View clinical trials related to Virtual Reality.
Filter by:The aim of this study is to evaluate the efficacy of virtual reality experiences on acute pain and distress caused by fluoroscopic pain intervention in chronic pain patient.
Balance of the body is achieved by the coordination of three major systems, visual, vestibular and proprioceptive sensation and by the reflexive control of the limbs. In myelopathy, factors like balance and posture, range of motion, muscle strength, coordinated motor control, muscle tone and proprioception are affected. Balance and gait rehabilitation is an important goal in myelopathy. Virtual reality (VR) is a computer based technology that is used for task oriented biofeedback therapy in rehabilitation. This study was envisioned to observe the utility of VR in rehabilitation for improving balance in patients of myelopathy.
This study evaluate the effectiveness of the Virtual Reality Educational Program (RVEP) in the Paediatric Surgical Prehabilitation Unit to reduce the perioperative anxiety in children who undergo to elective surgery. Half of the patients will received the virtual reality program, and the other half will received de common treatment.
Virtual reality (VR) has been used in health care settings to decrease anxiety and pain. This project is a feasibility study to evaluate whether virtual reality can be used in the setting of a first trimester pregnancy termination by D&C and whether the use of virtual reality (VR) headsets can help decrease anxiety for patients during this procedure.
The aim of the study is to evaluate the efficacy of virtual reality glasses on anxiety of the patients who underwent operations under spinal anesthesia during peroperative period. Both control group and VR group will be carry out STAI- Traıt anxiety test before operation and trait test after operation. Patients will be perform spinal anesthesia after standard sedation administration. After block reach adequate level for operation patients in VR group will wear the glasses and started to watch a documentary about birds and a sedative music by the headset. Patients in Control group will take standard anesthesia care. Hemodynamic changes (systemic blood pressure, heart rate, respiration rate and pSPO2) will be record in both groups.
While knowledge on the neurobiological signatures of fear and anxiety disorders and, in particular, their association with treatment outcome is accumulating, clinical translation still awaits empirical proof of evidence. Exposure-based cognitive-behavioral therapy (CBT) is a first-line treatment, but clinically significant change is only seen in approx. 50-65% of patients. Patient stratification is a powerful option to increase treatment response; however, developing prognostic markers suitable for single-patient predictions still is in its infancy and crucially requires external cross-validation embedded within an a priori prediction approach - a procedure yet largely missing in the field of biomarker research. Employing a bicentric strategy the aim of this study is to test the hypothesis that a priori prediction of treatment outcome based on neurobiological measures is possible in a second, independent sample. Building upon findings from previous mechanistic studies, These will be incorporated into the development of a predictive pattern comprising fear-relevant genotypes and molecules targeting neuropeptides, related epigenetic signatures as well as neurofunctional activation patterns associated with fear circuitry functions, and clinical data. Pre-treatment neurobiological signatures will be tested for their potential as a predictive response marker towards behavioral exposure (virtual reality exposure treatment (VRET) and an in vivo behavioral avoidance test) in a model disorder of fear circuitry dysfunctions (spider phobia). Multivariate pattern analyses employing a machine learning framework will be used to generate predictions on the individual patient level and to cross-validate markers in a second, independent sample. While at site A predictions will be generated following completion of the treatment, response will be predicted at site B a priori, but in a double-blind manner. Comparison of observed vs. predicted response rates will serve as a test of hypothesis. In addition, neuroplastic (on a subsample) and epigenetic changes induced by VRET treatment will be assessed following treatment and, in case of epigenetics, also after 6-months follow-up.
Feasibility and tolerance study of virtual reality headset for brain mapping during brain awake surgery.
To construct and evaluate an immersive 3D simulation to familiarize patients with the pre-operative experience, and investigate whether A) immersive 3D virtual reality video can reduce pre-operative anxiety, and B) how this approach compares to current practice of viewing traditional educational videos.
It was well known that the mirror therapy could decrease pain of upper-limb amputated patients. The mirror therapy is known to make a plastic change some parts of the brain perceiving the painful body part and modulating its signal by feedback of visual information mirrored with the corresponding contra-lateral normal parts. In this study, post-operative analgesic efficiency of the virtual reality using a mirror therapy after total knee arthroplasty will be evaluated. This clinical trial will be performed in the form of prospective, single-blind (i.e. assessor-blind), parallel group, randomized (allocation ratio 1:1), single cohort.