Test-Retest Reliability and Minimal Detectable Change for the 10-Meter Walk Test in Older Adults With Parkinson's disease

Effects of rhythmic auditory stimulation on functionality in Parkinson’s disease

Abstract Introduction: Functionality is affected by the clinical characteristics and progression of Parkinson’s disease (PD). Objective: Assess the effects of a therapeutic exercise program associated with music-based rhythmic auditory stimulation (RAS) on the Activities and Participation Profile (APP) related to mobility of people with PD. Methods: Intervention study investigating people with moderate PD recruited from the Hospital das Clínicas of the Federal University of Pernambuco and the Parkinson’s Disease Association of Pernambuco. The APP related to mobility of the participants was assessed based on the International Classification of Functioning Disability and Health (ICF). The APP contains 23 activity/participation items scored from 0 (no problem) to 4 (complete problem). The intervention consisted of 10 outpatient sessions of a therapeutic exercise program associated with music-based RAS, applied using a smartphone application (ParkinSONS®), performed twice a week, with an average duration of 50 minutes per session. Given the metric nature of the variable and its non-normal distribution, Wilcoxon’s test was applied, considering p < 0.05. Results: In the sample of 8 patients, there was a significant decline in APP scores after intervention (p = 0.018*), indicating a positive change. Scores for all the APP activities decreased following the intervention, except for “transferring oneself to the left side while lying down”. Conclusion: In this study, a therapeutic exercise program associated with music-based RAS had a positive effect on the APP related to mobility of people with moderate PD.

High-Intensity Interval Cycle Ergometer Training in Parkinson's Disease: Protocol for Identifying Individual Response Patterns Using a Single-Subject Research Design

Background: People with Parkinson's disease (PD) experience not only motor problems but also non-motor problems that seriously impede their daily functioning and quality of life. The current pharmacologic treatment of PD is symptomatic, and alternative rehabilitation treatments, which preferably also have a disease-modifying effect and promote neuroplasticity, are needed. Recent studies suggest that high-intensity interval training (HIIT) is promising for promoting neuroplasticity in human PD, with short training time and reduced burden. Biomarkers for neuroplasticity such as brain-derived neurotrophic factor (BDNF) and neurodegeneration (including neurofilament NfL and α-synuclein) may play a role, but their response to HIIT is not well-investigated.

Objectives: The aims of this study were (1) to study the effects of 4 weeks of HIIT compared with 4 weeks of continuous aerobic exercise on motor and non-motor outcomes of PD and (2) to investigate the association between HIIT, motor/non-motor performances changes, and blood biomarker levels for neuroplasticity and neurodegeneration.

Study Design: Single-subject research design with alternating treatment setup (ABACA) and frequent repeated measurements was used. Each participant received different intervention conditions (B/C) interspersed with baseline periods (A, i.e., ABACA or ACABA), and frequent repeated assessment of outcome measures is done to quantify within-subject, individual response patterns with sufficient power for data analysis. Blood samples were collected once a week in the baseline and training phases (A1 and B/C) and once every 2 weeks in the washout phases (A2 and A3).

Intervention: Four subjects with PD on stable dopaminergic medication, two in Hoehn–Yahr stage 1–2, and two in Hoehn–Yahr stage 2.5–3 followed an ABACA or ACABA schedule, consisting of blocks with 30-min sessions of “B” (HIIT) or 50-min sessions of “C” [continuous aerobic exercise (CAE)] 3×/week for 4 weeks, separated by baseline “A” periods of 8 weeks for a total duration of 28 weeks.

Outcome Measures: Outcome measures include disease status [Movement Disorder Society-sponsored revision of the Unified Parkinson's Disease Rating Scale (MDS-UPDRS)], blood biomarkers (BDNF, Nfl, and α-synuclein), measures for functional mobility (including an activity tracker), and activities of daily living, as well as cognition, mood, biorhythm (sleeping problems), and quality of life.

Data Analysis: Visual analysis of trends in level, slope, and variability in response patterns was carried out, confirmed by longitudinal regression analysis with phase (ABACA) as the independent variable.

Validity and sensitivity of instrumented postural and gait assessment using low-cost devices in Parkinson's disease

BACKGROUND

Accurate assessment of balance and gait is necessary to monitor the clinical progress of Parkinson's disease (PD). Conventional clinical scales can be biased and have limited accuracy. Novel interactive devices are potentially useful to detect subtle posture or gait-related impairments.

METHODS

Posturographic and single and dual-task gait assessments were performed to 54 individuals with PD and 43 healthy controls with the Wii Balance Board and the Kinect v2 and the, respectively. Individuals with PD were also assessed with the Tinetti Performance Oriented Mobility Assessment, the Functional Gait Assessment and the 10-m Walking Test. The influence of demographic and clinical variables on the performance in the instrumented posturographic and gait tests, the sensitivity of these tests to the clinical condition and phenotypes, and their convergent validity with clinical scales were investigated.

RESULTS

Individuals with PD in H&Y I and I.5 stages showed similar performance to controls. The greatest differences in posture and gait were found between subjects in H&Y II.5 and H&Y I-I.5 stage, as well as controls. Dual-tasking enhanced the differences among all groups in gait parameters. Akinetic/rigid phenotype showed worse postural control and gait than other phenotypes. High significant correlations were found between the limits of stability and most of gait parameters with the clinical scales.

CONCLUSIONS

Low-cost devices showed potential to objectively quantify posture and gait in established PD (H&Y ≥ II). Dual-tasking gait evaluation was more sensitive to detect differences among PD stages and compared to controls than free gait. Gait and posture were more impaired in akinetic/rigid PD.

Corticomotor Excitability Changes Associated With Freezing of Gait in People With Parkinson Disease

Background and Purpose

Freezing of gait (FOG) is a debilitating gait disorder in people with Parkinson’s disease (PD). While various neuroimaging techniques have been used to investigate the pathophysiology of FOG, changes in corticomotor excitability associated with FOG have yet to be determined. Research to date has not concluded if changes in corticomotor excitability are associated with gait disturbances in this patient population. This study aimed to use transcranial magnetic stimulation (TMS) to investigate corticomotor excitability changes associated with FOG. Furthermore, the relationship between corticomotor excitability and gait performances would be determined.

Methods

Eighteen participants with PD and FOG (PD + FOG), 15 without FOG (PD − FOG), and 15 non-disabled adults (Control) were recruited for this study. Single and paired-pulse TMS paradigms were used to assess corticospinal and intracortical excitability, respectively. Gait performance was measured by the 10-Meter-Walk test. Correlation analysis was performed to evaluate relationships between TMS outcomes and gait parameters.

Results

Compared with the Control group, the PD + FOG group showed a significantly lower resting motor threshold and reduced short intracortical inhibition (SICI). Correlation analysis revealed a relationship between resting motor evoked potential and step length, and between SICI and walking velocity in the Control group. While the silent period correlated with step length in the PD − FOG group, no significant relationship was observed in the PD + FOG group.

Discussion and Conclusion

Compared to the Control group, the PD + FOG group exhibited reduced corticomotor inhibition. Distinct correlations observed among the three groups suggest that the function of the corticomotor system plays an important role in mediating walking ability in non-disabled adults and people with PD − FOG, while people with PD + FOG may rely on neural networks other than the corticomotor system to control gait.

Targeted Rhythmic Auditory Cueing During Treadmill and Overground Gait for Individuals With Parkinson Disease: A Case Series

BACKGROUND AND PURPOSE

Rhythmic auditory cueing and treadmill walking can improve spatiotemporal gait parameters through entrainment of movement patterns. Careful selection of cue frequencies is necessary if treadmill walking is to be employed, because cadence and step length are differentially affected by walking on a treadmill and overground. The purpose of this study was to describe the treatment of gait impairments for individuals with Parkinson disease, using strategically selected rhythmic auditory cue frequencies on both a treadmill and overground.

CASE DESCRIPTION

Three individuals with Hoehn & Yahr stage 2 Parkinson disease participated in this case series.

INTERVENTION

All participants completed 6 weeks of gait training, in which each session employed rhythmic auditory cueing during treadmill-based gait training followed by overground gait training. We provided targeted rhythmic auditory cueing with a metronome set to 85% and 115% of their self-selected cadence for treadmill and overground training, respectively. We performed clinical tests of gait and balance prior to, midway, and following training, and at a 3-month follow-up.

OUTCOMES

All participants improved overground gait speed (participant 1: +0.27 m/s; participant 2: +0.20 m/s; and participant 3: +0.18 m/s) and stride length (15.7 ± 4.17 cm) with small changes to cadence. Likewise, there were only small changes in balance.

DISCUSSION

We hypothesize that the large improvements in gait speed are due to the concomitant increases in stride length. Further research is needed to test the effect of targeted rhythmic auditory cueing during treadmill and overground gait.Video Abstract available for more insights from the authors (see the Video, Supplemental Digital Content 1, available at: http://links.lww.com/JNPT/A309).

Reliability, validity and minimal detectable change of 2-min walk test and 10-m walk test in frail older adults receiving day care and residential care

BACKGROUND

The psychometric properties of the 2-min walk test (2MWT) and 10-m walk test (10MeWT) for frail older adults are unclear.

AIMS

To determine the test-retest and inter-rater reliability, construct and known-group validity, and minimal detectable change at 95% level of confidence (MDC₉₅) of these walk tests in frail older adults receiving day care and residential care services.

METHODS

A cross-sectional study with repeated measures was conducted on frail older adults who could walk independently for at least 15 m. The participants completed the 2MWT and 10MeWT on three separate occasions over a 2-week period under two independent assessors.

RESULTS

Forty-four frail older adults were examined. Excellent test-rest (ICC = 0.95-0.99) and inter-rater reliability (ICC = 0.95-0.97) were shown in both walk tests. Good to strong correlations were found between the walk tests and 6-min walk test (r = 0.89-0.92), Elderly Mobility Scale (r = 0.56-0.57), Berg Balance Scale (r = 0.66-0.66) and Modified Barthel Index (r = 0.55-0.59). The MDC₉₅ were 7.7 m in the 2MWT and 0.13 m/s in the 10MeWT.

DISCUSSION

Although the walking performances of the day care and residential care participants were similar, the validity of the walk tests was different between these two subgroups.

CONCLUSIONS

The 2MWT and 10MeWT are reliable and valid measures in evaluating the walking performances of frail older adults. The MDC₉₅ of the walk tests has been recommended.

Clinical Practice Guidelines for the Rehabilitation of Lower Limb Amputation: An Update from the Department of Veterans Affairs and Department of Defense

Between 2015 and 2017, the US Department of Veterans Affairs and the US Department of Defense developed a clinical practice guideline for rehabilitation of lower limb amputation to address key clinical questions. A multidisciplinary workgroup of US Department of Veterans Affairs and US Department of Defense amputation care subject matter experts was formed, and an extensive literature search was performed which identified 3685 citations published from January 2007 to July 2016. Articles were excluded based on established review criteria resulting in 74 studies being considered as evidence addressing one or more of the identified key issues. The identified literature was evaluated and graded using the National Academies of Science GRADE criteria. Recommendations were formulated after extensive review. Eighteen recommendations were confirmed with four having strong evidence and workgroup confidence in the recommendation. Key recommendations address patient and caregiver education, consideration for the use of rigid and semirigid dressings, consideration for the use of microprocessor knees, and managed lifetime care that includes annual transdisciplinary assessments. In conclusion, this clinical practice guideline used the best available evidence from the past 10 yrs to provide key management recommendations to enhance the quality and consistency of rehabilitation care for persons with lower limb amputation.

Effect of home-based Tai Chi, Yoga or conventional balance exercise on functional balance and mobility among persons with idiopathic Parkinson's disease: An experimental study

Background

Individuals with Parkinson's disease (PD) invariably experience functional decline in a number of motor and non-motor domains affecting posture, balance and gait. Numerous clinical studies have examined effects of various types of exercise on motor and non-motor problems. But still much gap remains in our understanding of various therapies and their effect on delaying or slowing the dopamine neuron degeneration. Recently, Tai Chi and Yoga both have gained popularity as complementary therapies, since both have components for mind and body control.

Objective

The aim of this study was to determine whether eight weeks of home-based Tai Chi or Yoga was more effective than regular balance exercises on functional balance and mobility.

Methods

Twenty-seven individuals with Idiopathic PD (Modified Hoehn and Yahr stages 2.5-3) were randomly assigned to either Tai Chi, Yoga or Conventional exercise group. All the participants were evaluated for Functional Balance and Mobility using Berg Balance Scale, Timed 10 m Walk test and Timed Up and Go test before and after eight weeks of training.

Results

The results were analyzed using two-way mixed ANOVA which showed that there was a significant main effect for time as F (1, 24)  = 74.18, p = 0 . 000 , η p 2 = 0 . 76 for overall balance in Berg Balance Scale. There was also significant main effect of time on mobility overall as F(1, 24) = 77 . 78 , p = 0 . 000 , η p 2 = 0 . 76 in Timed up and Go test and F(1, 24) = 48 . 24 , p = 0 . 000 , η p 2 = 0 . 67 for 10 m Walk test. There was a significant interaction effect for time × group with F(2, 24) = 8 . 67 , p = 0 . 001 , η p 2 = 0 . 420 for balance. With respect to mobility, the values F(2, 24) = 5 . 92 , p = 0 . 008 , η p 2 = 0 . 330 in Timed Up and Go test and F(2, 24) = 10 . 40 , p = 0 . 001 , η p 2 = 0 . 464 in 10 m Walk test showed a significant interaction. But there was no significant main effect between the groups for both balance and mobility.

Conclusion

The findings of this study suggest that Tai Chi as well as Yoga are well adhered and are attractive options for a home-based setting. As any form of physical activity is considered beneficial for individuals with PD either Tai Chi, Yoga or conventional balance exercises could be used as therapeutic intervention to optimize balance and mobility. Further studies are necessary to understand the mind-body benefits of Tai Chi and Yoga either as multicomponent physical activities or as individual therapies in various stages of PD.

Interactive video game-based approaches improve mobility and mood in older adults: A nonrandomized, controlled tri̇al

BACKGROUND AND PURPOSE

Recently, technology-based approaches have become more frequently used in the field of rehabilitation. The aim of this study was to evaluate the effectiveness of interactive video games on mobility, general mood, and quality of life and compare them with physical activity approaches in older adults.

METHODS

Ninety-one residents of a nursing home were assessed and 58 volunteers who met the criteria were included in the study. Participants in Group I (n = 16) participated in a 30-min exercise program using the "Nintendo Wii Fit Plus" twice a week for 8 weeks. Group II (n = 14) participated in a physical activity program consisting of a bicycle ergometer and treadmill for the same duration. Participants were assessed pre- and post-intervention for functional mobility, general depression, and quality of life. The "Wilcoxon Signed-Rank" test was used to compare the pre- and post-treatment outcomes. The Kruskal-Wallis analysis of variance (post hoc Tukey's HSD test) was used to evaluate differences between the groups.

RESULTS

and Discussion: Post-intervention, the scores in the Berg Balance Scale increased significantly for GI and GII compared to the control group (p = 0.001, p = 0.002) Timed Up and Go Test improved for GI (p = 0.001) and 10-Meter Walk Test improved for GI (p = 0.003). Although there was a significant change in Hamilton depression score for GI and GII (p < 0.005), between-group differences were not significant.

CONCLUSIONS

Both programs demonstrated significant improvement in in all parameters. However, video-based program was more effective than physical activity, especially in mobility and balance parameters.

Improved Mobility, Cognition, and Disease Severity in Corticobasal Degeneration of an African American Man After 12 Weeks of Adapted Tango: A Case Study

Corticobasal degeneration (CBD) has no available treatment to slow disease progression and generally resists drug therapy. Corticobasal degeneration has symptoms and decreased quality of life similar to Parkinson disease. Adapted Tango, a successful rehabilitation for Parkinson, may address CBD. A 63-yr-old African American man with CBD (alias: YD; CBD duration = 2 yrs) was evaluated for motor, cognitive, and psychosocial function before, immediately after, 1 mo after, and 6 mos after 12 wks of 20, biweekly 90-min adapted-tango lessons. After intervention, disease-related motor symptoms improved and YD reported fewer problems in nonmotor experiences of daily living, which include mood, cognition, pain, fatigue, etc. Motor symptoms remained above baseline at 6-mo posttest. YD's balance confidence improved after intervention but declined below baseline at 6-mo posttest. Quality of life was maintained despite worsened depression. YD improved or maintained executive function, and visuospatial function and attention at posttest and 1-mo posttest. At posttest, YD maintained mobility and improved on dynamic balance. At 1-mo posttest, most mobility measures had improved relative to baseline. However, YD showed executive function and overall motor decline 6 mos after intervention. Adapted tango may have temporarily slowed disease progression and improved or maintained mobility and cognition. Gains were poorly maintained after 6 mos. Further study is warranted.

Age-Related Changes in Mobility Evaluated by the Timed Up and Go Test Instrumented through a Single Sensor

Mobility across people with a large range of age was evaluated, for the first time, by using an instrumented timed up and go test (iTUG) based on signals acquired by a single wearable inertial sensor. Eighty healthy participants, from childhood to old age, performed the test, covering walking distances of 3 m and 7 m. Total time, temporal, and velocity parameters of linear and turning subcomponents of the test were quantified. While children, adults, and senior adults exhibited similar values for all the parameters, older adults showed increases in duration and reductions in velocity during the turning phases when compared with the other groups. an increase in velocity was observed during mid turning when the test was performed along the longer distance. Similarity across children, adults, and senior adults indicates that healthy individuals develop the abilities performed in the iTUG early, while the slowing down shown during the turning phases by the older adults may reflect the need to implement adaptive adjustments to face changes of direction. These results emphasize the idea that reducing equipment to a single sensor provides an appropriate quantification when the iTUG is used to investigate a broader age range or different levels of complexity.

Performance Stability and Interrater Reliability of Culturally Adapted 10-Meter Walking Test for Danes with Neurological Disorders

BACKGROUND

The 10-meter Walking Test (10MWT) is often used to assess people with, e.g., stroke, but often using different procedures. The aims of this study were to translate the 10MWT into Danish, to determine the number of trials needed to achieve performance stability, and to examine the interrater reliability and agreement of the 10MWT in people with neurological disorders.

METHODS

Translation followed international recommendations, and evaluated in a consecutive sample of 50 people with a neurological disorder. All participants performed 5 timed 10MWT trials (usual speed) with 20-seconds rest intervals between trials, supervised by a physical therapist. A second session was conducted with another physical therapist, separated with a mean (SD) of 2.7 (0.9) hours. The order of raters was randomized and they were blinded to each other's ratings. Repeated measures ANOVA determined performance stability, while ICC1.1, standard error of measurement (SEM), and minimal detectable change (MDC95) determined reproducibility.

RESULTS

Participant's improved their 10MWT scores significantly between the first and second trial only. The faster of the 2 trials took a mean of 11.95 (5.40) seconds, and significantly (P < 0.001) faster than the slowest; mean of 12.80 (6.13) seconds. The intraclass correlation coefficient (ICC; 95% confidence interval), SEM, and MDC, based on the fastest of 2 trials, were 0.97 (0.95-0.98), 0.06 m/s, and 0.17 m/s, respectively, and with no systematic between rater's bias.

CONCLUSIONS

We suggest that the faster of 2 timed trials be recorded for the 10MWT in people with neurological disorders, as we found excellent interrater reliability and low measurement error using this score.

Efeitos da prática mental associada à fisioterapia motora sobre a marcha e o risco de quedas na doença de Parkinson: estudo piloto

RESUMO O objetivo deste estudo piloto, realizado em um hospital universitário de referência em Pernambuco, foi avaliar os efeitos da prática mental associada à fisioterapia motora sobre a marcha e o risco de queda em pessoas com doença de Parkinson. A amostra da pesquisa foi composta por 18 sujeitos, de ambos os sexos, com doença de Parkinson idiopática, divididos em grupo experimental (8 indivíduos) e controle (10 indivíduos). Ambos os grupos realizaram 15 sessões de 40 minutos de fisioterapia motora, duas vezes por semana. No grupo de intervenção, a fisioterapia foi associada a prática mental (15 minutos). Em relação às variáveis de desfecho primário, o tempo de execução do timed up and go e do teste de caminhada de 10 metros reduziu, mas a diferença não foi significativa. Em relação à velocidade, cadência e escore do dynamic gait index, houve aumento após a intervenção no grupo experimental, com diferença significativa (p=0,02). O número de passos foi mantido em ambos os grupos. Os resultados sugerem que a prática mental associada à fisioterapia motora reduz o risco de quedas em comparação com a fisioterapia motora aplicada isoladamente.

Effects of robot-assisted gait training in patients with Parkinson's disease: study protocol for a randomized controlled trial

BACKGROUND

Robot-assisted gait training (RAGT) was developed to restore gait function by promoting neuroplasticity through repetitive locomotor training and has been utilized in gait training. However, contradictory outcomes of RAGT have been reported for patients with Parkinson's disease (PD). In addition, the mechanism of the RAGT treatment effect is still unknown. This study aims to investigate the effects of RAGT on gait velocity in patients with PD and to unveil the mechanisms of these effects.

METHODS

This is a prospective, single-blind, single-center, randomized controlled trial. Eligible participants will be randomly allocated to: 1) a Walkbot-S™ RAGT group or 2) a treadmill training group. The participants will receive three 45-min sessions of each intervention per week for 4 weeks. Gait speed during RAGT will be targeted to the maximal speed depending on the participant's height; the same principle will be applied to the treadmill training group to match the training intensity. The primary outcome measure is gait speed measured by the 10-Meter Walk Test at a comfortable pace under single-task conditions. Secondary outcomes include dual-task interference, the Berg Balance Scale, Timed Up and Go test, the Korean version of the Falls Efficacy Scale-International, New Freezing of Gait Questionnaire, Movement Disorder Society-sponsored revision of the Unified Parkinson's Disease Rating Scale, and functional connectivity measured by resting-state functional magnetic resonance imaging. Baseline assessments (T0) will be conducted to acquire clinical characteristics and outcome measure values before the intervention. Postintervention assessments (T1) will compare immediate efficacies within 3 days after the intervention. Follow-up assessments (T2) will be conducted 1 month after the intervention. Considering an alpha of 0.05 and a power of 80%, the total number of participants to be recruited is 44.

DISCUSSION

This study will reveal the effect of RAGT using an exoskeletal robot, not only on gait speed, but also on gait automaticity, balance function, fall risk, quality of life, and disease severity. In addition, the study will shed new light on the mechanism of the RAGT effect by evaluating changes in gait automaticity and brain functional networks.

TRIAL REGISTRATION

ClinicalTrials.gov, NCT03490578 . Registered on 21 March 2018.

Passive Monitoring at Home: A Pilot Study in Parkinson Disease

We conducted a pilot study using a passive radio-wave-based home monitor in individuals with Parkinson disease (PD) with a focus on gait, home activity, and time in bed. We enrolled 7 ambulatory individuals to have the device installed in the bedroom of their homes over 8 weeks and performed standard PD assessments at baseline. We evaluated the ability of the device to objectively measure gait and time in bed and to generate novel visualizations of home activity. We captured 353 days of monitoring. Mean gait speed (0.39-0.78 m/s), time in bed per day (4.4-12.1 h), and number (1.4-5.9) and duration (15.0-49.8 min) of nightly awakenings varied substantially across and within individuals. Derived gait speed correlated well with the Movement Disorder Society-Unified Parkinson's Disease Rating Scale total (r = -0.88, p = 0.009) and motor sub-score (r = -0.95, p = 0.001). Six of the seven participants agreed that their activity was typical and indicated a willingness to continue monitoring. This technology provided promising new insights into the home activities of those with PD and may be broadly applicable to other chronic conditions.

Nintendo Wii™ Versus Xbox Kinect™ for Assisting People With Parkinson's Disease

This study investigated changes in motor and cognitive skills, anxiety levels, and quality of life perception among patients with Parkinson's Disease (PD) following training with different commercial gaming devices-Nintendo Wii™ and Xbox Kinect™. We used a quasi-experimental, simple blinded clinical trial, dividing 27 patients with PD into three equal groups of nine members: (a) Nintendo Wii™, (b) Xbox Kinect™, and (c) control group. After pretests, experimental group participants spent 10 sessions playing four games of the selected gaming device, while control group participants received no intervention. Only those engaged with the Nintendo Wii™ significantly improved their performance on single and dual task gait tests, decreased anxiety levels, and improved memory, attention, and reversibility. The control group showed no changes on any measures.