Abstract
Objective
Fear of falling is defined as an ongoing concern about falling that is not explained by physical examination. Focusing on the psychological dimension of this pathology (phobic reaction to walking), we looked at how virtual reality associated with serious games can be used to treat this pathology.
Methods
Participants with fear of falling were randomly assigned to either a treatment group or a waiting list. The therapy consisted of 12 weekly sessions of virtual reality exposure therapy associated with serious games.
Results
Sixteen participants were included. The mean age of the treatment group was 72 years and that of the control group was 69 years. Participants’ scores on the fear of falling measure improved after treatment with virtual reality associated with serious games, leading to a significant difference between the two groups.
Conclusion
Virtual reality exposure therapy associated with serious games can be used in the treatment of fear of falling. The two techniques are complementary (top-down and bottom-up processes). To our knowledge, this is the first time that a combination of the two has been assessed. There was a specific effect of this therapy on the phobic reaction. Further studies are needed to confirm its efficacy and identify its underlying mechanism.
Introduction
Fear of falling is an intense fear of standing or walking,Citation1 with an ongoing “concern about falling that leads to an individual avoiding activities that he/she remains capable of performing”.Citation2 Neurological examinations reveal no abnormalities that might explain the inability to walk safely on level ground.Citation1 Previous falls are not needed to induce fear of falling.Citation3,Citation4
Fear of falling is frequent, with a prevalence of 24%–55% in elderly people.Citation4–Citation7 Among individuals who have experienced a fall, the prevalence rises to between 24% and 92%.Citation4,Citation5,Citation8,Citation9
Fear of falling can have serious consequences for elderly people, including accidental death,Citation10 physical injuries,Citation10,Citation11 reduced quality of life,Citation12–Citation15 and impaired social interaction.Citation14 The frequency of fear of falling and its adverse consequences suggest that therapeutic strategies need to be developed and assessed. According to the meta-analysis of Jung et al,Citation15 exercise interventions, hip protectors, and combined interventions are efficient treatments for fear of falling. However, according to the meta-analysis of Rand et al, exercise and multifactorial interventions have low significant effects and tai chi has a moderately significant effect.Citation16 Therefore, these current interventions bring only limited benefits. Moreover, these approaches focus on the balance dimension of fear of falling, without considering the psychological dimension. We suggest that fear of falling should actually be regarded as an anxiety disorder (phobic reaction to walking) and thus treated with cognitive behavioral therapy, which is the gold standard psychotherapeutic treatment for this kind of pathology.Citation17,Citation18 One type of exposure is virtual reality exposure, which has already been successfully used in the treatment of anxiety disorders.Citation19–Citation21 Virtual reality involves the creation of an interactive, computer-generated, three-dimensional (3D) environment.Citation22 Studies have already used either virtual realityCitation23 or serious games (video games, such as the Nintendo Wii with its balance board, can be used as a substitute for traditional force platforms to improve dynamic strength and balance)Citation24–Citation27 to treat fear of falling. However, the results are heterogeneous. We initially tried virtual reality exposure on its own as a treatment for fear of falling. However, as patients walked carelessly after therapy and were at risk of falling, we then administered serious games as a form of augmented reality to reinstate their bodily reality and embody the new beliefs induced by the virtual reality exposure. To our knowledge, no study had previously investigated this combination of techniques. Based on the premise that fear of falling is an anxiety disorder, we postulated that combining virtual reality (used as a type of exposure) with serious games (used as an embodiment method) can be an effective treatment. Thus, the aim of our study was to assess virtual reality therapy associated with serious games in the treatment of fear of falling.
Methods
Participants
We recruited participants who exhibited a fear of falling, defined as a phobic reaction to walking. For our inclusion criteria, we applied the criterion of specific phobia: disproportioned fear in this case provoked by walking with anxious reaction (palpitations, sweat, etc) and behavioral avoidance. In somatic diseases (eg, Parkinson’s disease) with potential repercussions on walking, such a fear can seem adaptive, in which case, a specialist has to assess whether the degree of fear matches the walking difficulties brought about by the current pathology. Therefore, fear of falling was diagnosed if the fear experienced while walking was prominent and disproportionate. In this sense, comorbidities involving a physical disability were not an exclusion criterion. Exclusion criteria were a current severe depressive episode (Beck Depression Inventory [BDI] >30), an inability to understand or respond to study questionnaires, severe visual impairment (inability to see the screen when wearing the helmet), and an inability to walk at all for a physical reason (eg, paraplegia). All patients provided their written informed consent. This research has been approved by the ethics committee of the University of Paris VI.
Measures
No more than a week before and after the intervention, participants underwent a nonstructured clinical assessment featuring the BDI (21-item version), Spielberger State–Trait Anxiety Inventory (state anxiety: STAI form Y-A; trait anxiety: STAI form Y-B), Sheehan Disability Scale (SDS),Citation28 and fear of falling measure (FFM).Citation29 The items in the FFM refer to a continuum of activities encountered in daily life, ranging from the least likely to evoke concerns about falling (eg, getting out of bed) to the most likely to do so (eg, walking outside alone when it is icy). Nineteen activities are probed: getting out of bed, getting on/off the toilet, getting dressed, taking a walk, picking up something lightweight from the floor, carrying a full plate, getting in/out of a car, walking on a crowded sidewalk, climbing up well lit stairs, climbing up poorly lit stairs, carrying bundles up well lit stairs, carry bundles up poorly lit stairs, climbing into a bus, using a step stool to reach something in a cupboard, stepping off a curb, getting in/out of a bathtub, standing on a moving bus, using an escalator, and walking outside alone when it is icy. For each item, scored from 1 to 3, participants are asked to indicate how worried they would be about performing a particular activity (very worried, moderately worried, not at all worried). Therefore, the total score ranges from 19 to 57. In our study, the assessor was different from the therapist.
Intervention
Participants were randomly assigned to either the treatment group or a waiting list control group (by drawing lots).
The therapy consisted of 12 sessions, each lasting ~40 minutes, composed of a brief clinical interview and virtual reality exposure followed by a serious game. Sessions were scheduled once a week. For the virtual reality component, participants were asked to walk in 3D virtual worlds. They sat on a swivel chair. Participants wore a V8 head-mounted display (Virtual Research Systems Inc., Aptos, CA, USA) that allowed them to be immersed in the virtual world, where they were able to walk using a wireless mouse. The actual exposure to virtual reality lasted ~15 minutes. There were four different virtual worlds of increasing difficulty (city, castle, island, underground). In the first world (city), the ground was level, with little variation (sidewalk). In the castle, there was less space to walk (corridor) and a high step. In the island world, the ground was uneven, with rocks and differences in height, while in the final, underground world, participants had to go up and down steep flights of steps. A desktop personal computer (PC) (Transtec – Intel® Core™ i7-960 Processor 3.20 GHz) and a Nvidia GeForce GTX 470 graphics card with 1 GB of memory were used to display the virtual worlds in a 640×480 resolution stereoscopic (3D) format. A 3D electromagnetic sensor (Nest of Birds; Ascension Technology Corporation, Milton, VT, USA) was fixed to the helmet to measure head and body motion during navigation. The serious game component lasted ~15 minutes. We used the EyeToy interface for PlayStation 2 (Sony, Tokyo, Japan) and a video projector to display the image on a large 2 m ×1.5 m screen. Motion was detected by a USB camera. Participants played the video games by moving their bodies. The goal was to make the participants move and give them visual feedback on their movements. We administered two different games. In the first one, participants were asked to wash a window covered in foam. They had to raise their hands above their head and move them from side to side to remove all the foam. In the second game, participants had to use their hands to get rid of enemies coming from the left and right (kung fu). The level of difficulty was adjusted to match each participant’s progress (parameter: time taken to wash the window for the first game and rapidity and number of enemies neutralized for the second one).
The control participants remained on the waiting list for 12 weeks, during which time there was no change in their treatment.
Statistical analysis
We calculated the differences in the scores on the various scales (FFM, BDI, STAI-Y-A, STAI-Y-B, and SDS) before and after the intervention for the virtual reality therapy and control (waiting list) groups. Nonparametric tests (Mann–Whitney and Fisher) were used to compare these differences between these two groups. The primary outcome was the difference in FFM scores.
Results
We recruited 16 participants with fear of falling: nine in the treatment group and seven in the control group. Six women and three men were included in the treatment group, and four women and three men in the control group (no significant difference, P=1.00). Mean ages (standard deviation [SD]) were 72.4 years (12.25) for the treatment group and 68.65 years (19.05) for the control group. There was no significant difference between the two groups for age (P=0.634). All the participants exhibited fear of falling and had walking difficulties that could not be explained by their physical condition. Their fear of falling had emerged following a fall (traumatic psychological origin) for all participants. They were all able to walk with or without mechanical help. One participant in each group had sustained a fracture owing to a fall. No significant difference was found at baseline on the mean FFM scores: 39.0 (7.71) for the treatment group and 34.43 (9.32) for the control group (P=0.351). Participants were moderately to severely impaired in their social and family lives because of their fear of falling. Mean SDS scores for social life were 6.44 (3.17) for the treatment group and 6.00 (1.15) for the control group. Mean SDS scores for family life were 5.44 (4.07) and 4.71 (3.40), respectively. No significant difference was found between the two groups (P=0.485 and P=0.709). Participants presented several comorbidities, but these could not explain their walking difficulties. They included systemic sclerosis (one in each group), Parkinson’s disease (two in the treatment group), knee prosthesis for arthrosis (one in each group), and cerebral stroke (two in the treatment group: one with vertebrobasilar stroke and one with Sylvian fissure stroke). None of the participants had severe depression: mean BDI scores were 12.88 (SD =7.00) for the treatment group and 8.29 (5.82) for the control group. Mean STAI-Y-A scores were 39.44 (14.64) for the treatment group and 35.29 (8.18) for the control group. Mean STAI-Y-B scores were 47.5 (9.29) for the treatment group and 42.57 (7.04) for the control group. No significant difference was found between the two groups at baseline for these measures: BDI (P=0.266), STAI-Y-A (P=0.873), and STAI-Y-B (P=0.164). Baseline results are set out in .
Table 1 Participants’ mean (SD) baseline characteristics
The difference between mean FFM scores before and after the intervention was −2.78 (4.82) for the therapy group and 4.14 (4.3) for the control group, with a significantly greater decrease in the therapy group (P=0.007). The difference in mean BDI scores between the therapy and control groups was not significant: −3.00 (10.79) versus 3.25 (2.75) (P=0.476). The difference between the two groups on mean state anxiety scores (STAI-Y-A) was significant: −8.86 (14.46) versus 9.8 (4.66) (P=0.005). The difference between the two groups on mean trait anxiety scores (STAI-Y-B) was not significant: −5.50 (9.18) versus 1.60 (9.76), P=0.247. The difference between the two groups on mean SDS scores for social life was not significant: −1.22 (2.16) versus 0.57 (2.30), P=0.180. Nor was the difference in mean SDS scores for family life: −1.56 (−3.78) versus 1.29 (3.77), respectively; P=0.120. The results are shown in .
Table 2 Comparison of mean (SD) results for VRET and WL groups
Discussion
In this study, we assessed the efficacy of associating virtual reality therapy with serious games to treat fear of falling. The FFM scores of participants who completed the 12 sessions were significantly lower than those of participants who were treated as usual. Therefore, virtual reality therapy associated with serious games can be used in the treatment of fear of falling.
This study was innovative for two reasons. First, we combined two complementary techniques: virtual reality therapy and serious games. To our knowledge, this is the first time that this combination has been assessed. Virtual reality provides real-time feedbackCitation30 and requires the cognitive organization and execution of synchronized motion (top-down process), whereas serious games allow for embodiment (bottom-up process) and thus complement virtual reality. Second, in contrast to previous trials that highlighted the balance dimension, we focused on the psychological dimension (phobic reaction) of this pathology, with an intervention involving virtual exposure to walking with no vestibular rehabilitation. Thus, the fear of falling was regarded as an anxiety disorder that was treated with exposure therapy in the form of virtual reality, whose validity has already been proved in this kind of pathology.
We did not find any significant improvement in BDI, STAI-Y-B, or SDS scores in the wake of the virtual reality therapy. Therefore, the improvement in fear of falling was not mediated by an effect on patients’ depressive mood (BDI), general functioning (STAI-Y-B), or motor aspects (SDS). Thus, the effect of virtual reality therapy associated with serious games on the fear of falling is specific and concerns the phobic reaction itself.
Participants’ mean ages were 69 years (virtual reality) and 72 years (control), indicating that new technologies can be used efficiently with elderly people.
Limitations
This study had several limitations. The number of participants was, of course, small. Furthermore, because the randomization was not done with the appropriate software, but by drawing lots, it cannot be regarded as a true randomized clinical trial.
Conclusion
We can draw several conclusions from this preliminary analysis. First, results suggest that virtual reality therapy is an effective treatment for fear of falling syndrome. However, because we did not use a proper randomization procedure, we are planning to undertake a true randomized control trial featuring the same treatment protocol (virtual reality combined with serious games). Second, our preliminary results indicate that 221 patients would have to be included in such a trial (alpha risk: 0.05; beta risk: 0.2).Citation31 This number of patients could be reduced by applying an analysis of variance to the baseline scores.Citation32 Increasing the number of patients would probably lead to a more clearly significant difference at the end point. By including sufficient patients to achieve statistical power, we would be able to reach a definitive conclusion as to the usefulness of virtual reality therapy associated with serious games for treating fear of falling.
Disclosure
The authors report no conflicts of interest in this work.
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