Stress Reactivity to the Trier Social Stress Test in Traditional and Virtual Environments: A Meta-Analytic Comparison
Emily C. Helminen, Melissa Morton, Qiu Wang, Joshua C. Felver
Abstract
OBJECTIVE: The traditional Trier Social Stress Test (TSST) is a widely used standardized stress induction protocol and has recently been adapted in a variety of virtual reality environments (V-TSST). Research has demonstrated the ability of the V-TSST to induce a stress reactivity response measured via cortisol, heart rate, and self-report. However, research comparing stress reactivity induced via the V-TSST to the traditional TSST across neuroendocrine, cardiovascular, and self-report variables has not yet been systematically and quantitatively reviewed. METHODS: In this meta-analytic review, the existing studies that used V-TSST were gathered, and each was age and sex matched with samples using the traditional TSST. These studies were then meta-analytically synthesized to determine if there was a moderating effect of TSST type (traditional TSST or V-TSST) on multiple measures of stress reactivity (i.e., cortisol, heart rate, and self-report). RESULTS: Examining the pre-post stress induction, the V-TSST studies demonstrated comparable effect sizes (ESs) for stress reactivity (cortisol ES = 0.61, heart rate ES = 0.98, self-reported stress ES = 0.94) to traditional TSST study ESs (cortisol ES = 0.79, heart rate ES = 0.85, self-reported stress ES = 0.85). CONCLUSIONS: The TSST type differences between ESs were not statistically significant, indicating that the V-TSST is as effective as the traditional TSST at eliciting a physiological and self-reported stress reactivity response. Implications and limitations of this meta-analysis are discussed, and recommendations for future research are provided.