View clinical trials related to Phobic Disorders.
Filter by: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.
In this patented project, U.S. Patent No. 10,839,707, the investigators will develop an augmented reality exposure therapy method for cynophobia, also known as dog phobia, to test in the clinic. The platform will include a software that allows the clinician (psychiatrist/therapist) to position virtual objects in the real environment of the patient with the above mentioned phobia while the patient is wearing the augmented reality (AR) device. Then the clinician will lead the patient through steps of exposure therapy to the feared object. The investigators will then measure the impact of treatment and compare to before treatment measures of fear of the phobic object. Exposure therapy is the most evidence-based treatment for specific phobias, social phobia, obsessive-compulsive disorder (OCD), and posttraumatic stress disorder (PTSD). The core principle is patient's exposure to the feared objects/situations guided by a clinician. For example, in cynophobia, patient is exposed to pictures of dogs printed or on a computer screen - or if available, view of a real dog in the office. Gradually, patient tolerates viewing/approaching the dog from a closer distance, and fear response extinguishes. The clinician has a crucial role in signaling safety to the patient, as well as providing support and coaching. This treatment is limited by multiple factors: 1) limited access to feared objects/situations in the clinic, 2) even when feared objects are available, they are not diverse (e.g. different types, sizes, and colors of dogs), which limits generalization of safety learning, 3) when available, clinician has very limited control over behaviors of the feared object, 4) safety learning is limited to the clinic office context, and contextualization of safety learning to real life experiences is left to the patient to do alone, which often does not happen. This is specifically important in conditions such as PTSD, where there is cumulative evidence for impaired contextualization as a key neurobiological underpinning. 5) Lack of geographical access to experts in exposure therapy, especially for PTSD, in rural areas.