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Clinical Trial Summary

Background: Magnetic resonance imaging (MRI) has been known for almost forty years to generate fear and anxiety. Children may become restless during scanning, which results in movement artifacts requiring the MRI to be repeated with sedation. Very few studies seemed to have looked at the effect of immersive virtual reality (IVR) on anxiety in children scheduled for an MRI. Objectives: The aims of this study are two-fold: 1- to address feasibility and acceptability of a pre-procedural immersive VR (IVR) game preparation for anxiety management during MRIs and 2- to examine the efficacy of IVR game preparation compared to usual care for the management of procedural anxiety during MRIs. Methods: This study will first consist of a field test phase with 10 participants, aged 7 to 17 years old, to address the feasibility and acceptability of the use of virtual reality. Following the field test, a RCT will be completed using a parallel design with two groups: 1) experimental group (pre-procedural IVR game preparation), 2) usual care group (standard care as per radiology department's protocol) in an equal ratio of 49 participants per group for a total of 98 participants. Recruitment will be done at CHU Sainte-Justine's, Quebec, Canada. The experimental group will receive a pre-procedural IVR game preparation (IMAGINE) that offers an immersive simulation of the MRI. Participants will complete a questionnaire to assess the acceptability, feasibility and incidence of side effects related to the intervention and the biofeedback device. Data collected will include socio-demographic, clinical characteristics, measures of anxiety with the French-Canadian version of the State-Trait Anxiety Inventory for Children (STAIC-F) and the Child Fear Scale (CFS, 0-4). Physiological biomarkers of anxiety such as alpha-amylase and other markers such as heart rate and head deviation will also be measured. Measures of healthcare professionals, parents, and participants' level of satisfaction will also be collected. Analyses will be carried out according to the intention-to-treat principle, with a significance level (α) of 0.05. Discussion: Our study provides an alternative method for anxiety management to better prepare patients for an awake MRI. It will guide future medical practice by providing evidence-based knowledge on a non-pharmacological therapeutic modality for anxiety management in children scheduled for an MRI.


Clinical Trial Description

BACKGROUND Magnetic resonance imaging (MRI) is a technique that is considered non-invasive and safe as it does not use any radiation or X-rays unlike PET (positron emission tomography) scans or CT scans. MRI technology, instead, uses a magnetic field to generate images of the tissues and organs. For MRI to work as intended, the patient must remain still while laying down within a confined space for a certain amount of time. The MRI environment may be a source of anxiety for some patients. This can be due to the claustrophobic nature of the narrow space tunnel. MRIs have been in known for almost forty years to generate fear and anxiety caused by claustrophobia. In addition, MRI scanners generate loud clicking sounds while running. These loud acoustic noises may be as loud as 100dB, the equivalent of a snowmobile next to the patient. Not surprisingly, up to 30% of patients undergoing MRIs had anxiety-related reactions of various degrees of intensity. Interviews performed with small children and their parents revealed that MRIs caused anxiety in children because of their size, design and sounds. Hence, this environment is difficult to tolerate, especially for children. Oftentimes, anxious children may become restless during the exam leading to uncontrolled movements resulting in unusable images. As a consequence, this may result in a premature termination of the procedure itself, requiring the exam to be repeated ulteriorly, thus, causing subsequent episodes of anxiety. As a result, it is becoming common practice in many hospitals' radiology department to require conscious sedation as the frequency of repeated MRI test are higher within the pediatric population. However, sedation is not without any risks or consequences. Emerging evidence suggests that sedation in children might have long-term neurocognitive side effects, in addition to the short-term procedure-related risks. For this reason, many efforts have been put into the development of non-pharmacological methods to reduce fear and anxiety in children requiring MRI scans. Many interventions ranging from music and artwork to videogames have been used and deemed useful to relieve anxiety in children during an MRI exam. Interventions done prior to the scan have also been investigated. Among these, preprocedural patient education has been shown to decrease anxiety and enhance comprehension of MRI exams, which in turn, can serve to increase patient collaboration. However, different educational material can have different effects on reducing anxiety levels. Mock MRI scanners, which involve using a full-size replica scanner for a 5-minute training session to lie still, have been used to help explain to children what the procedure involves and what to expect in an age appropriate manner. This preparation has been reported to reduce MRI-related procedural anxiety, rate of motion artifacts, need for sedation, overall duration of the study, as well as a decrease in heart rate during the procedure. However, a shortcoming of mock replica is that there is limited availability in hospitals, since the mock MRI machine would require a room to store, as well as additional resources, including staff and time, to organize these sessions. Virtual reality (VR) used to replicate an MRI environment can also be used as patient preparation. Indeed, VR has been used as preparation for chest radiography, dental procedures, anesthesia and surgeries. These studies show that VR preparation helped improve procedural experience among pediatric patients by reducing anxiety, distress and procedural time while increasing parents' satisfaction. VR is a distraction method that has been proven effective in reducing pain and anxiety in children in different settings, such as phlebotomy, wound care, chemotherapy, dental procedures and bone pins removal. To the best of our knowledge, very few studies seemed to have looked at the effect of virtual reality (VR) on anxiety of children scheduled for an MRI scan. The investigators believe that using a virtual reality preparation game, ahead of time, to familiarize children prior to the MRI procedure would help decrease anxiety, increase patient collaboration, decrease the need for sedation and improve patient, family, and health care professional's satisfaction. Aims of the study The aims of this study are three-fold: 1. To address feasibility and acceptability of a pre-procedural immersive VR (IVR) game preparation before an MRI for children's anxiety (field test phase) and; 2. To examine the efficacy of a pre-procedural IVR game preparation compared to usual care for the management of procedural anxiety in children undergoing an MRI (RCT). Hypothesis (For the scientific validation) The investigators believe that an IVR intervention in the format of an interactive video game to prepare participants prior to an MRI exam is easy to use and could help decrease MRI-related procedural anxiety in children from 7 to 17 years old. The investigators believe that a patient who can follow the instructions well, without any signs of anxiety detected by physiological parameters, will have better results in the MRI than a patient who has difficulty following the instructions and/or who shows signs of anxiety through his physiological parameters. Objectives The primary research question is: For children undergoing magnetic resonance imaging, will a preprocedural interactive IVR game preparation decrease their MRI-related procedural anxiety? METHODS Design This study design will be two-fold A) consisting of a field test phase with 10 participants (10% of the total sample size calculated) to address the feasibility and acceptability of the VR intervention and research process. Any changes needed will be made between the end of the field test and the start of the RCT. No changes will be made once the RCT starts. Following the field test, B) the investigators will proceed to a scientific clinical validation based on a randomized clinical trial design using a parallel design with two groups: 1) experimental group (pre-procedural IVR game preparation), 2) usual care group (standard care as per radiology department's protocol) in an equal ratio of 49 participants per group for a total of 98 participants including a correction for an attrition rate of 24%, established according to the 2020 radiology records at the study setting. Sample and setting Recruitment will be done at CHU Sainte-Justine's, a pediatric hospital. Participants will be identified through the radiology information system as having an appointment for an upcoming MRI. A research nurse will be notified by the radiology technologist and will proceed to contact the parents for recruitment ahead of time before their arrival to the radiology department. Study time-points Socio-demographic and clinical characteristics will be assessed in the waiting room to establish baseline at T0. Measures of procedure related-anxiety with the French-Canadian version of the StateTrait Anxiety Inventory for Children (STAIC-F), the Child Fear Scale (CFS, 0-4) and alpha-amylase salivary sample will be taken before the intervention (T0), immediately after the intervention (T1) and after the MRI procedure (T2). A measure of healthcare professionals, parents, and participants' level of satisfaction via a questionnaire developed and pretested by the team will also be collected at T2. Physiological signs such as heart rate. Data will be collected on the occurrence of side effects throughout the study. Sample size and statistical analysis Sample Size consideration. Primary analysis will involve the comparison of two group means. In addition, no interim analysis will be conducted. Therefore, group sample sizes of 37 (i.e. 74 in total) are necessary to achieve 80% power to reject the null hypothesis of equal means when the population mean difference for State anxiety score is 5 with a standard deviation for both groups of 7.47 and a significance level (alpha) of 5% using a two-sided t-test. Standard deviation for both groups was varying from 4.61 to 7.47. In order to be conservative, the investigators chose 7.47. Based on data from the medical imaging registry, the attrition rate was approximately 24%. Assuming a similar attrition rate, a total of 98 participants (49 per group) will be required. The sample size calculation was performed using PASS Software (version 12). Statistical analysis. Analyses will be conducted using the statistical analysis software (SAS) (version 9.4). Descriptive statistics will be conducted for socio-demographic and clinical variables and presented by treatment group. Primary outcomes analyses: An analysis of covariance (ANCOVA) adjusted for age, sex, baseline (T0) Trait anxiety score measurement and baseline State anxiety score measurement will be used to assess the mean difference in State anxiety scores on the STAIC-S, between the experimental and the control groups at T2. Analyses will be carried out according to the intention-to-treat principle, with a significance level (α) of 0.05. B. Secondary outcomes analyses: An ANCOVA adjusted for age, sex and baseline anxiety score measurement will be used to assess the mean difference in anxiety scores on the CFS, between the experimental and the control groups at T2. To assess the mean difference in the sense of presence in VR and engagement into the game (GRS), between the experimental and the control groups at T1, an ANCOVA adjusted for age and sex will also be conducted. The investigators will use a linear mixed model to estimate the effect of the treatment on the changes in heart rate over all assessment timepoints. This analysis will be adjusted for age, sex and baseline heart rate. Differences between arms for Parents, children and healthcare professionals' levels of satisfaction (T2) as well as the overall procedure time will be assessed using Student's t-tests or nonparametric Mann Whitney U Test if data are non-normal. Chi-squared Test or Fisher's Exact Test will be conducted to compare dichotomous variables including the occurrence of side effects, the number of rescheduled MRI and use of sedation in each group. Adverse events and serious adverse events (if any) will be reported using the MedDRA terminology and their proportions will be compared between the groups. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05909878
Study type Interventional
Source St. Justine's Hospital
Contact Sylvie Le May, PhD
Phone 5143454931
Email sylvie.lemay@umontreal.ca
Status Recruiting
Phase N/A
Start date May 27, 2022
Completion date June 30, 2025

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