Self-efficacy Enhancement in a Virtual Reality Training for Fear of Heights

Fear of Heights, Specific Phobia, Situational

Specific phobia, fear of heights, Self-efficacy, virtual reality, exposure

Self-efficacy (SE) enhancement after virtual reality exposure (VRET) for heights can promote treatment-induced effects (Raeder et al. 2019). Raeder et al (2019) employed an intervention to enhance SE by introducing specific questions about autobiographical events of success and mastery experiences in the course of VRET. Building on these previous findings, the present study aims to examine whether SE-enhancement DURING and/or AFTER a brief VR-based exposure for fear of heights (in the following referred to as VR-height-exposure) is suitable to promote exposure-induced reductions in height-related fear and avoidance. To this end, repeated visual feedback DURING a brief VR-height-exposure will be used to selectively promote SE and mastery experiences. In a similar vein, SE-enhancement AFTER VR-height-exposure will be administered. The effects of these interventions will be assessed on different treatment outcome levels. It will be further examined whether the combined SE enhancement (DURING and AFTER exposure) is more effective that 1.) SE enhancement performed DURING VR-height-exposure only or 2.) SE enhancement performed AFTER VR-height-exposure only. The investigators hypothesize that SE enhancement (either administered DURING or AFTER VR-height-exposure) will be more effective (as indicated by more pronounced reductions in height-related fear and avoidance) than VR-height-exposure alone. It is further expected that the combined SE enhancement DURING and AFTER VR-height-exposure will be more effective compared to SE enhancement DURING VR-height-exposure alone and/or SE enhancement DURING VR-height-exposure alone.

The aim of this study is to evaluate whether visual feedback DURING VR-height-exposure and SE-enhancement strategies that are designed to promote mastery experience AFTER exposure are suitable to benefit exposure-induced reductions in height-related fear and avoidance. Participants will be randomly assigned to one of the following conditions: a) visual feedback DURING VR-height-exposure and SE-enhancement targeting mastery experience AFTER VR-height-exposure b) no visual feedback DURING VR-height-exposure but SE-enhancement targeting mastery experience AFTER VR-height-exposure, c) visual feedback DURING VR-height-exposure but a control intervention AFTER VR-height-exposure d) no visual feedback and control intervention after VR-height- exposure. The SE-enhancement as well as the control intervention involve memory reactivation either with or without emphasis on a mastery experience attained during the VR-height-exposure. The visual feedback is presented in form of a progress-update combined with positive affirmation. The VR-height-exposure concludes different exercises in a virtual environment that simulate situations, that can be challenging to height-fearful individuals in real life, such as glass-elevators, a glass-bridge, a tall ladder and lattice stairs. During VR-height-exposure, self-reported fear is measured in Subjective Units of Distress (SUDS). The VR-environment is presented via head-mounted displays and the participants can use touch-controllers to navigate through the exercises guided by the experimenter. As outcome measures, subjective fear and height-related avoidance will be assessed at three time points: pre-exposure, post-exposure and at 3 months-follow-up. Subjective fear is measured using the Acrophobia Questionnaire (AQ; Cohen, 1977). To measure height-related avoidance behavior, a Behavioural Approach Test (BAT) will be performed in a nearby church tower, that includes 13 steps of varying difficulty and requires active behavioral approach towards height-situations. Furthermore, danger expectancies and fear expectancies (DES, AES) will be measured at pre- and post-exposure as well as at 3-months-follow-up. During all BATs and the VR-height-exposure, heart-rate variability (HRV) will be assessed as a psychophysiological indicator for fear response. Moreover, participants are asked to rate their general self-efficacy via Questionnaire (GSE) and their perceived self-efficacy via Visual Analogue Scales (VAS) at pre- and post-exposure as well as 3-months follow-up. Furthermore, the VAS measures mood, excitement, and distraction. Additionally, several control variables are assessed pre-exposure, including Beck's Depression Inventory II (BDI-II), The State-and-Trait-Anxiety Inventory (STAI-T; STAI-S), the Self-Efficacy Scale (SES) and the CSSES. Implicit Approach-Avoidance biases towards height-related stimuli will also be assessed pre- and post VR-height-training utilizing the Approach-Avoidance-Task (AAT). The participants are instructed to push away (simulating avoidance) vs. pull towards (simulating approach) neutral vs. height-related pictures according to the way they are tilted (tilted-right vs. tilted left) using the computer mouse. Reaction time delays in the pull towards height-related pictures condition can be an indicator for implicit avoidance tendencies.

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