scholarly journals Intense and unpredictable perturbations during gait training improve dynamic balance abilities in chronic hemiparetic individuals: a randomized controlled pilot trial

2020 ◽  
Author(s):  
Vahid Esmaeili ◽  
Andréanne Juneau ◽  
Joseph-Omer Dyer ◽  
Anouk Lamontagne ◽  
Dahlia Kairy ◽  
...  
Keyword(s):  
Dynamic Balance ◽  
Community Integration ◽  
Pilot Trial ◽  
Gait Training ◽  
External Support ◽  
Balance Confidence ◽  
Post Stroke ◽  
Perturbation Training ◽  
Control Intervention ◽  
Training Evaluations

Abstract Background: Previous studies have assessed the effects of perturbation training on balance after stroke. However, the perturbations were either applied while standing or were small in amplitude during gait, which is not representative of the most common fall conditions. The perturbations were also combined with other challenges such as progressive increases in treadmill speed. Objective: To determine the benefit of treadmill training with intense and unpredictable perturbations compared to treadmill walking-only training for dynamic balance and gait post-stroke. Methods: Twenty-one individuals post-stroke with reduced dynamic balance abilities, with or without a history of fall and ability to walk on a treadmill without external support or a walking aid for at least 1 minute were allocated to either an unpredictable gait perturbation (Perturb) group or a walking-only (NonPerturb) group through covariate adaptive randomization. Nine training sessions were conducted over three weeks. NonPerturb participants only walked on the treadmill but were offered perturbation training after the control intervention. Pre- and post-training evaluations included balance and gait abilities, maximal knee strength, balance confidence and community integration. Six-week phone follow-ups were conducted for balance confidence and community integration. Satisfaction with perturbation training was also assessed. Results: With no baseline differences between groups (p>0.075), perturbation training yielded large improvements in most variables in the Perturb (p<0.05, Effect Size: ES>.46) group (n=10) and the NonPerturb (p≤.089, ES>.45) group (n=7 post-crossing), except for maximal strength (p>.23) in the NonPerturb group. Walking-only training in the NonPerturb group (n=8, pre-crossing) mostly had no effect (p>.292, ES<.26), except on balance confidence (p=.063, ES=.46). The effects of the gait training were still present on balance confidence and community integration at follow-up. Satisfaction with the training program was high. Conclusion: Intense and unpredictable gait perturbations have the potential to be an efficient component of training to improve balance abilities and community integration in individuals with chronic stroke. Retrospective registration: ClinicalTrials.gov. March 18th, 2020. Identifier: NCT04314830 (https://clinicaltrials.gov/ct2/show/NCT04314830?term=NCT04314830&draw=2&rank=1).

scholarly journals Intense and unpredictable perturbations during gait training improve dynamic balance abilities in chronic hemiparetic individuals: a randomized controlled pilot trial

2020 ◽  
Author(s):  
Vahid Esmaeili ◽  
Andréanne Juneau ◽  
Joseph-Omer Dyer ◽  
Anouk Lamontagne ◽  
Dahlia Kairy ◽  
...  
Keyword(s):  
Dynamic Balance ◽  
Community Integration ◽  
Pilot Trial ◽  
Gait Training ◽  
External Support ◽  
Balance Confidence ◽  
Perturbation Training ◽  
Control Intervention ◽  
Training Evaluations ◽  
History Of

Abstract Background: Previous studies have assessed the effects of perturbation training on balance after stroke. However, the perturbations were either applied while standing or were small in amplitude during gait, which is not representative of the most common fall conditions. The perturbations were also combined with other challenges such as progressive increases in treadmill speed. Objective: To determine the benefit of treadmill training with intense and unpredictable perturbations compared to treadmill walking-only training for dynamic balance and gait post-stroke. Methods: Twenty-one stroke individuals with reduced dynamic balance abilities, with or without a history of fall and ability to walk on a treadmill without external support or a walking aid for at least 1 minute were allocated to either an unpredictable gait perturbation (Perturb) group or a walking-only (NonPerturb) group through covariate adaptive randomization. Nine training sessions were conducted over three weeks. NonPerturb participants only walked on the treadmill but were offered perturbation training after the control intervention. Pre- and post-training evaluations included balance and gait abilities, maximal knee strength, balance confidence and community integration. Six-week phone follow-ups were conducted for balance confidence and community integration. Satisfaction with perturbation training was also assessed. Results: With no baseline differences between groups (p>0.075), perturbation training yielded large improvements in most variables in the Perturb (p<0.05, Effect Size: ES>.46) group (n=10) and the NonPerturb (p≤.089, ES>.45) group (n=7 post-crossing), except for maximal strength (p>.23) in the NonPerturb group. Walking-only training in the NonPerturb group (n=8, pre-crossing) mostly had no effect (p>.292, ES<.26), except on balance confidence (p=.063, ES=.46). The effects of the gait training were still present on balance confidence and community integration at follow-up. Satisfaction with the training program was high. Conclusion: Intense and unpredictable gait perturbations have the potential to be an efficient component of training to improve balance abilities and community integration in chronic stroke individuals. Retrospective registration: ClinicalTrials.gov. March 18th, 2020. Identifier: NCT04314830 (https://clinicaltrials.gov/ct2/show/NCT04314830?term=NCT04314830&draw=2&rank=1).

Physical, cognitive and psychosocial effects of telerehabilitation-based motor imagery training in people with multiple sclerosis: A randomized controlled pilot trial

2019 ◽  
Vol 26 (5) ◽  
pp. 251-260 ◽  
Author(s):  
Turhan Kahraman ◽  
Sema Savci ◽  
Asiye Tuba Ozdogar ◽  
Zumrut Gedik ◽  
Egemen Idiman
Keyword(s):  
Quality Of Life ◽  
Motor Imagery ◽  
Cognitive Functions ◽  
Walking Speed ◽  
Dynamic Balance ◽  
Pilot Trial ◽  
Control Group ◽  
Walking Ability ◽  
Balance Confidence

Introduction Motor imagery training delivered at home via telerehabilitation is a novel rehabilitation concept. The aim was to investigate the effects of telerehabilitation-based motor imaging training (Tele-MIT) on gait, balance and cognitive and psychosocial outcomes in people with multiple sclerosis (pwMS). Methods This randomized, controlled pilot trial included pwMS and healthy individuals. pwMS were randomly divided into two groups, intervention and control. The intervention group received Tele-MIT twice a week for 8 weeks. The control group was a wait-list group without any additional specific treatment. Healthy participants served as a baseline comparison. The Dynamic Gait Index, used to assess dynamic balance during walking, was the primary outcome. Secondary outcomes included assessments of walking speed, endurance and perceived ability, balance performance assessed by a computerized posturography device, balance confidence, cognitive functions, fatigue, anxiety, depression and quality of life. Results Baseline comparisons with healthy individuals revealed that motor imagery abilities were preserved in pwMS ( p > 0.05). The intervention group exhibited significant improvements in dynamic balance during walking ( p = 0.002), walking speed ( p = 0.007), perceived walking ability ( p = 0.008), balance confidence ( p = 0.002), most cognitive functions ( p = 0.001–0.008), fatigue ( p = 0.001), anxiety ( p = 0.001), depression ( p = 0.005) and quality of life ( p = 0.002). No significant changes were observed in the control group in any of the outcome measures ( p > 0.05). Discussion Tele-MIT is a novel method that proved feasible and effective in improving dynamic balance during walking, walking speed and perceived walking ability, balance confidence, cognitive functions, fatigue, anxiety, depression and quality of life in pwMS.

Role of spasticity severity on the balance of post-stroke patients (Preprint)

2021 ◽  
Author(s):  
Ashraf Mahmoudzadeh ◽  
Noureddin Nakhostin Ansari ◽  
Soofia Naghdi ◽  
Ehsan Ghasemi ◽  
Brandon S Shaw ◽  
...  
Keyword(s):  
Range Of Motion ◽  
Ankle Joint ◽  
Postural Sway ◽  
Dynamic Balance ◽  
Ankle Dorsiflexion ◽  
Plantar Flexor ◽  
Stroke Patients ◽  
Timed Up And Go ◽  
Balance Confidence ◽  
Post Stroke

BACKGROUND Lower limb spasticity, as is common following a cerebrovascular attack (CVA) or stroke, can affect the balance and gait of patients. This then not only affects independence, and quality of life, but also increases the risk for other concerns, such as falling and an increased sedentariness, which could further affect health outcomes. OBJECTIVE We aimed to evaluate the effect of ankle plantar flexor spasticity severity on balance and to determine the relationship between the spasticity severity with ankle proprioception, passive range of motion (ROM), and balance confidence in post-stroke patients. METHODS Twenty-eight post-stroke patients were divided into two groups based on the level of ankle plantar flexor spasticity according to the Modified Modified Ashworth Scale (MMAS) as a High Spasticity Group (HSG) (MMAS>2) (n=14) or a Low Spasticity Group (LSG) (MMAS≤2) (n=14). The MMAS scores, Activities-Specific Balance Confidence Questionnaire, postural sway in the open and closed eyes conditions, timed up and go (TUG) test, ankle dorsiflexion passive range of motion (ROM), and ankle joint proprioception were measured. RESULTS No significant (p>0.05) differences were found between the LSG and HSG in terms of balance confidence, dynamic balance, and ankle dorsiflexion ROM. In addition, postural sway in the open and closed eye conditions was not significantly different in both the LSG and HSG for both the less affected and affected limbs. Similarly, posturography indicators in the open and closed eye conditions were not significantly different in both the LSG and HSG for both the less affected and affected limbs. However, ankle joint proprioception in terms of repositioning error angle was significantly (p≤0.05) better in the LSG compared to the HSG (p=0.01). There was also a significant relationship between TUG scores and balance confidence in the HSG(r=-0.55, p=0.04) CONCLUSIONS Our data suggests that several aspects of balance needs to be considered in the assessment and rehabilitation of post-stroke patients and there is a need to monitor entire patterns of activities to support wider engagement in rehabilitation activities. INTERNATIONAL REGISTERED REPORT RR2-10.2196/16045

scholarly journals Effect of robotic-assisted gait training on objective biomechanical measures of gait in persons post-stroke: a systematic review and meta-analysis

2021 ◽  
Vol 18 (1) ◽  
Author(s):  
Heidi Nedergård ◽  
Ashokan Arumugam ◽  
Marlene Sandlund ◽  
Anna Bråndal ◽  
Charlotte K. Häger
Keyword(s):  
Kinetic Parameters ◽  
Step Length ◽  
Gait Training ◽  
Risk Of Bias ◽  
Current Evidence ◽  
Temporal Asymmetry ◽  
Robotic Assisted ◽  
Post Stroke ◽  
Gait Biomechanics ◽  
Affected Side

Abstract Background Robotic-Assisted Gait Training (RAGT) may enable high-intensive and task-specific gait training post-stroke. The effect of RAGT on gait movement patterns has however not been comprehensively reviewed. The purpose of this review was to summarize the evidence for potentially superior effects of RAGT on biomechanical measures of gait post-stroke when compared with non-robotic gait training alone. Methods Nine databases were searched using database-specific search terms from their inception until January 2021. We included randomized controlled trials investigating the effects of RAGT (e.g., using exoskeletons or end-effectors) on spatiotemporal, kinematic and kinetic parameters among adults suffering from any stage of stroke. Screening, data extraction and judgement of risk of bias (using the Cochrane Risk of bias 2 tool) were performed by 2–3 independent reviewers. The Grading of Recommendations Assessment Development and Evaluation (GRADE) criteria were used to evaluate the certainty of evidence for the biomechanical gait measures of interest. Results Thirteen studies including a total of 412 individuals (mean age: 52–69 years; 264 males) met eligibility criteria and were included. RAGT was employed either as monotherapy or in combination with other therapies in a subacute or chronic phase post-stroke. The included studies showed a high risk of bias (n = 6), some concerns (n = 6) or a low risk of bias (n = 1). Meta-analyses using a random-effects model for gait speed, cadence, step length (non-affected side) and spatial asymmetry revealed no significant differences between the RAGT and comparator groups, while stride length (mean difference [MD] 2.86 cm), step length (affected side; MD 2.67 cm) and temporal asymmetry calculated in ratio-values (MD 0.09) improved slightly more in the RAGT groups. There were serious weaknesses with almost all GRADE domains (risk of bias, consistency, directness, or precision of the findings) for the included outcome measures (spatiotemporal and kinematic gait parameters). Kinetic parameters were not reported at all. Conclusion There were few relevant studies and the review synthesis revealed a very low certainty in current evidence for employing RAGT to improve gait biomechanics post-stroke. Further high-quality, robust clinical trials on RAGT that complement clinical data with biomechanical data are thus warranted to disentangle the potential effects of such interventions on gait biomechanics post-stroke.

scholarly journals Factors associated with dynamic balance in people with Persistent Postural Perceptual Dizziness (PPPD): a cross-sectional study using a virtual-reality Four Square Step Test

2021 ◽  
Vol 18 (1) ◽  
Author(s):  
Moshe M. H. Aharoni ◽  
Anat V. Lubetzky ◽  
Liraz Arie ◽  
Tal Krasovsky
Keyword(s):  
Virtual Reality ◽  
Trait Anxiety ◽  
Dynamic Balance ◽  
Step Test ◽  
Simulator Sickness ◽  
Balance Confidence ◽  
Task Duration ◽  
Head Kinematics ◽  
Perceived Disability ◽  
Four Square

Abstract Background Persistent postural-perceptual dizziness (PPPD) is a condition characterized by chronic subjective dizziness and exacerbated by visual stimuli or upright movement. Typical balance tests do not replicate the environments known to increase symptoms in people with PPPD—crowded places with moving objects. Using a virtual reality system, we quantified dynamic balance in people with PPPD and healthy controls in diverse visual conditions. Methods Twenty-two individuals with PPPD and 29 controls performed a square-shaped fast walking task (Four-Square Step Test Virtual Reality—FSST-VR) using a head-mounted-display (HTC Vive) under 3 visual conditions (empty train platform; people moving; people and trains moving). Head kinematics was used to measure task duration, movement smoothness and anterior–posterior (AP) and medio-lateral (ML) ranges of movement (ROM). Heart rate (HR) was monitored using a chest-band. Participants also completed a functional mobility test (Timed-Up-and-Go; TUG) and questionnaires measuring anxiety (State-Trait Anxiety Inventory; STAI), balance confidence (Activities-Specific Balance Confidence; ABC), perceived disability (Dizziness Handicap Inventory) and simulator sickness (Simulator Sickness Questionnaire). Main effects of visual load and group and associations between performance, functional and self-reported outcomes were examined. Results State anxiety and simulator sickness did not increase following testing. AP-ROM and HR increased with high visual load in both groups (p < 0.05). There were no significant between-group differences in head kinematics. In the high visual load conditions, high trait anxiety and longer TUG duration were moderately associated with reduced AP and ML-ROM in the PPPD group and low ABC and  high perceived disability were associated with reduced AP-ROM (|r| =  0.47 to 0.53; p < 0.05). In contrast, in controls high STAI-trait, low ABC and longer TUG duration were associated with increased AP-ROM (|r| = 0.38 to 0.46; p < 0.05) and longer TUG duration was associated with increased ML-ROM (r = 0.53, p < 0.01). Conclusions FSST-VR may shed light on movement strategies in PPPD beyond task duration. While no main effect of group was observed, the distinct associations with self-reported and functional outcomes, identified using spatial head kinematics, suggest that some people with PPPD reduce head degrees of freedom when performing a dynamic balance task. This supports a potential link between spatial perception and PPPD symptomatology.

scholarly journals Functional Gait Recovery after a Combination of Conventional Therapy and Overground Robot-Assisted Gait Training Is Not Associated with Significant Changes in Muscle Activation Pattern: An EMG Preliminary Study on Subjects Subacute Post Stroke

2021 ◽  
Vol 11 (4) ◽  
pp. 448
Author(s):  
Francesco Infarinato ◽  
Paola Romano ◽  
Michela Goffredo ◽  
Marco Ottaviani ◽  
Daniele Galafate ◽  
...  
Keyword(s):  
Conventional Therapy ◽  
Muscle Activation ◽  
Bilateral Symmetry ◽  
Gait Training ◽  
Robot Assisted ◽  
Activation Patterns ◽  
Post Stroke ◽  
Muscle Activation Patterns ◽  
Preliminary Study ◽  
Functional Gait

Background: Overground Robot-Assisted Gait Training (o-RAGT) appears to be a promising stroke rehabilitation in terms of clinical outcomes. The literature on surface ElectroMyoGraphy (sEMG) assessment in o-RAGT is limited. This paper aimed to assess muscle activation patterns with sEMG in subjects subacute post stroke after training with o-RAGT and conventional therapy. Methods: An observational preliminary study was carried out with subjects subacute post stroke who received 15 sessions of o-RAGT (5 sessions/week; 60 min) in combination with conventional therapy. The subjects were assessed with both clinical and instrumental evaluations. Gait kinematics and sEMG data were acquired before (T1) and after (T2) the period of treatment (during ecological gait), and during the first session of o-RAGT (o-RAGT1). An eight-channel wireless sEMG device acquired in sEMG signals. Significant differences in sEMG outcomes were found in the BS of TA between T1 and T2. There were no other significant correlations between the sEMG outcomes and the clinical results between T1 and T2. Conclusions: There were significant functional gains in gait after complex intensive clinical rehabilitation with o-RAGT and conventional therapy. In addition, there was a significant increase in bilateral symmetry of the Tibialis Anterior muscles. At this stage of the signals from the tibialis anterior (TA), gastrocnemius medialis (GM), rectus femoris (RF), and biceps femoris caput longus (BF) muscles of each lower extremity. sEMG data processing extracted the Bilateral Symmetry (BS), the Co-Contraction (CC), and the Root Mean Square (RMS) coefficients. Results: Eight of 22 subjects in the subacute stage post stroke agreed to participate in this sEMG study. This subsample demonstrated a significant improvement in the motricity index of the affected lower limb and functional ambulation. The heterogeneity of the subjects’ characteristics and the small number of subjects was associated with high variability research, functional gait recovery was associated with minimal change in muscle activation patterns.

scholarly journals Validation of a Laser Ranged Scanner-Based Detection of Spatio-Temporal Gait Parameters Using the aTUG Chair

Sensors ◽  
2021 ◽  
Vol 21 (4) ◽  
pp. 1343
Author(s):  
Sebastian Fudickar ◽  
Jörn Kiselev ◽  
Christian Stolle ◽  
Thomas Frenken ◽  
Elisabeth Steinhagen-Thiessen ◽  
...  
Keyword(s):  
Correlation Coefficient ◽  
Measurement Accuracy ◽  
Dynamic Balance ◽  
Step Length ◽  
Berg Balance Scale ◽  
Walking Ability ◽  
Functional Requirements ◽  
Balance Confidence ◽  
Gait Parameters ◽  
Abc Scale

This article covers the suitability to measure gait-parameters via a Laser Range Scanner (LRS) that was placed below a chair during the walking phase of the Timed Up&Go Test in a cohort of 92 older adults (mean age 73.5). The results of our study demonstrated a high concordance of gait measurements using a LRS in comparison to the reference GAITRite walkway. Most of aTUG’s gait parameters demonstrate a strong correlation coefficient with the GAITRite, indicating high measurement accuracy for the spatial gait parameters. Measurements of velocity had a correlation coefficient of 99%, which can be interpreted as an excellent measurement accuracy. Cadence showed a slightly lower correlation coefficient of 96%, which is still an exceptionally good result, while step length demonstrated a correlation coefficient of 98% per leg and stride length with an accuracy of 99% per leg. In addition to confirming the technical validation of the aTUG regarding its ability to measure gait parameters, we compared results from the GAITRite and the aTUG for several parameters (cadence, velocity, and step length) with results from the Berg Balance Scale (BBS) and the Activities-Specific Balance Confidence-(ABC)-Scale assessments. With confidence coefficients for BBS and velocity, cadence and step length ranging from 0.595 to 0.798 and for ABC ranging from 0.395 to 0.541, both scales demonstrated only a medium-sized correlation. Thus, we found an association of better walking ability (represented by the measured gait parameters) with better balance (BBC) and balance confidence (ABC) overall scores via linear regression. This results from the fact that the BBS incorporates both static and dynamic balance measures and thus, only partly reflects functional requirements for walking. For the ABC score, this effect was even more pronounced. As this is to our best knowledge the first evaluation of the association between gait parameters and these balance scores, we will further investigate this phenomenon and aim to integrate further measures into the aTUG to achieve an increased sensitivity for balance ability.

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