Trait Anxiety Scores
HealthMedia'18: Proceedings of the 3rd International Workshop on Multimedia for Personal Health and Health CareThis study investigated the differences in the psychophysiological reaction to anxious situations in individuals with higher (greater than or equal to 40) trait anxiety scores in comparison to those with lower (less than 40) trait anxiety scores. This ...
Effects of virtual environment platforms on emotional responses
The goal of the current study was to investigate the effects of different virtual environment (VE) technologies (i.e., desktop, head mounted display, or fully immersive platforms) on emotional arousal and task performance. Fifty-three participants were ...
Comments