Abstract
Introduction
Spinocerebellar ataxias (SCAs) are a heterogeneous group of neurodegenerative diseases.
Objective
To evaluate the living standard of patients with SCA, by applying the Vestibular Disorders Activities of Daily Living Scale (VADL) and Activitiesspecific Balance Confidence Scale (ABC) questionnaires.
Methods
An uncontrolled clinical trial study was conducted with 28 patients who underwent anamnesis, ENT evaluation, and vestibular assessment and the application of questionnaires VADL and ABC before and after rehabilitation with virtual reality.
Results
The vestibular exam was altered in 64.3% of the cases. The result between the correlation of the VADL and ABC questionnaires showed significant results in all cases (p < 0.005). The correlation between the ages and disease length with the VADL and ABC questionnaires was significant in the T3 assessment (p = 0.015). The correlation between the disease length and the VADL questionnaire was significant in all cases (p < 0.005). The comparison of the vestibular rehabilitation result (T1 to T2) showed a significant difference for all the applied games, except for the ski slalom. The comparison of the vestibular rehabilitation result (T1 to T3) showed significant difference for all the applied games (p < 0.005) (1st assessment before the start of rehabilitation designated T1, after 10 rehabilitation sessions, considered T2 and, at the end of 20 rehabilitation sessions, called T3).
Conclusion
We can point out a direct improvement in the living standard, reflected by the reduction of falls, better balance, and march, contributing to a higher self-confidence in patients in daily activities.
Keywords
Ataxia; quality of life; rehabilitation; neurodegenerative diseases; postural balance
Introduction
Spinocerebellar ataxias (SCAs) are a heterogeneous group of neurodegenerative diseases, especially progressive cerebellar ataxia. They present classical symptoms, such as ataxia, muscle hypotonia, nystagmus, dysarthria, and movement tremor.11 Teive HAG. Spinocerebellar ataxias. Arq Neuropsiquiatr 2009;67 (04):1133–1142–33 Artigas NR, Ayres JS, Noll J, Peralles SRN, Borges MK, de Brito CIB. Physical therapy treatment for people with spinocerebellar ataxia: a literature review. Rev Neurociênc. 2013;21(01):126–135
The risk of falls is high and frequent in people with SCAs. The body balance depends on the vestibular system integrity: labyrinth, vestibulocochlear nerve, central nervous system (CNS) nuclei pathways and interrelationships, somatosensory system (sensory receptors in tendons, muscles, and joints), and vision.22 Watanabe N, Lin J, Lin K. Hereditary progressive ataxia: 20 years from first symptoms and signs to diagnosis. Arq Catarin Med. 2013;42(02):81–85,44 Herdman SJ. Vestibular rehabilitation. Curr Opin Neurol 2013;26 (01):96–101
Dizziness and/or imbalance may impair the individuals' performance of activities in daily life (ADLs), such as those that demand quick head movements and tasks that demand trunk and head flexion.55 Cohen H. Vestibular rehabilitation improves daily life function. Am J Occup Ther 1994;48(10):919–925 The extent to which dizziness impairs individuals' ADLs can be assessed by validated questionnaires. Currently, there are questionnaires that assess perceptions of dizziness and body balance to quantify the impacts of such symptoms on the patient's daily life. Among the existing instruments, the Vestibular Activities of Daily Living Scale (VADL), adapted to the Brazilian population by Aratani et al.,66 Aratani MC, Ricci NA, Caovilla HH, Ganança FF. Brazilian version of the Vestibular Disorders Activities of Daily Living Scale (VADL). Rev Bras Otorrinolaringol (Engl Ed) 2013;79(02):203–211 assesses a scale of the patients' self-perception on their performance and independence to conduct daily activities. Another instrument, the Activities-Specific Balance Confidence Scale (ABC), adapted to the Brazilian population by Marques et al.,77 Marques AP, Mendes YC, Taddei U, Pereira CAB, Assumpção A. Brazilian-Portuguese translation and cross cultural adaptation of the activities-specific balance confidence (ABC) scale. Braz J Phys Ther 2013;17(02):170–178 verifies by a scale the individuals' self-confidence to conduct ADLs.
The CNS promptly organizes and processes visual, vestibular, and proprioceptive sensory information in specific areas in the brainstem and cerebellum, which control head, neck, cervical spine, legs, arms, eyes, and all body muscles. We stress the importance of the vestibular system in SCAs.88 Jurkiewicz AL, Collaço LM, Zeigelboim BS. Functional anatomy of the ear. In: Zeigelboim BS, Jurkiewicz AL, eds. Multidisciplinarity in otoneurology. São Paulo: Roca; 2012:19–95
Vestibular rehabilitation (VR) is considered a therapeutic resource due to its proposal based on the central mechanisms of neuroplasticity.44 Herdman SJ. Vestibular rehabilitation. Curr Opin Neurol 2013;26 (01):96–101,99 Zeigelboim BS, de Souza SD, Mengelberg H, Teive HAG, Liberalesso PBN. Vestibular rehabilitation with virtual reality in spinocerebellar ataxia. Audiol Commun Res 2013;18(02):143–147,1010 Manso A, Ganança MM, Caovilla HH. Vestibular rehabilitation with visual stimuli in peripheral vestibular disorders. Rev Bras Otorrinolaringol (Engl Ed) 2016;82(02):232–241 The CNS processes that information and generates responses by means of reflexes. The vestibule-ocular reflex (VOR), allows visual stabilization during the head movements, and the vestibulospinal reflex (VSR), generates a body compensation movement to keep head and body stability, thus preventing falls.44 Herdman SJ. Vestibular rehabilitation. Curr Opin Neurol 2013;26 (01):96–101
Exercises aim to improve the visual-vestibular interaction during head motion and expand static and dynamic postural stability – because they produce conflicting sensory information –, enhance the capability to perform daily activities, and provide greater physical independence to patients.1010 Manso A, Ganança MM, Caovilla HH. Vestibular rehabilitation with visual stimuli in peripheral vestibular disorders. Rev Bras Otorrinolaringol (Engl Ed) 2016;82(02):232–241,1111 Schiavinato AM, Machado Bde C, Pires Mde A, Baldan C. Virtual reality influence on balance of patient with cerebellar dysfunction - Case Study. Rev Neurociênc. 2011;19(01):119–127
Therefore, this study aims to evaluate the benefit of VR with virtual reality through the application of the VADL and ABC questionnaires in patients with SCA.
Methods
The study fulfilled the Helsinki Declaration for Ethical use of human material. This study was approved by the Ethics Board (Plataforma Brasil) under no. 832.502/2014, CAAE 37083714.0.0000.0103. The anonymity of participants was guaranteed, and informed consent was obtained from all participants.
A descriptive, retrospective cross-sectional study was carried out. Twenty-eight patients (eight females and 20 males) (three SCA type 2, five SCA type 3, five SCA type 10, and eight SCA recessive type). Seven patients were under genetic investigation to diagnose the type of SCA that comprised the undetermined SCA type.
The SCA diagnosis was done by PCR (Polymerase Chain Reaction).1212 Dueñas AM, Goold R, Giunti P. Molecular pathogenesis of spinocerebellar ataxias. Brain 2006;129(Pt 6):1357–1370,1313 Schöls L, Bauer P, Schmidt T, Schulte T, Riess O. Autosomal dominant cerebellar ataxias: clinical features, genetics, and pathogenesis. Lancet Neurol 2004;3(05):291–304 The PCR reaction is because oligonucleotides (primers) hybridize specifically with a DNA template strand, enabling the production of multiple copies of specific DNA sequences.1414 Pulst SM. Introduction to Medical Genetics and Methods of DNA Testing. In: Genetics of Movement Disorders. 2003:1–18
To measure the severity of ataxia, the Scale for the Assessment and Rating of Ataxia (SARA) proposed by Schmitz - Hübsch et al.,1515 Schmitz-Hübsch T, du Montcel ST, Baliko L, et al. Scale for the assessment and rating of ataxia: development of a new clinical scale. Neurology 2006;66(11):1717–1720 further translated and validated in Brazil by Braga-Neto et al.1616 Braga-Neto P, Godeiro-Junior C, Dutra LA, Pedroso JL, Barsottini OGP. Translation and validation into Brazilian version of the Scale of the Assessment and Rating of Ataxia (SARA). Arq Neuropsiquiatr 2010;68(02):228–230 was used.
Patients' age ranged from 15 to 70 years (mean age 41.6 ± 16.9 years). Disease onset ranged from two to 40 years (mean of 13.3 ± 12.4 years).
Patients included in the study: those with no middle-ear disorders, absence of assistive gait devices, and no former rehabilitation therapy. Patients excluded from the study: those unable to respond and understand simple verbal commands and severe visual impairment or other abnormalities that hindered the performance of the proposed procedures.
Limitation of the Study
The study began with 35 patients. However, seven patients did not conclude the study (three died, two missed the therapy sessions, and two did not meet the inclusion criteria). We point to the difficulty in adhering this population to exercise since it is a highly impacting disease not only physically, but also psychologically.
Measurements
All patients underwent an otorhinolaryngological exam, anamnesis, and vestibular assessment with digital vector electronystagmography (VENG) which has its own software VecWin2 (Neurograff Eletromedicina LTDA, São Paulo/SP, Brazil), a rotating chair model COD 14200, rotation 0.01 to 0.5Hz, (Cadeiras Ferrante Ltda, São Paulo, SP, Brazil), a visual stimulator model EV VEC (Neurograff Eletromedicina LTDA, São Paulo, SP, Brazil), and an air caloric stimulator model NGR 05 (Neurograff Eletromedicina LTDA, São Paulo, SP, Brazil). The flow rate used was 5 and 13 L/min. The VADL and ABC questionnaires were applied before rehabilitation: 1st assessment (T1) was after ten rehabilitation sessions, the 2nd assessment (T2) was at the end of 20 rehabilitation sessions, and the 3rd assessment (T3) aimed to observe prospective changes after intervention.
Vestibular Disorders Activities of Daily Living Scale (VADL)
This questionnaire assesses the dependence and the impacts of body imbalance on the performance of daily activities. The questionnaire includes 28 ADLs divided into three subscales: functional (12 activities), ambulation (nine activities), and instrumental (seven activities). Using a qualitative scale, the patients scored 0 to 10 points according to their performance and independence in performing each described activity. The score is calculated by median values: the higher the score, the higher the dependence and inability of the patient. For "not applicable" (N/A) answers, that is, if the patient does not perform the activity or does not want to reply, the question is given a score of zero.
Activities-specific Balance Confidence Scale (ABC)
This questionnaire assesses the level of confidence of the individual in the ability to maintain balance while performing specific daily activities. The questionnaire comprises 16 questions on how confident subjects are to conduct a certain activity (not confident 0%, and completely confident to conduct the activity without losing balance 100%). Therefore, the higher the percentage, the greater the self-confidence.
Vestibular Rehabilitation with Virtual Reality
This is a therapeutic method used in body balance rehabilitation. A Nintendo® Wii was used: Wii-Remote and Wii Balance Board (Nintendo Co, Ltd., Kyoto, Japan) were used. This platform measures the applied strength and senses balance changes by pressure sensors. The sensors are responsible for the interface between the machine and the player. Initially, the patients got used to the game and were instructed on the necessary movements to play it.
Four balance games were played (Soccer Heading, Table Tilt, Tightrope, and Ski Slalom). Strategies aimed at training gaze stability, head movement, static and dynamic balance, motor coordination, rotation movement of the pelvis, and weight transfer aiming to verify changes in balance and postural stability. All patients underwent 20 sessions of VR of 50 minutes each twice a week. Then, they answered the same assessment questionnaires before and after the end of rehabilitation sessions.
Statistical Analysis
Comparisons between groups and times were made using Friedman's non-parametric test/two-way analysis of variance by ranks (Friedman's ANOVA). To compare two nominal variables in VADL and ABC questionnaires, the Wilcoxon signed-rank test was used considering Bonferroni correction.
Spearman's correlation was used to analyze the correlation between disease time and the VADL and ABC questionnaires. The correlation strength between these variables was considered very strong, strong, moderate, low, and irrelevant, when the values of the correlation coefficient (positive or negative) were between 0.9 - 1, 0.7 - 0.89, 0.5 - 0.69, 0.3 - 0.49, and 0.0–0.29, respectively.1717 Mukaka MM. Statistics corner: A guide to appropriate use of correlation coefficient in medical research. Malawi Med J 2012;24 (03):69–71
A comparison of results in games and their interaction with group X time was made by Student paired t-test.
All statistical analyses were conducted using the software SPSS v. 16.0 (IBM SPSS, Armonk, NY) and Statistical 6.0 with a significance level of 5%.
Result
The most reported otoneurologic complaints in the anamnesis were imbalance (85.7%), falls (28.5%), dizziness (17.8%), diplopia (10.7%), and tremor (7.1%).
The vestibular exam pointed to disorders in 18 cases (64.4%), with ten cases (35.8%) of peripheral vestibular disorders and eight cases (28.6%) of central vestibular disorders. Testing was normal in ten cases (35.6%).
Friedman's ANOVA showed that the comparison group x time of the VADL questionnaire for the functional (p = 0.236), ambulation (p = 0.936), and instrumental (p = 0.973) domains had no significant differences between the scores of the three domains (p > 0.05). Comparison between the total scores of the VADL questionnaire also showed no significant differences (p = 0.531). The comparison of two nominal variables by the Wilcoxon signed-rank test did not show statistically significant differences (p > 0.005) (Table 1).
Comparisons of the results of the VADL and ABC questionnaire according to the evaluation time (n = 28)
Friedman's ANOVA evidenced no significant differences between the scores in the three assessments (T1, T2, and T3) (p = 0.119) compared to the interaction group x time in the ABC questionnaire. The comparison of two nominal variables by the Wilcoxon test also showed no statistical differences between times (p > 0.005) (Table 1).
The application of Spearman correlation showed significant results (p < 0.005) between the VADL and ABC questionnaires in all cases (Table 2). As the correlation coefficient was always negative, there was an inverse correlation between questionnaires, that is, lower scores in the VADL questionnaire correspond to higher scores in the ABC questionnaire. Correlation strengths ranged from strong to moderate between the different variables and are available in Table 2. Therefore, the best results in the VADL questionnaire correspond to the best results in the ABC questionnaire. We can also notice that the greatest correlations between questionnaires occurred in the T3 assessment. Concerning dimensions, the greatest correlations were for the functional dimension.
The application of the Spearman correlation showed no significant correlations between ages and the VADL and ABC questionnaires, except for the instrumental dimension of the VADL questionnaire in the T3 assessment (p = 0.015) (Table 3). As for disease time, the correlation was significant in all cases. As the coefficient correlation was always positive for the VADL questionnaire, there was a direct correlation to disease time, that is, the questionnaire results worsened as the disease time increased. Regarding the ABC questionnaire, all correlations were negative and there was an inverse correlation to disease time, that is, the worst questionnaire results in the ABC questionnaire are associated with a longer disease time. Correlation strengths for each variable are available in Table 3.
Correlation between age and length of the disease to the VADL and ABC questionnaires (n = 28)
The comparison of the games played during the VR with virtual reality in T1 and T2 assessments by Student t-test showed significant differences for the games Soccer Heading (p = 0.006), Tightrope (p≤0.000), and Table Tilt (p = 0.000), except for the Ski Slalom (p = 0.100) (Table 4).
The comparison between T1 and T3 assessments regarding the games played during the VR with virtual reality by Student t-test showed significant differences in all applied games. There was a major improvement in patients during the rehabilitation therapeutics playing Soccer Heading (p = 0.015), Tightrope (p = 0.000), Table Tilt (p = 0.000), and Ski Slalom (p = 0.017) (Table 4).
Discussion
Multiple otoneurologic symptoms were detected in anamnesis, among them imbalance (85.7%), falls (28.5%), dizziness (17.8%), diplopia (10.7%), and tremor (7.1%). According to Teive,11 Teive HAG. Spinocerebellar ataxias. Arq Neuropsiquiatr 2009;67 (04):1133–1142 the reported symptoms are common manifestations that may occur along the disease course. In a study conducted with people with Friedreich's ataxia, the most reported complaints of the anamnesis were uncoordinated movement (66.7%), gait imbalance (56.7%), and dizziness (50%). The cerebellum and its medial zone, while promoting the contracture of the limbic axial and proximal muscles, primarily maintain balance and stance.1818 Zeigelboim BS, Teive HAG, Santos GJB, et al. Otoneurological findings prevalent in hereditary ataxias. Arq Neuropsiquiatr 2018;76(03):131–138
Regarding the vestibular testing in this study, vestibular dysfunction (VD) occurred in 64.8% of participants. 35.7% featured peripheral VD and 28.6% featured central VD. This corroborates the authors' findings (4): 50% of SCA patients were diagnosed with peripheral VD and the other 50% were diagnosed with central VD. Faryniuk et al.1919 Faryniuk JH, Zeigelboim BS, Teive HAG, Fo VR, Liberalesso PBN, Marques JM. The importance of labyrinthine examination in the prognosis and therapy for balance in spinocerebellar ataxia. Int Tinnitus J 2017;20(02):93–101 studied 57 patients with SCA types 2, 3, 6, 7, and 10 and evidenced 72% of central VD, 12.2% of peripheral VD, and 15.8% had normal diagnosis. Nagaoka et al.2020 Nagaoka U, Takashima M, Ishikawa K, et al. A gene on SCA4 locus causes dominantly inherited pure cerebellar ataxia. Neurology 2000;54(10):1971–1975 explained that VD combined with cerebellar atrophy significantly contributes to gait instability, an early symptom of SCA.
By comparing assessment times (T1, T2 e T3) to the VADL questionnaire domains (functional, ambulation, and instrumental), there was no significant result (Table 1). Nobre et al.2121 Nobre N, Nobre V, Araujo G. Reabilitação vestibular na disfunção labiríntica: estudo de caso. Trabalho de Conclusão de Curso (Graduação). Instituto Superior de Londrina (INESUL) - Londrina, PR; 2017 applied the VADL questionnaire before and after ten sessions of VR in a patient with peripheral VD. The questionnaire evidenced that the patient had an initial scoring of independence in 14 activities; after rehabilitation, her results improved: there were 24 activities of independence in reassessment, thus showing a significant improvement. For Cohen,55 Cohen H. Vestibular rehabilitation improves daily life function. Am J Occup Ther 1994;48(10):919–925 the VADL questionnaire has a major importance since it aims to assess the impacts of dizziness and imbalance on the performance of ADLs. Although the current study, did not show a statistical significance, the medians decreased over time.
There was no significant result between the three assessments in the application of the ABC questionnaire, as well as in the comparison of two nominal variables between times (Table 1). The ABC questionnaire assesses individuals' level of confidence to keep balance or become unstable while performing ADLs. Araújo2222 de Araújo MIB Comparação do nível de confiança para realização de atividades diárias pré e pós reabilitação vestibular - Trabalho de Conclusão de Curso (Graduação). Universidade Federal do Rio Grande do Norte. Centro de Ciências da Saúde. Departamento de Fonoaudiologia - Natal, RN; 2018 conducted a study with 14 subjects suffering from peripheral vestibulopathy and applied the ABC questionnaire before and after VR. The authors reported a statistical difference for all questionnaire items. Similar to that observed for the VADL questionnaire, the median increase over time shows a tendency for improvement after therapy. This is corroborated by the statistically significant difference observed when the scoring of the three games was assessed in the three times (Table 4).
The correlation between the VADL and ABC questionnaires showed significant results for all dimensions (Table 2). After the VR, patients reported improvements in body balance, which meant greater security and confidence to perform daily activities.
The correlation between ages and disease time (Table 3) enabled us to observe no significant correlations between ages and the VADL and ABC questionnaires, except for the instrumental dimension of the VADL questionnaire in the T3 assessment. Regarding disease time, there was a significant result in both questionnaires, that is, the longer the disease, the worse the result. Teive11 Teive HAG. Spinocerebellar ataxias. Arq Neuropsiquiatr 2009;67 (04):1133–1142 reported that the longer the disease, the more severe the symptoms since it is a degenerative disease.
After the 10th virtual reality session in the current study, there was a significant improvement in the applied games, except for Ski Slalom (Table 4). Hsu et al.2323 Hsu SY, Fang TY, Yeh SC, Su MC, Wang PC, Wang VY. Three-dimensional, virtual reality vestibular rehabilitation for chronic imbalance problem caused by Ménière's disease: a pilot study. Disabil Rehabil 2017;39(16):1601–1606 studied 70 individuals with chronic imbalance caused by Ménière disease undergoing VR sessions and observed that there was improvement in the scores of extension movements and movement coordination after the 6th session. Negrini et al.2424 Negrini S, Bissolotti L, Ferraris A, Noro F, Bishop MD, Villafañe JH. Nintendo Wii Fit for balance rehabilitation in patients with Parkinson's disease: A comparative study. J Bodyw Mov Ther 2017;21(01):117–123 used virtual reality in a study with patients suffering from Parkinson's disease and observed that ten sessions with Nintendo Wii were enough to produce positive results in the short-term concerning the patients' balance. The VR aims at the functionality of vestibular systems by neuroplasticity mechanisms called habituation, substitution, and adaptation. This corroborates the findings of this study.
The comparison between the games played during the VR with virtual reality (T1-T3) showed significant differences in all applied games. There was an outstanding improvement for all patients undergoing rehabilitative therapeutics (Table 4). Silva and Iwabe-Marchese2525 da Silva RR, Iwabe-Marchese C. Using virtual reality for motor rehabilitation in a child with ataxic cerebral palsy: case report. Fisioter Pesqui 2015;22(01):97–102 used Wii games in the VR of a child with cerebral palsy and, at the end of the research, it affected the improvement of the child's functionality. Chen et al.2626 Chen PY, Hsieh WL, Wei SH, Kao CL. Interactive wiimote gaze stabilization exercise training system for patients with vestibular hypofunction. J Neuroeng Rehabil 2012;9(01):77 reported a significant improvement in static and dynamic balance and in the quality of life of patients with brain lesions/cerebral vascular accidents by means of rehabilitation training with virtual reality using a Nintendo Wii®. The authors observed improvements in gaze stability after 12 sessions of exercises, 40 minutes each, for six weeks. According to the authors, the beneficial training outcomes may last for at least a month after its end.
According to the authors,2626 Chen PY, Hsieh WL, Wei SH, Kao CL. Interactive wiimote gaze stabilization exercise training system for patients with vestibular hypofunction. J Neuroeng Rehabil 2012;9(01):77,2727 Schubert MC, Minor LB. Vestibulo-ocular physiology underlying vestibular hypofunction. Phys Ther 2004;84(04):373–385 the primary functions of the vestibular system are to detect head movements, keep the image stability projected in the retinal fovea, and keep the postural control during head movements. The vestibule works by detecting head position and movement, thus providing proper sensory information to the CNS. Sensory input is primarily sent to the vestibular nuclei for processing and to the cerebellum for micro-regulation and body balance coordination. The CNS stabilizes the head and body by means of neural reflexes from the vestibular system. For the authors,2626 Chen PY, Hsieh WL, Wei SH, Kao CL. Interactive wiimote gaze stabilization exercise training system for patients with vestibular hypofunction. J Neuroeng Rehabil 2012;9(01):77,2727 Schubert MC, Minor LB. Vestibulo-ocular physiology underlying vestibular hypofunction. Phys Ther 2004;84(04):373–385 slow persecutory movements of the eye, the optokinetic function, and cervical-ocular reflexes may interact with the VOR to reduce the retinal slip.
With the recent technological breakthroughs, new sensory devices have been developed. Virtual reality therapy provides patients with a controlled environment and helps them to adapt gradually to inducing situations of dizziness, imbalance, and falls, which often affect their QOL in a significant way.2626 Chen PY, Hsieh WL, Wei SH, Kao CL. Interactive wiimote gaze stabilization exercise training system for patients with vestibular hypofunction. J Neuroeng Rehabil 2012;9(01):77
We would like to point out that despite failing to show statistical significance in the comparison between assessment times (T1, T2, and T3) and the applied VADL and ABC questionnaires, the median between them pointed to a tendency of improvement. Such an improvement evidenced by the application of questionnaires was not enough to show the statistical evidence. However, patients reported postural improvement, corroborated by the statistically significant differences observed when the scores of the games were assessed in the three assessment times.
Concerning the games applied, the patients evidenced a significant improvement in all assessment times.
Virtual reality is a novel rehabilitation strategy regarded as an enjoyable alternative to enhance motor recovery. Virtual reality ranges from non-immersive to fully immersive, depending on the degree to which the user is isolated from the physical surroundings when interacting with the virtual environment. The Wii® requires constant changes in standing posture from individuals, assessing their ability to control environmental stimulation using bodily changes.
The game stimulates the patient in a spontaneous and natural way to move using different motor strategies for each requested challenge in the game. Thus, the greater variability of movements in a therapeutic context and the increased attention and motivational demands are constant requirements. And that seems to provide a new and promising strategy for the rehabilitation of those patients.
Currently, it seems coherent to consider VR as a therapeutic supporting resource in the process of neurologic rehabilitation. The motivational characteristics, motion repeatability, and the induction of the directed movement to a goal permit the patient a diversity of situations and stimuli, challenging him continuously to accomplish the tasks in a therapeutic context, but there are some issues associated with such an approach that suggest caution in its use or, at the very least, further in-depth analyses due to the difficulty of equipment standardization.
In the current study, no side effects were observed, such as dizziness, sickness, or headache due to the use of the Wii® equipment. However, Park and Lee2828 Park S, Lee G. Full-immersion virtual reality: Adverse effects related to static balance. Neurosci Lett 2020;733:134974 assessed healthy adults and observed adverse effects while using fully immersive virtual reality with fixed and moving backgrounds. The authors reported that participants' adverse effects were reduced with fixed backgrounds. The authors2929 Kim A, Darakjian N, Finley JM. Walking in fully immersive virtual environments: an evaluation of potential adverse effects in older adults and individuals with Parkinson's disease. J Neuroeng Rehabil 2017;14(01):16 assessed elderly subjects suffering from Parkinson's disease, using immersive virtual reality by means of the "Oculus Rift", and no changes were verified in the static and dynamic postural control. No discomfort was reported either.
Conclusion
There is an effective improvement observed in the reduction of fall frequency and the improvement in balance and gait. These factors provided greater self-confidence for patients to perform ADLs, positively impacting the QOL. We emphasize the benefit of VR with virtual reality due to the symptomatology improvement in this type of population.
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FundingConselho Nacional de Desenvolvimento Científico e Tecnológico (CNPQ), Registration number: 302650/2018-0.
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The paper was presented in Brazilian Congress of Neurology, 2022.
References
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1Teive HAG. Spinocerebellar ataxias. Arq Neuropsiquiatr 2009;67 (04):1133–1142
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2Watanabe N, Lin J, Lin K. Hereditary progressive ataxia: 20 years from first symptoms and signs to diagnosis. Arq Catarin Med. 2013;42(02):81–85
-
3Artigas NR, Ayres JS, Noll J, Peralles SRN, Borges MK, de Brito CIB. Physical therapy treatment for people with spinocerebellar ataxia: a literature review. Rev Neurociênc. 2013;21(01):126–135
-
4Herdman SJ. Vestibular rehabilitation. Curr Opin Neurol 2013;26 (01):96–101
-
5Cohen H. Vestibular rehabilitation improves daily life function. Am J Occup Ther 1994;48(10):919–925
-
6Aratani MC, Ricci NA, Caovilla HH, Ganança FF. Brazilian version of the Vestibular Disorders Activities of Daily Living Scale (VADL). Rev Bras Otorrinolaringol (Engl Ed) 2013;79(02):203–211
-
7Marques AP, Mendes YC, Taddei U, Pereira CAB, Assumpção A. Brazilian-Portuguese translation and cross cultural adaptation of the activities-specific balance confidence (ABC) scale. Braz J Phys Ther 2013;17(02):170–178
-
8Jurkiewicz AL, Collaço LM, Zeigelboim BS. Functional anatomy of the ear. In: Zeigelboim BS, Jurkiewicz AL, eds. Multidisciplinarity in otoneurology. São Paulo: Roca; 2012:19–95
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9Zeigelboim BS, de Souza SD, Mengelberg H, Teive HAG, Liberalesso PBN. Vestibular rehabilitation with virtual reality in spinocerebellar ataxia. Audiol Commun Res 2013;18(02):143–147
-
10Manso A, Ganança MM, Caovilla HH. Vestibular rehabilitation with visual stimuli in peripheral vestibular disorders. Rev Bras Otorrinolaringol (Engl Ed) 2016;82(02):232–241
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11Schiavinato AM, Machado Bde C, Pires Mde A, Baldan C. Virtual reality influence on balance of patient with cerebellar dysfunction - Case Study. Rev Neurociênc. 2011;19(01):119–127
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12Dueñas AM, Goold R, Giunti P. Molecular pathogenesis of spinocerebellar ataxias. Brain 2006;129(Pt 6):1357–1370
-
13Schöls L, Bauer P, Schmidt T, Schulte T, Riess O. Autosomal dominant cerebellar ataxias: clinical features, genetics, and pathogenesis. Lancet Neurol 2004;3(05):291–304
-
14Pulst SM. Introduction to Medical Genetics and Methods of DNA Testing. In: Genetics of Movement Disorders. 2003:1–18
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15Schmitz-Hübsch T, du Montcel ST, Baliko L, et al. Scale for the assessment and rating of ataxia: development of a new clinical scale. Neurology 2006;66(11):1717–1720
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16Braga-Neto P, Godeiro-Junior C, Dutra LA, Pedroso JL, Barsottini OGP. Translation and validation into Brazilian version of the Scale of the Assessment and Rating of Ataxia (SARA). Arq Neuropsiquiatr 2010;68(02):228–230
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17Mukaka MM. Statistics corner: A guide to appropriate use of correlation coefficient in medical research. Malawi Med J 2012;24 (03):69–71
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18Zeigelboim BS, Teive HAG, Santos GJB, et al. Otoneurological findings prevalent in hereditary ataxias. Arq Neuropsiquiatr 2018;76(03):131–138
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19Faryniuk JH, Zeigelboim BS, Teive HAG, Fo VR, Liberalesso PBN, Marques JM. The importance of labyrinthine examination in the prognosis and therapy for balance in spinocerebellar ataxia. Int Tinnitus J 2017;20(02):93–101
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20Nagaoka U, Takashima M, Ishikawa K, et al. A gene on SCA4 locus causes dominantly inherited pure cerebellar ataxia. Neurology 2000;54(10):1971–1975
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21Nobre N, Nobre V, Araujo G. Reabilitação vestibular na disfunção labiríntica: estudo de caso. Trabalho de Conclusão de Curso (Graduação). Instituto Superior de Londrina (INESUL) - Londrina, PR; 2017
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22de Araújo MIB Comparação do nível de confiança para realização de atividades diárias pré e pós reabilitação vestibular - Trabalho de Conclusão de Curso (Graduação). Universidade Federal do Rio Grande do Norte. Centro de Ciências da Saúde. Departamento de Fonoaudiologia - Natal, RN; 2018
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23Hsu SY, Fang TY, Yeh SC, Su MC, Wang PC, Wang VY. Three-dimensional, virtual reality vestibular rehabilitation for chronic imbalance problem caused by Ménière's disease: a pilot study. Disabil Rehabil 2017;39(16):1601–1606
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Publication Dates
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Publication in this collection
19 Aug 2024 -
Date of issue
2024
History
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Received
28 Aug 2022 -
Accepted
28 Jan 2023