Your search keyword '"Itshak, A."' showing total 82 results

1. A survey of Israeli physical therapists regarding reactive balance training

Author

Margalit, Noam, Kurz, Ilan, Wacht, Oren, Mansfield, Avril, and Melzer, Itshak

Published

2023

2. Daily Outdoor Cycling by Older Adults Preserves Reactive Balance Behavior: A Case-Control Study.

Author

Batcir, Shani and Melzer, Itshak

Subjects

THERAPEUTICS, POSTURAL balance, CASE-control method, RECREATION, CYCLING, ACCIDENTAL falls, NATURE, OLD age

Abstract

We examined whether older adults who cycle outdoors regularly have better reactive balance control than noncycling older adults. Sixteen cyclist older adults and 24 age-, sex-, and health-matched controls who did not cycle (noncyclists) were exposed to unannounced perturbations of increased magnitudes in standing. We evaluated the strategies and kinematics employed at each perturbation magnitude. We found that cyclists exhibited a significantly higher stepping threshold, lower probability of stepping at each perturbation magnitude, and lower number of trials in which the participant needed to make a step to retain their balance. Cyclists also tended to recover balance using unloaded leg strategies in the first recovery step rather than a loaded leg strategy; they showed faster swing phase duration in the first recovery step, better controlling the displacement of center of mass than noncyclists. Older adults who cycle regularly outdoors preserve their reactive balance functions, which may reduce fall risks. [ABSTRACT FROM AUTHOR]

Published

2023

3. Examining Different Motor Learning Paradigms for Improving Balance Recovery Abilities Among Older Adults, Random vs. Block Training—Study Protocol of a Randomized Non-inferiority Controlled Trial

Author

Hadas Nachmani, Inbal Paran, Moti Salti, Ilan Shelef, and Itshak Melzer

Subjects

elderly people, postural balance, falls, balance perturbation training, random training, block training, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Introduction: Falls are the leading cause of fatal and nonfatal injuries among older adults. Studies showed that older adults can reduce the risk of falls after participation in an unexpected perturbation-based balance training (PBBT), a relatively novel approach that challenged reactive balance control. This study aims to investigate the effect of the practice schedule (i.e., contextual interference) on reactive balance function and its transfer to proactive balance function (i.e., voluntary step execution test and Berg balance test). Our primary hypothesis is that improvements in reactive balance control following block PBBT will be not inferior to the improvements following random PBBT.Methods and Analysis: This is a double-blind randomized controlled trial. Fifty community-dwelling older adults (over 70 years) will be recruited and randomly allocated to a random PBBT group (n = 25) or a block PBBT group (n = 25). The random PBBT group will receive eight training sessions over 4 weeks that include unexpected machine-induced perturbations of balance during hands-free treadmill walking. The block PBBT group will be trained by the same perturbation treadmill system, but only one direction will be trained in each training session, and the direction of the external perturbations will be announced. Both PBBT groups (random PBBT and block PBBT) will receive a similar perturbation intensity during training (which will be customized to participant’s abilities), the same training period, and the same concurrent cognitive tasks during training. The generalization and transfer of learning effects will be measured by assessing the reactive and proactive balance control during standing and walking before and after 1 month of PBBT, for example, step and multiple steps and fall thresholds, Berg balance test, and fear of falls. The dependent variable will be rank transformed prior to conducting the analysis of covariance (ANCOVA) to allow for nonparametric analysis.Discussion: This research will explore which of the balance retraining paradigms is more effective to improve reactive balance and proactive balance control in older adults (random PBBT vs. block PBBT) over 1 month. The research will address key issues concerning balance retraining: older adults’ neuromotor capacities to optimize training responses and their applicability to real-life challenges.Clinical Trial Registration: Helsinki research ethics approval has been received (Soroka Medical Center approval #0396-16-SOR; MOH_2018-07-22_003536; www.ClinicalTrials.gov, NCT04455607).

Published

2021

4. Temporal But Not Spatial Gait Parameters Associated With Lower Balance Capacity in Moderate-High Functioning Persons With Stroke

Author

Anat Shkedy Rabani, Flavia Steinberg-Henn, Itshak Melzer, Jenna Farquhar, Shirley Handelzalts, Nachum Soroker, Raziel Riemer, and Sigal Levy

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, medicine.medical_specialty, Physical Therapy, Sports Therapy and Rehabilitation, Walking, Physical medicine and rehabilitation, medicine, Humans, Treadmill, Dynamic balance, Gait, Postural Balance, Stroke, Gait Disorders, Neurologic, Balance (ability), business.industry, Rehabilitation, Stroke Rehabilitation, medicine.disease, Sagittal plane, Preferred walking speed, medicine.anatomical_structure, Berg Balance Scale, Neurology (clinical), business

Abstract

BACKGROUND AND PURPOSE Falls are a major health concern after stroke. Spatial and temporal gait asymmetry and variability can contribute to instability and increased fall risk in persons with stroke (PwS). We aimed to quantify gait spatiotemporal symmetry and variability parameters in PwS undergoing rehabilitation in the subacute stage of the disease, by comparison to healthy participants, and to examine the associations between these parameters and patients' reactive and proactive balance capacity. METHODS Twenty-two PwS and 12 healthy adults walked over a computerized treadmill system at their self-selected walking speed. Symmetry and variability of gait parameters (step length, swing time, and stance time) as well as upper extremity and lower extremity angular range of motion in the sagittal plane were extracted. In addition, the Berg Balance Scale (BBS) and the fall threshold in response to sudden surface translations at increasing intensities were assessed. RESULTS PwS demonstrated significantly higher asymmetry in all gait parameters in comparison to controls. Also, PwS demonstrated increased stance time variability in comparison to healthy controls and increased swing time variability in the paretic lower extremity. Significant negative associations were found between fall threshold and stance time asymmetry in PwS (r = -0.48, P = 0.022), between the BBS and swing time asymmetry (r = -0.50, P = 0.018), and between the BBS and stance time variability of the paretic lower extremity (r = -0.56, P = 0.006). DISCUSSION AND CONCLUSIONS Findings highlight the importance of gait temporal symmetry and variability measures for dynamic balance control after stroke. These parameters should be considered when assessing gait recovery and safety in PwS.Video Abstract available for more insight from the authors (see the Video, Supplemental Digital Content 1, available at: http://links.lww.com/JNPT/A355).

Published

2021

5. Development and piloting of a perturbation stationary bicycle robotic system that provides unexpected lateral perturbations during bicycling (the PerStBiRo system)

Author

Itshak Melzer, Yaakov Livne, Shmil Edelman, Rotem Lev Lehman, Guy Shani, Shani Batcir, Omri Lubovsky, Amir Shapiro, and Lavi Schiller

Subjects

medicine.medical_specialty, Balance reactive responses, medicine.medical_treatment, Walking, lcsh:Geriatrics, Sitting, law.invention, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Randomized controlled trial, Robotic Surgical Procedures, law, medicine, Humans, 030212 general & internal medicine, Gait, Postural Balance, Perturbation training, Balance (ability), Aged, Aged, 80 and over, Reactive control, Rehabilitation, business.industry, Fall risk, Trunk, Bicycling, lcsh:RC952-954.6, Robotic systems, Old people, Technical Advance, Fall-prevention training, Accidental Falls, Balance control, Falls, Geriatrics and Gerontology, business, 030217 neurology & neurosurgery

Abstract

Background Balance control, and specifically balance reactive responses that contribute to maintaining balance when balance is lost unexpectedly, is impaired in older people. This leads to an increased fall risk and injurious falls. Improving balance reactive responses is one of the goals in fall-prevention training programs. Perturbation training during standing or treadmill walking that specifically challenges the balance reactive responses has shown very promising results; however, only older people who are able to perform treadmill walking can participate in these training regimes. Thus, we aimed to develop, build, and pilot a mechatronic Perturbation Stationary Bicycle Robotic system (i.e., PerStBiRo) that can challenge balance while sitting on a stationary bicycle, with the aim of improving balance proactive and reactive control. Methods This paper describes the development, and building of the PerStBiRo using stationary bicycles. In addition, we conducted a pilot randomized control trial (RCT) with 13 older people who were allocated to PerStBiRo training (N = 7) versus a control group, riding stationary bicycles (N = 6). The Postural Sway Test, Berg Balance Test (BBS), and 6-min Walk Test were measured before and after 3 months i.e., 20 training sessions. Results The PerStBiRo System provides programmed controlled unannounced lateral balance perturbations during stationary bicycling. Its software is able to identify a trainee’s proactive and reactive balance responses using the Microsoft Kinect™ system. After a perturbation, when identifying a trainee’s trunk and arm reactive balance response, the software controls the motor of the PerStBiRo system to stop the perturbation. The pilot RCT shows that, older people who participated in the PerStBiRo training significantly improved the BBS (54 to 56, p = 0.026) and Postural Sway velocity (20.3 m/s to 18.3 m/s, p = 0.018), while control group subject did not (51.0 vs. 50.5, p = 0.581 and 15 m/s vs. 13.8 m/s, p = 0.893, respectively), 6MWT tended to improve in both groups. Conclusions Our participants were able to perform correct balance proactive and reactive responses, indicating that older people are able to learn balance trunk and arm reactive responses during stationary bicycling. The pilot study shows that these improvements in balance proactive and reactive responses are generalized to performance-based measures of balance (BBS and Postural Sway measures).

Published

2021

6. Open-loop and closed-loop control of posture: Stabilogram-diffusion analysis of center-of-pressure trajectories among people with stroke

Author

Iuli Treger, Itshak Melzer, and Nama Mizrachi

Subjects

Adult, Male, medicine.medical_specialty, genetic structures, Posture, Eye, Stabilogram diffusion analysis, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Center of pressure (terrestrial locomotion), Physiology (medical), Humans, Medicine, Ocular Physiological Phenomena, Postural Balance, Balance (ability), business.industry, Healthy subjects, Open-loop controller, General Medicine, Healthy Volunteers, Stroke, Neurology, Case-Control Studies, 030220 oncology & carcinogenesis, Standing Position, Postural stability, Accidental Falls, Female, Surgery, Neurology (clinical), business, 030217 neurology & neurosurgery

Abstract

Many people with stroke (PwS) demonstrate reduced balance and increased postural sway afterwards, which may ultimately lead to falls and injury. In this study, we aimed to better understand postural sway behavior and the mechanisms of balance control by examining balance in upright standing among PwS using methods from statistical mechanics i.e., the Stabilogram diffusion analysis (SDA). Center-of-pressure displacements while standing still were measured in 25 PwS and 11 healthy subjects. The traditional postural sway parameters were measured, and the SDA was used to characterize balance control in eyes-open and eyes-closed conditions. We found that PwS demonstrated significantly greater postural sway in the mediolateral and anterior–posterior directions and significantly higher SDA short-term diffusion coefficients and critical displacement in both eyes-open and eyes-closed conditions. There was also a significant group-by-condition interaction, whereas PwS demonstrated more sway in the eyes-closed condition. The SDA analysis revealed unstable behavior during short-term intervals, interpreted as larger distance of sway until closed-loop control took place. This significant group-by-condition interaction suggests that PwS have a significantly greater reliance on visual input compared with healthy subjects.

Published

2020

7. Characteristics of step responses following varying magnitudes of unexpected lateral perturbations during standing among older people – a cross-sectional laboratory-based study

Author

Shani Batcir, Guy Shani, Amir Shapiro, and Itshak Melzer

Subjects

Cross-Sectional Studies, Standing Position, Humans, Walking, Geriatrics and Gerontology, Postural Balance, Aged

Abstract

Introduction The inability to recover from unexpected lateral loss of balance may be particularly relevant to the problem of falling. Aim We aimed to explore whether different kinematic patterns and strategies occur in the first recovery step in single-step trials in which a single step was required to recover from a fall, and in multiple-step trials in which more than one step was required to recover from a fall. In addition, in the multiple-step trials, we examined kinematic patterns of balance recovery where extra steps were needed to recover balance. Methods Eighty-four older adults (79.3 ± 5.2 years) were exposed to unannounced right/left perturbations in standing that were gradually increased to trigger a recovery stepping response. We performed a kinematic analysis of the first recovery step of all single-step and multiple-step trials for each participant and of total balance recovery in the multiple-step trial. Results Kinematic patterns and strategies of the first recovery step in the single-step trials were significantly dependent on the perturbation magnitude. It took a small, yet significantly longer time to initiate a recovery step and a significantly longer time to complete the recovery step as the magnitude increased. However, the first recovery step in the multiple-step trials showed no significant differences between different perturbation magnitudes; while, in total balance recovery of these trials, we observed a small, yet significant difference as the magnitude increased. Conclusions At relatively low perturbation magnitudes, i.e., single-step trials, older adults selected different first stepping strategies and kinematics as perturbation magnitudes increased, suggesting that this population activated pre-planned programs based on the perturbation magnitude. However, in the first recovery step of the multiple-step trials, i.e., high perturbation magnitudes, similar kinematic movement patterns were used at different magnitudes, suggesting a more rigid, automatic behavior, while the extra-steps were scaled to the perturbation magnitude. This suggest that older adults activate pre-planned programs based on the magnitude of the perturbation, even before the first step is completed..

Published

2022

8. Balance recovery stepping responses during walking were not affected by a concurrent cognitive task among older adults

Author

Inbal Paran, Hadas Nachmani, Moti Salti, Ilan Shelef, and Itshak Melzer

Subjects

Cognition, Humans, Walking, Geriatrics and Gerontology, Gait, Postural Balance, Aged

Abstract

Background Most of older adults’ falls are related to inefficient balance recovery after an unexpected loss of balance, i.e., postural perturbation. Effective balance recovery responses are crucial to prevent falls. Due to the considerable consequences of lateral falls and the high incidence of falls when walking, this study aimed to examine the effect of a concurrent cognitive task on older adults’ balance recovery stepping abilities from unannounced lateral perturbations while walking. We also aimed to explore whether cognitive performance accuracy is affected by perturbed walking and between task trade-offs. Methods In a laboratory-based study, 20 older adults (> 70 years old) performed the following test conditions: (1) cognitive task while sitting; (2) perturbed walking; and (3) perturbed walking with a concurrent cognitive task. The cognitive task was serial numbers subtraction by seven. Single-step and multiple-step thresholds, highest perturbation achieved, 3D kinematic analysis of the first recovery step, and cognitive task performance accuracy were compared between single-task and dual-task conditions. Between task trade-offs were examined using dual-task cost (DTC). Results Single-step and multiple-step thresholds, number of recovery step trials, number of foot collision, multiple-step events and kinematic recovery step parameters were all similar in single-task and dual-task conditions. Cognitive performance was not significantly affected by dual-task conditions, however, different possible trade-offs between cognitive and postural performances were identified using DTC. Conclusions In situations where postural threat is substantial, such as unexpected balance loss during walking, balance recovery reactions were unaffected by concurrent cognitive load in older adults (i.e., posture first strategy). The study was approved by the Helsinki Ethics Committee of Soroka University Medical Center in Beer-Sheva, Israel (ClinicalTrials.gov Registration number NCT04455607, ID Numbers: Sor 396–16 CTIL; 02/07/2020).

Published

2021

9. Insufficient Balance Recovery Following Unannounced External Perturbations in Persons With Stroke

Author

Nachum Soroker, Flavia Steinberg-Henn, Itshak Melzer, Shirley Handelzalts, Sigal Levy, and Guy Shani

Subjects

Adult, Male, 030506 rehabilitation, medicine.medical_specialty, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Humans, Postural Balance, Stroke, Aged, Balance (ability), Hip fracture, business.industry, Stroke Rehabilitation, Recovery of Function, General Medicine, Middle Aged, Stride length, medicine.disease, Biomechanical Phenomena, Intensity (physics), Paresis, Increased risk, Accidental Falls, Female, 0305 other medical science, Falling (sensation), business, 030217 neurology & neurosurgery, Fall prevention

Abstract

Background. Persons with stroke (PwS) are at increased risk of falls, especially toward the paretic side, increasing the probability of a hip fracture. The ability to recover from unexpected loss of balance is a critical factor in fall prevention. Objectives. We aimed to compare reactive balance capacity and step kinematics between PwS and healthy controls. Methods. Thirty subacute PwS and 15 healthy controls were exposed to forward, backward, right, and left unannounced surface translations in 6 increasing intensities while standing. Single step threshold, multiple step threshold, and fall threshold (ie, perturbation intensity leading to a fall into harness system) were recorded as well as reactive step initiation time, step length, and step velocity. Results. Twenty-five PwS fell into harness system during the experiment while healthy controls did not fall. Fourteen out of 31 falls occurred in response to surface translations toward the nonparetic side, that is, falling toward the paretic side. Compared with healthy controls, PwS demonstrated significantly lower fall threshold and multiple step threshold in response to forward, backward, and lateral surface translations. Impairments were more pronounced in response to forward surface translation and toward the nonparetic side (ie, loss of balance toward the paretic side). A trend toward significant shorter step length in response to lateral surface translations was found in PwS compared with healthy controls. Conclusions. Findings highlight the importance of assessing reactive balance capacity in response to perturbations in different directions and intensities in addition to the routine assessment in PwS.

Published

2019

10. Daily Bicycling in Older Adults May be Effective to Reduce Fall Risks—A Case-Control Study.

Author

Batcir, Shani and Melzer, Itshak

Subjects

LEG physiology, BICYCLES, CYCLING, POSTURAL balance, EXERCISE physiology, LIFE skills, SCIENTIFIC observation, SELF-evaluation, STATISTICAL significance, CASE-control method

Abstract

Older adults gain many health benefits from riding bicycles regularly. We aimed to explore whether older persons who ride bicycles regularly have better balance than controls. Balance control and voluntary stepping were assessed in 20 older adults aged 65–85 years who live in an agricultural community village and who ride bicycles regularly, and 30 age- and gender-matched nonbicycle riders (NBR). Self-reported function and fear of fall were also assessed. Bicycle riders (BR) showed significantly better balance, faster voluntary stepping, and better self-reported advanced lower-extremity function compared with NBR. The results might suggest that bicycling regularly preserves balance control and speed of voluntary stepping in older adults because bicycling might maintain specific balance coordination patterns. The results should be treated with caution as bicycle riders were older adults who selected an active lifestyle (i.e., bicycling as well as living in an agricultural village) that may bias the results. [ABSTRACT FROM AUTHOR]

Published

2018

11. The kinematics and strategies of recovery steps during lateral losses of balance in standing at different perturbation magnitudes in older adults with varying history of falls

Author

Shani Batcir, Amir Shapiro, Neil B. Alexander, Itshak Melzer, and Guy Shani

Subjects

medicine.medical_specialty, Balance recovery reaction, Perturbation (astronomy), Single step, Kinematics, lcsh:Geriatrics, Fear of falling, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Step initiation, Multiple-step threshold, medicine, Humans, 030212 general & internal medicine, Postural Balance, Aged, Balance (ability), Recurrent fallers, Impaired Balance, business.industry, Fear, Biomechanical Phenomena, Single-step threshold, lcsh:RC952-954.6, Standing Position, Accidental Falls, Falls, Geriatrics and Gerontology, medicine.symptom, business, Postural perturbation, 030217 neurology & neurosurgery, Research Article

Abstract

Background Step-recovery responses are critical in preventing falls when balance is lost unexpectedly. We investigated the kinematics and strategies of balance recovery in older adults with a varying history of falls. Methods In a laboratory study, 51 non-fallers (NFs), 20 one-time fallers (OFs), and 12 recurrent-fallers (RFs) were exposed to random right/left unannounced underfoot perturbations in standing of increasing magnitude. The stepping strategies and kinematics across an increasing magnitude of perturbations and the single- and multiple-step threshold trials, i.e., the lowest perturbation magnitude to evoke single step and multiple steps, respectively, were analyzed. Fall efficacy (FES) and self-reported lower-extremity function were also assessed. Results OFs had significantly lower single- and multiple-step threshold levels than NFs; the recovery-step kinematics were similar. Surprisingly, RFs did not differ from NFs in either threshold. The kinematics in the single-step threshold trial in RFs, however, showed a significant delay in step initiation duration, longer step duration, and larger center of mass (CoM) displacement compared with NFs and OFs. In the multiple-step threshold trial, the RFs exhibited larger CoM displacements and longer time to fully recover from balance loss. Interestingly, in the single-stepping trials, 45% of the step-recovery strategies used by RFs were the loaded-leg strategy, about two times more than OFs and NFs (22.5 and 24.2%, respectively). During the multiple-stepping trials, 27.3% of the first-step recovery strategies used by RFs were the loaded-leg strategy about two times more than OFs and NFs (11.9 and 16.4%, respectively), the crossover stepping strategy was the dominated response in all 3 groups (about 50%). In addition, RFs reported a lower low-extremity function compared with NFs, and higher FES in the OFs. Conclusions RFs had impaired kinematics during both single-step and multiple-step recovery responses which was associated with greater leg dysfunction. OFs and NFs had similar recovery-step kinematics, but OFs were more likely to step at lower perturbation magnitudes suggesting a more “responsive” over-reactive step response related from their higher fear of falling and not due to impaired balance abilities. These data provide insight into how a varying history of falls might affect balance recovery to a lateral postural perturbation. Trial registration This study was registered prospectively on November 9th, 2011 at clinicaltrials.gov (NCT01439451).

Published

2020

12. Characteristics of proactive balance and gait performance in subacute stroke patients demonstrating varying reactive balance capacity: A research study

Author

Shirley Handelzalts, Flavia Steinberg-Henn, Itshak Melzer, Nachum Soroker, and Ganit Gray

Subjects

Male, 030506 rehabilitation, medicine.medical_specialty, Subacute stroke, Physical Therapy, Sports Therapy and Rehabilitation, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Humans, Stroke, Gait, Postural Balance, Balance (ability), Aged, business.industry, Rehabilitation, Stroke Rehabilitation, Middle Aged, medicine.disease, Clinical Practice, Increased risk, Walk test, Berg balance test, Accidental Falls, Female, Neurology (clinical), 0305 other medical science, business, 030217 neurology & neurosurgery

Abstract

Background Persons with stroke (PwS) demonstrate impaired reactive balance control placing them at increased risk of falls. Yet, tests used in clinical practice to assess this risk usually rely on proactive balance control. Objective To investigate differences in proactive balance in PwS with varying reactive balance capacity. Methods Reactive balance control was assessed in 48 first-event subacute PwS by measuring multiple-step threshold and fall threshold in response to unannounced surface perturbations. They were classified as low-, medium- high- threshold fallers and non-fallers in accordance with the perturbation magnitude at which they were unable to maintain balance (fall threshold). Proactive balance control and gait performance were tested using the Berg Balance test, 10-meter walk test, 6-minute walk test and the Activities-specific Balance Confidence Scale (ABC). Results PwS who demonstrated poor reactive balance capacity were also more impaired in their proactive balance and gait. Proactive balance and gait performance were significantly different between the 4 groups while ABC was not. The associations between reactive and proactive measures of balance were moderate (r = 0.53-0.67). Conclusions The moderate correlations between reactive and proactive balance control suggest the recruitment of different neural mechanisms for these two operations, highlighting the importance of assessing and treating reactive balance in clinics.

Published

2020

13. Novel methodology for assessing total recovery time in response to unexpected perturbations while walking

Author

Gabi Zeilig, Uri Rosenblum, Itshak Melzer, Meir Plotnik, Yotam Bahat, Lotem Kribus-Shmiel, and Shani Kimel-Naor

Subjects

Male, Aging, 030506 rehabilitation, Time Factors, Physiology, principal component analysis, Social Sciences, Poison control, Pilot Projects, Walking, Random order, Cognition, Elderly, Mathematical and Statistical Techniques, 0302 clinical medicine, Task Performance and Analysis, Statistics, Medicine and Health Sciences, Psychology, Gait, Postural Balance, Musculoskeletal System, Mathematics, Principal Component Analysis, Multidisciplinary, Total recovery, Applied Mathematics, Simulation and Modeling, Middle Aged, Gait cycle, Biomechanical Phenomena, Physical Sciences, Principal component analysis, gait analysis, Medicine, Female, Anatomy, Gait Analysis, 0305 other medical science, Algorithms, Research Article, Adult, young adults, Science, Research and Analysis Methods, Base of support, algorithms, Models, Biological, Stability (probability), elderly, Young Adult, 03 medical and health sciences, walking, Control theory, Humans, Statistical Methods, Aged, Biological Locomotion, body limbs, Cognitive Psychology, Biology and Life Sciences, Stride length, Young Adults, Age Groups, Body Limbs, Gait analysis, People and Places, Multivariate Analysis, Feasibility Studies, Cognitive Science, Accidental Falls, Population Groupings, Center of mass, toes, 030217 neurology & neurosurgery, Neuroscience

Abstract

Data Availability: All relevant data are within the manuscript and its Supporting Information files. Supporting information is available online at https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0233510#sec034 . Copyright: © 2020 Rosenblum et al. Walking stability is achieved by adjusting the medio-lateral and anterior-posterior dimensions of the base of support (step length and step width, respectively) to contain an extrapolated center of mass. We aimed to calculate total recovery time after different types of perturbations during walking, and use it to compare young and older adults following different types of perturbations. Walking trials were performed in 12 young (age 26.92 ± 3.40 years) and 12 older (age 66.83 ± 1.60 years) adults. Perturbations were introduced at different phases of the gait cycle, on both legs and in anterior-posterior or medio-lateral directions, in random order. A novel algorithm was developed to determine total recovery time values for regaining stable step length and step width parameters following the different perturbations, and compared between the two participant groups under low and high cognitive load conditions, using principal component analysis (PCA). We analyzed 829 perturbations each for step length and step width. The algorithm successfully estimated total recovery time in 91.07% of the runs. PCA and statistical comparisons showed significant differences in step length and step width recovery times between anterior-posterior and medio-lateral perturbations, but no age-related differences. Initial analyses demonstrated the feasibility of comparisons based on total recovery time calculated using our algorithm. The author MP funding for this work from the Israeli Ministry of Science and Technology - https://www.gov.il/en/Departments/Units/most_planning_and_control, grant #3-12072, and from the Israel Science Fund - https://www.isf.org.il/#/, grant #3-14527. The author UR is supported by a stipend from Ben-Gurion University of the Negev - https://in.bgu.ac.il/en/pages/default.aspx, as part of a PhD scholarship.

Published

2020

14. Effects of mechanical perturbation gait training on gait and balance function in patients with stroke: A pre-post research study

Author

Nama Mizrachi, Itshak Melzer, and Iuli Treger

Subjects

Adult, Male, medicine.medical_specialty, Pilot Projects, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Center of pressure (terrestrial locomotion), Gait training, Physiology (medical), Medicine, Humans, In patient, Ground reaction force, Treadmill, Gait, Postural Balance, Gait Disorders, Neurologic, Training period, Aged, Aged, 80 and over, Proprioception, business.industry, Stroke Rehabilitation, General Medicine, Middle Aged, Exercise Therapy, Paresis, Stroke, Hemiparesis, Treatment Outcome, Neurology, 030220 oncology & carcinogenesis, Exercise Test, Surgery, Accidental Falls, Female, Neurology (clinical), medicine.symptom, business, Gait Analysis, human activities, 030217 neurology & neurosurgery

Abstract

Patients with stroke (PwS) demonstrate impaired gait and balance, and asymmetric gait, placing them at high risk of falls. We aimed to investigate the effects of a single training session that included mechanical external perturbation which resists forward movement of the paretic leg during its swing phase of walking on gait and balance in PwS. In a pre-post pilot study, gait asymmetry and balance function were assessed in 22 first-event chronic PwS (i.e., unilateral hemiparesis). PwS underwent tests during baseline and one week later, after participating in a single training session that resisted forward stepping during the swing phase of walking with a device secured around the patient's waist and connected diagonally to the patient's foot by a tension cord. Ground reaction forces and center of pressure were sampled during treadmill gait to assess step length asymmetry. Performance-oriented mobility assessment (POMA), a two-minute walk test (2MWT), and the voluntary step execution test were also measured. We found no significant improvement in step length asymmetry. However, POMA scores, as well as voluntary step execution tests improved with a moderate effect size. It seems that applying diagonal resistance force to the swinging leg resulted in insufficient horizontal force. However, the improvement in the preparation phase, i.e., better weight-bearing abilities during the voluntary stepping, may be due to the compression force applied to the lower limb joints thus providing proprioceptive training. This suggests that proprioceptive training may improve gait performance in stroke patients in a very short training period.

Published

2020

15. Characteristics of upper-extremity reactions to sudden lateral loss of balance in persons with stroke

Author

Guy Shani, Itshak Melzer, Shirley Handelzalts, Nachum Soroker, and Flavia Steinberg-Henn

Subjects

Adult, Male, medicine.medical_specialty, Movement, Biophysics, Upper Extremity, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Step initiation, medicine, Humans, Orthopedics and Sports Medicine, Stroke survivor, Stroke, Postural Balance, Balance (ability), Aged, business.industry, Balance loss, Stroke Rehabilitation, Lateral instability, 030229 sport sciences, Middle Aged, medicine.disease, Biomechanical Phenomena, Hemiparesis, Female, medicine.symptom, Falling (sensation), business, 030217 neurology & neurosurgery

Abstract

Background Upper-extremity reactions are part of a whole-body response to counterweight the falling center of mass after unexpected balance loss. Impairments in upper-extremity reactions due to unilateral hemiparesis may contribute to stroke survivors propensity for falling. We aimed to characterize upper-extremity (paretic and non-paretic sides) reactive movements in response to lateral balance perturbations in Persons with Stroke vs. healthy controls. Methods Twenty-six subacute persons with stroke and 15 healthy controls were exposed to multidirectional sudden unannounced surface translations in stance. Spatiotemporal parameters of upper- and lower-extremity balance responses to lateral perturbations were analyzed. Findings In both groups reactive upper-extremity movement initiation preceded reactive step initiation. In response to a loss of balance toward the paretic side, persons with stroke demonstrated delayed movement initiation of both upper- and lower-extremity compared with healthy controls (In persons with stroke: 234.7 ± 60.0 msec and 227.1 ± 39.6 msec for upper extremities vs. 272.1 ± 59.1 msec for lower-extremity; and in controls: 180.1 ± 39.9 msec and 197.8 ± 61.3 msec for upper-extremities vs. 219.3 ± 40.8 msec for lower-extremity; p = 0.001, Cohen's d's: 0.59–1.03) and a greater abduction excursion in the ipsilateral upper-extremity compared with the contralateral upper-extremity (In persons with stroke: 39.3 ± 23.6 cm vs. 24.9 ± 10.1 cm, respectively; In Controls: 42.6 ± 21.8 cm vs. 29.3 ± 17.3 cm, respectively). Interpretation The faster upper-extremity reactive movement reactions compared to reactive step initiation in both persons with stroke and healthy controls suggests that balance recovery is an automatic “reflex-like” response. Delayed upper-extremity reactive reactions in conditions of surface translation toward the non-paretic side in persons with stroke may increase the risk of falls in the direction of the paretic side.

Published

2020

16. Inter-observer Reliability and Concurrent Validity of Reactive Balance Strategies after Stroke

Author

Shirley, Handelzalts, Flavia, Steinberg-Henn, Nachum, Soroker, Michael, Schwenk, and Itshak, Melzer

Subjects

Male, Neurologic Examination, Stroke Rehabilitation, Reproducibility of Results, Walk Test, Recovery of Function, Middle Aged, Risk Assessment, Patient Positioning, Stroke, Standing Position, Humans, Accidental Falls, Female, Postural Balance, Aged

Abstract

Falls are a common complication in persons with stroke (PwS). Reliable assessment of balance responses to unexpected loss of balance has the potential to identify risk for falls.To examine inter-observer reliability of balance responses to unannounced surface perturbations in PwS and to explore the concurrent validity of a balance recovery assessment protocol.Two observers evaluated balance recovery strategies and fall threshold (a fall into a harness system) in 15 PwS and 15 healthy adults who were exposed to forward, backward, right, and left unannounced surface translations in six increasing intensities while standing.Observer agreement was 100% for the fall threshold. Kappa coefficients for step strategies were 0.960-0.988 in PwS and 0.886-0.938 in healthy adults, 0.905-0.988 for arm reactions in PwS and 0.754-0.926 in healthy adults. Significant correlations were found between fall threshold and Berg Balance Scale (r = 0.691), 6-minute walk test (r = 0.599), and fall efficacy scale-international (r= -0.581).A trained examiner can reliably classify reactive balance responses to surface perturbations. The high frequency of falls observed in PwS highlights the importance of assessing reactive balance responses to different directions and intensities of surface translations.

Published

2019

17. The Effects of Pilates Training on Balance Control and Self-Reported Health Status in Community-Dwelling Older Adults: A Randomized Controlled Trial.

Author

Gabizon, Hadas, Press, Yan, Volkov, Ilia, and Melzer, Itshak

Subjects

ANALYSIS of variance, POSTURAL balance, HEALTH status indicators, HEALTH surveys, OARS Multidimensional Functional Assessment Questionnaire, QUESTIONNAIRES, SELF-evaluation, T-test (Statistics), PILATES method, RANDOMIZED controlled trials, REPEATED measures design, DATA analysis software, DESCRIPTIVE statistics, MANN Whitney U Test, OLD age

Abstract

Objectives: To evaluate the effect of a group-based Pilates training program on balance control and health status in healthy older adults. Design: A single-blind, randomized, controlled trial. Setting: General community. Participants: A total of 88 community-dwelling older adults (age 71.15 ± 4.30 years), without evidence of functional balance impairment, were recruited and allocated at random to a Pilates intervention group (n = 44) or a control group (n = 44). Intervention: The Pilates intervention group received 36 training sessions over three months (3 sessions a week), while the control group did not receive any intervention. Outcome measures: Standing upright postural stability, performance-based measures of balance, and self-reported health status was assessed in both groups at baseline and at the end of the intervention period. Results: Compared with the control group, the Pilates intervention did not improve postural stability, baseline functional measures of balance, or health status. Conclusions: The results suggest that because Pilates training is not task specific, it does not improve balance control or balance function in independent older adults. [ABSTRACT FROM AUTHOR]

Published

2016

18. A concurrent attention-demanding task did not interfere with balance recovery function in standing and walking among young adults – An explorative laboratory study

Author

Itshak Melzer, Inbal Paran, and Hadas Nachmani

Subjects

Adult, Male, Elementary cognitive task, medicine.medical_specialty, Biophysics, Experimental and Cognitive Psychology, Walking, Kinematics, Sitting, Young Adult, 03 medical and health sciences, Cognition, 0302 clinical medicine, Physical medicine and rehabilitation, Task Performance and Analysis, Recovery function, medicine, Humans, Attention, Orthopedics and Sports Medicine, Effects of sleep deprivation on cognitive performance, Young adult, Postural Balance, Sitting Position, 030229 sport sciences, General Medicine, Cognitive motor interference, Biomechanical Phenomena, Motor Skills, Standing Position, Accidental Falls, Female, Psychology, 030217 neurology & neurosurgery

Abstract

This study aimed to explore the ability to overcome unannounced surface perturbations of different magnitudes during standing and walking under single-task and dual-task conditions. Balance recovery abilities during perturbed walking and concurrently performing cognitive tasks has rarely been investigated although it provides more ecological information in regard to real-life situations than perturbations during single-task conditions (i.e., just walking). Thirteen young adults were asked to perform: 1) a cognitive task while sitting; 2) perturbed standing; 3) a concurrent cognitive task during perturbed standing; 4) perturbed walking; and 5) a concurrent cognitive task during perturbed walking. The cognitive task was to perform number subtractions by seven. The participants were instructed to "try to avoid a fall" during the perturbation trials. Step threshold, cognitive task performance, and 3D kinematic analysis of the first recovery step, i.e., the spatiotemporal characteristics, were compared between all conditions. Step threshold and the spatiotemporal parameters of the first recovery stepping responses were similar between all task conditions. Cognitive performance was also unaffected by the postural challenges in all task conditions. These results suggest that the first balance recovery stepping response among young adults is automatic. Furthermore, young adults seem to have sufficient motor-cognitive resources to perform concurrently both balance recovery and cognitive tasks with no interference effects.

Published

2020

19. Effects of Perturbation-Based Balance Training in Subacute Persons With Stroke: A Randomized Controlled Trial

Author

Itshak Melzer, Michal Kenner-Furman, Guy Shani, Shirley Handelzalts, Ganit Gray, and Nachum Soroker

Subjects

Male, 030506 rehabilitation, medicine.medical_specialty, medicine.medical_treatment, Balance training, law.invention, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Randomized controlled trial, law, medicine, Humans, Gait, Postural Balance, Rehabilitation, business.industry, Stroke Rehabilitation, General Medicine, Middle Aged, Exercise Therapy, Stroke, Treatment Outcome, Accidental Falls, Female, 0305 other medical science, business, 030217 neurology & neurosurgery, Fall prevention

Abstract

Background: Reactive balance responses are critical for fall prevention. Perturbation-based balance training (PBBT) has shown a positive effect in reducing the risk of falls among older adults and persons with Parkinson’s disease. Objective: To explore the effect of a short-term PBBT on reactive balance responses, performance-based measures of balance and gait and balance confidence. Methods: Thirty-four moderate-high functioning, subacute persons with stroke (PwS) (lower extremity Fugl-Meyer score 29.2 ± 4.3; Berg Balance Scale [BBS] score 43.8 ± 9.5, 42.0 ± 18.7 days after stroke onset) hospitalized in a rehabilitation setting were randomly allocated to PBBT (n = 18) and weight shifting and gait training (WS&GT) (n = 16). Both groups received 12 training sessions, 30 minutes each, for a period of 2.5 weeks. PBBT included unexpected balance perturbations during standing and treadmill walking, WS&GT included weight shifting in standing and treadmill walking without perturbations. The main outcome measures, that is, multiple step-threshold and fall-threshold were examined at baseline, immediately postintervention, and about 5 weeks postintervention. The secondary outcome measures, that is, BBS, 6-minute walk test (6MWT), 10-meter walk test (10MWT), and Activity-specific Balance Confidence (ABC) scale were examined at baseline and immediately postintervention. Results: Compared with the WS&GT group, immediately postintervention participants in the PBBT group showed higher multiple-step thresholds in response to forward and backward surface translations (effect size [ES] = 1.07 and ES = 1.10, respectively) and moderate ES in the ABC scale (ES = 0.74). No significant differences were found in fall-threshold, BBS, 6MWT, and 10MWT between the groups. Conclusions: Inclusion of perturbation training during rehabilitation of PwS improved reactive balance and balance confidence.

Published

2019

20. The effects of unexpected mechanical perturbations during treadmill walking on spatiotemporal gait parameters, and the dynamic stability measures by which to quantify postural response

Author

Madehkhaksar, Forough, Klenk, Jochen, Sczuka, Kim, Gordt, Katharina, Melzer, Itshak, and Schwenk, Michael

Subjects

Adult, Male, Physiology, Cognitive Neuroscience, Cardiology, lcsh:Medicine, Walking, Perturbation (Geology), Motor Reactions, Young Adult, Elderly, Heart Rate, Medicine and Health Sciences, Humans, Public and Occupational Health, ddc:796, lcsh:Science, Musculoskeletal System, Gait, Postural Balance, Mechanical Phenomena, Sedimentary Geology, Models, Statistical, Biological Locomotion, lcsh:R, Traumatic Injury Risk Factors, Limbs (Anatomy), Ankles, Biology and Life Sciences, Reproducibility of Results, Geology, Postural Control, Age Groups, People and Places, Earth Sciences, Exercise Test, Legs, Cognitive Science, lcsh:Q, Falls, Population Groupings, Female, Anatomy, Gait Analysis, human activities, Research Article, Neuroscience

Abstract

Most falls occur after a loss of balance following an unexpected perturbation such as a slip or a trip. Greater understanding of how humans control and maintain stability during perturbed walking may help to develop appropriate fall prevention programs. The aim of this study was to examine changes in spatiotemporal gait and stability parameters in response to sudden mechanical perturbations in medio-lateral (ML) and anterior-posterior (AP) direction during treadmill walking. Moreover, we aimed to evaluate which parameters are most representative to quantify postural recovery responses. Ten healthy adults (mean = 26.4, SD = 4.1 years) walked on a treadmill that provided unexpected discrete ML and AP surface horizontal perturbations. Participants walked under no perturbation (normal walking), and under left, right, forward, and backward sudden mechanical perturbation conditions. Gait parameters were computed including stride length (SL), step width (SW), and cadence, as well as dynamic stability in AP- (MoS-AP) and ML- (MoS-ML) directions. Gait and stability parameters were quantified by means, variability, and extreme values. Overall, participants walked with a shorter stride length, a wider step width, and a higher cadence during perturbed walking, but despite this, the effect of perturbations on means of SW and MoS-ML was not statistically significant. These effects were found to be significantly greater when the perturbations were applied toward the ML-direction. Variabilities, as well as extremes of gait-related parameters, showed strong responses to the perturbations. The higher variability as a response to perturbations might be an indicator of instability and fall risk, on the same note, an adaptation strategy and beneficial to recover balance. Parameters identified in this study may represent useful indicators of locomotor adaptation to successfully compensate sudden mechanical perturbation during walking. The potential association of the extracted parameters with fall risk needs to be determined in fall-prone populations. published

Published

2018

21. Application of the clinical version of the narrow path walking test to identify elderly fallers

Author

Itshak Melzer, Ronen Debi, Yoav Gimmon, Jacob Grinshpon, Yoram Snir, Yair Bar David, and Avi Barash

Subjects

Adult, Male, Aging, medicine.medical_specialty, Health (social science), Walking, Fear of falling, Task (project management), 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Predictive Value of Tests, medicine, Humans, 030212 general & internal medicine, Gait, Geriatric Assessment, Postural Balance, Aged, Pace, Balance (ability), Aged, 80 and over, Recall, Cognition, Fear, Physical therapy, Accidental Falls, Female, Geriatrics and Gerontology, medicine.symptom, Psychology, Falling (sensation), Gerontology, Psychomotor Performance, 030217 neurology & neurosurgery

Abstract

Introduction Falling during walking is a common problem among the older population. Hence, the challenge facing clinicians is identifying who is at risk of falling during walking, for providing an effective intervention to reduce that risk. We aimed to assess whether the clinical version of the narrow path walking test (NPWT) could identify older adults who are reported falls. Materials and methods A total of 160 older adults were recruited and asked to recall fall events during the past year. Subjects were instructed to walk in the laboratory at a comfortable pace within a 6 meter long narrow path, 3 trials under single task (ST) and 3 trials dual task (DT) conditions without stepping outside the path (i.e., step errors). The average trial time , number of steps, trial velocity , number of step errors, and number of cognitive task errors were calculated for ST and DT. Fear of falling, performance oriented mobility assessment (POMA) and mini-metal state examination (MMSE) were measured as well. Results Sixty-one subjects reported that they had fallen during the past year and 99 did not. Fallers performed more steps, and were slower than non-fallers. There were no significant differences, however, in the number of steps errors, the cognitive task errors in ST and DT in POMA and MMSE. Conclusion Our data demonstrates slower gait speed and more steps during the NPWT in ST and DT in fallers. There is no added value of DT over the ST for identification of faller’s older adults.

Published

2016

22. The inter-observer reliability and agreement of lateral balance recovery responses in older and younger adults

Author

Noa Levitsky, Ilan Kurz, Yoav Gimmon, Itshak Melzer, Shani Batcir, Hadar Sharon, Guy Shani, and Amir Shapiro

Subjects

Adult, Male, 030506 rehabilitation, medicine.medical_specialty, Biophysics, Neuroscience (miscellaneous), Poison control, Kinematics, Inter observer reliability, 03 medical and health sciences, Random Allocation, Young Adult, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Humans, Single-Blind Method, Muscle, Skeletal, Postural Balance, Reliability (statistics), Balance (ability), Mathematics, Aged, Observer Variation, Reproducibility of Results, Fall risk, Biomechanical Phenomena, Younger adults, Accidental Falls, Female, Neurology (clinical), 0305 other medical science, 030217 neurology & neurosurgery, Quiet standing

Abstract

The purpose of this study was to evaluate the inter-observer reliability and agreement of balance recovery responses, step and multiple-steps thresholds, and kinematic parameters of stepping responses. Older and younger adults were exposed to 36 progressively challenging right and left unannounced surface translations during quiet standing. Subjects were instructed to "react naturally". Step threshold and multiple-step threshold were defined as the minimum disturbance magnitude that consistently elicited one and more than one recovery step, respectively. Fall threshold is defined as the minimum disturbance magnitude from which a fall resulted (i.e., fall into harness system or grasped one of the anchor straps of the harness, or grasped the research assistant to maintain balance). The inter-observer reliability of balance recovery responses for older adults were excellent, especially for step and multiple-step thresholds (ICC2,1 = 0.978 and ICC2,1 = 0.971, respectively; p 0.001). Also kinematic parameters of stepping responses such as step recovery duration and step length were excellent (ICC2,1 0.975 and ICC2,1 = 0.978, respectively; p 0.001), substantial reliability was found for swing phase duration (ICC2,1 = 0.693, p 0.001). Younger adults showed similar ICCs. The Bland-Altman plots demonstrated excellent limits of agreement (LOA 90%) for most kinematic step parameters and stepping thresholds. These results suggest that balance recovery responses and kinematic parameters of stepping including step threshold and multiple-step threshold are extremely reliable parameters. The measure of balance recovery responses from unexpected loss of balance is feasible and can be used in clinical setting and research-related assessments of fall risk.

Published

2018

23. Perturbation exercises during treadmill walking improve pelvic and trunk motion in older adults-A randomized control trial

Author

Raziel Riemer, Ilan Kurz, Ronen Debbi, Amir Shapiro, Yoav Gimmon, and Itshak Melzer

Subjects

Thorax, Male, 030506 rehabilitation, Aging, medicine.medical_specialty, Health (social science), STRIDE, Walking, law.invention, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Gait training, Randomized controlled trial, law, Risk Factors, medicine, Humans, Exercise, Gait, Postural Balance, Balance (ability), Aged, Aged, 80 and over, business.industry, Trunk, Exercise Therapy, Preferred walking speed, Exercise Test, Accidental Falls, Female, Independent Living, Geriatrics and Gerontology, 0305 other medical science, business, human activities, Gerontology, 030217 neurology & neurosurgery

Abstract

Background Most falls among older adults occur while walking. Pelvic and trunk motions are required to maintain stability during walking. We aimed to explore whether training that incorporates unexpected loss of balance during walking that evokes balance recovery reactions will improve pelvic, thorax, and trunk kinematics at different walking speeds. Methods Fifty-three community-dwelling older adults (age 80.1 ± 5.6 years) were randomly allocated to an intervention group (n = 27) or a control group (n = 26). Both groups received 24 training sessions over 3 months. The intervention group received unexpected perturbation of balance exercises during treadmill walking, while the control group performed treadmill walking only. The primary outcome measures were the pelvic, thorax, and trunk motion. The secondary outcome measures were stride times, length, and width. Results Compared to control, participation in the intervention program led to improvement in pelvic and trunk transverse rotations especially at participants’ preferred walking speed. No improvement where found in pelvic list while thorax transverse rotation improved in both groups. Conclusions Pelvic and trunk transverse motion, parameters previously reported to deteriorate during aging, associated with gait stability and a risk factor for falls, can be improved by gait training that includes unexpected loss of balance.

Published

2017

24. Examining Different Motor Learning Paradigms for Improving Balance Recovery Abilities Among Older Adults, Random vs. Block Training—Study Protocol of a Randomized Non-inferiority Controlled Trial.

Author

Nachmani, Hadas, Paran, Inbal, Salti, Moti, Shelef, Ilan, and Melzer, Itshak

Subjects

OLDER people, MOTOR learning, RANDOMIZED controlled trials, CLINICAL trial registries, EXERCISE video games, ANALYSIS of covariance

Abstract

Introduction : Falls are the leading cause of fatal and nonfatal injuries among older adults. Studies showed that older adults can reduce the risk of falls after participation in an unexpected perturbation-based balance training (PBBT), a relatively novel approach that challenged reactive balance control. This study aims to investigate the effect of the practice schedule (i.e., contextual interference) on reactive balance function and its transfer to proactive balance function (i.e., voluntary step execution test and Berg balance test). Our primary hypothesis is that improvements in reactive balance control following block PBBT will be not inferior to the improvements following random PBBT. Methods and Analysis : This is a double-blind randomized controlled trial. Fifty community-dwelling older adults (over 70 years) will be recruited and randomly allocated to a random PBBT group (n = 25) or a block PBBT group (n = 25). The random PBBT group will receive eight training sessions over 4 weeks that include unexpected machine-induced perturbations of balance during hands-free treadmill walking. The block PBBT group will be trained by the same perturbation treadmill system, but only one direction will be trained in each training session, and the direction of the external perturbations will be announced. Both PBBT groups (random PBBT and block PBBT) will receive a similar perturbation intensity during training (which will be customized to participant's abilities), the same training period, and the same concurrent cognitive tasks during training. The generalization and transfer of learning effects will be measured by assessing the reactive and proactive balance control during standing and walking before and after 1 month of PBBT, for example, step and multiple steps and fall thresholds, Berg balance test, and fear of falls. The dependent variable will be rank transformed prior to conducting the analysis of covariance (ANCOVA) to allow for nonparametric analysis. Discussion : This research will explore which of the balance retraining paradigms is more effective to improve reactive balance and proactive balance control in older adults (random PBBT vs. block PBBT) over 1 month. The research will address key issues concerning balance retraining: older adults' neuromotor capacities to optimize training responses and their applicability to real-life challenges. Clinical Trial Registration : Helsinki research ethics approval has been received (Soroka Medical Center approval #0396-16-SOR; MOH_2018-07-22_003536; www.ClinicalTrials.gov, NCT04455607). [ABSTRACT FROM AUTHOR]

Published

2021

25. The Effect of Different Somatosensory Cues on Postural Stability among Persons Who Are Blind.

Author

Yagev, Ronit, Landau, Anat, Damry, Elad, and Melzer, Itshak

Subjects

BIOMECHANICS, BLINDNESS, BODY weight, POSTURAL balance, INFORMED consent (Medical law), SOMATOSENSORY evoked potentials, STATISTICS, STATURE, PILOT projects, DATA analysis, BODY movement, PROMPTS (Psychology), HUMAN research subjects, DATA analysis software, DESCRIPTIVE statistics

Abstract

In the article, the authors discuss a pilot study which compared the effect of somatosensory cues on the postural steadiness in blind people. The cues were either sensed through a dog guide or a white cane. Based on the results, subjects who hold a white cane touching the ground lightly (WCLT) have better balance in the anterior-posterior direction, while a dog standing beside the participant (DGLT) will improve balance in the mediolateral direction.

Published

2020

26. Characteristics of First Recovery Step Response following Unexpected Loss of Balance during Walking: A Dynamic Approach.

Author

Nachmani, Hadas, Shani, Guy, Shapiro, Amir, and Melzer, Itshak

Subjects

OLDER people, WALKING speed, CENTER of mass, YOUNG adults, BODY-weight-supported treadmill training, EXERCISE tests, RESEARCH, POSTURAL balance, GAIT in humans, RESEARCH methodology, EVALUATION research, MEDICAL cooperation, PHYSIOLOGICAL adaptation, COMPARATIVE studies, WALKING, ACCIDENTAL falls, KINEMATICS

Abstract

Introduction: Many falls in older adults occur during walking and result in lateral falls. The ability to perform a recovery step after balance perturbation determines whether a fall will occur.Aim: To investigate age-related changes in first recovery step kinematics and kinematic adaptations over a wide range of lateral perturbation magnitudes while walking.Methods: Thirty-five old (78.5 ± 5 years) and 19 young adults (26.0 ± 0.8 years) walked at their preferred walking speed on a treadmill. While walking, the subjects were exposed to announced right/left perturbations in different phases of the gait cycle that were gradually increased in order to trigger a recovery stepping response. The subjects were instructed to react naturally and try to avoid falling. Kinematic analysis was performed to analyze the first recovery step parameters (e.g., step initiation, swing duration, step length, and the estimated distance of the center of mass from the base of support [dBoS]).Results: Compared with younger adults, older adults displayed a significantly lower step threshold and at lower perturbation magnitudes during the experiment. Also, they showed slower compensatory step initiation, shorter step length, and dBoS with similar step recovery times. As the perturbation magnitudes increased, older adults showed very small, yet significant, decreases in the timing of the step response, and increased their step length. Younger adults did not show changes in the timing of stepping, with a tendency toward a significant increase in step length.Conclusions: First compensatory step performance is impaired in older adults. In terms of the dynamic approach, older adults were more flexible, i.e., less automatic, while younger adults displayed more automatic behavior. [ABSTRACT FROM AUTHOR]

Published

2020

27. Characteristics of proactive balance and gait performance in subacute stroke patients demonstrating varying reactive balance capacity: A research study.

Author

Handelzalts, Shirley, Gray, Ganit, Steinberg-Henn, Flavia, Soroker, Nachum, and Melzer, Itshak

Subjects

CONFIDENCE, DIAGNOSIS, POSTURAL balance, ACCIDENTAL falls, GAIT in humans, RISK assessment, STROKE patients

Abstract

BACKGROUND: Persons with stroke (PwS) demonstrate impaired reactive balance control placing them at increased risk of falls. Yet, tests used in clinical practice to assess this risk usually rely on proactive balance control. OBJECTIVE: To investigate differences in proactive balance in PwS with varying reactive balance capacity. METHODS: Reactive balance control was assessed in 48 first-event subacute PwS by measuring multiple-step threshold and fall threshold in response to unannounced surface perturbations. They were classified as low-, medium- high- threshold fallers and non-fallers in accordance with the perturbation magnitude at which they were unable to maintain balance (fall threshold). Proactive balance control and gait performance were tested using the Berg Balance test, 10-meter walk test, 6-minute walk test and the Activities-specific Balance Confidence Scale (ABC). RESULTS: PwS who demonstrated poor reactive balance capacity were also more impaired in their proactive balance and gait. Proactive balance and gait performance were significantly different between the 4 groups while ABC was not. The associations between reactive and proactive measures of balance were moderate (r = 0.53–0.67). CONCLUSIONS: The moderate correlations between reactive and proactive balance control suggest the recruitment of different neural mechanisms for these two operations, highlighting the importance of assessing and treating reactive balance in clinics. [ABSTRACT FROM AUTHOR]

Published

2020

28. Characteristics of balance control in older persons who fall with injury – A prospective study

Author

Ilan Kurz, Itshak Melzer, and Lars Oddsson

Subjects

Male, Aging, medicine.medical_specialty, Movement, Posture, Biophysics, Neuroscience (miscellaneous), Poison control, Occupational safety and health, Postural control, Injury prevention, Postural Balance, Humans, Medicine, Prospective Studies, Prospective cohort study, Balance (ability), Foot, business.industry, Work (physics), Physical therapy, Wounds and Injuries, Accidental Falls, Female, Neurology (clinical), business

Abstract

Objective Older adults who have recently fallen demonstrate increased postural sway compared with non-fallers. However, the differences in postural control between older adults who were seriously injured (SI) as a result of a fall, compared with those who fell but were not injured (NSI) and non-fallers (NFs), has not been investigated. The objective of the present study was to investigate the underlying postural control mechanisms related to injuries resulting from a fall. Methods Both traditional postural sway measures of foot center-of-pressure (CoP) displacements and fractal measures, the Stabilogram-Diffusion Analysis (SDA), were used to characterize the postural control. One hundred older adults aged 65–91years were tested during narrow base upright stance in eyes closed condition; falls were monitored over a 1-year period. Results Forty-nine older adults fell during the 1-year follow-up, 13 were seriously injured as a result of a fall (SI), 36 were not injured (NSI), and 49 were non-fallers (NFs); two passed away. The SDA showed significantly higher short-term diffusion coefficients and critical displacements in SI in the anterior–posterior direction compared with both NSI and NF. However, in the medio-lateral direction there were no statistically significant differences between groups. For the traditional measures of sway, the average anterior–posterior CoP range was also larger in SI individuals. Conclusions This work suggests that older fallers with a deterioration of anterior–posterior postural control may be at higher risk of serious injury following fall events.

Published

2013

29. Vestibulo-ocular response and balance control in children and young adults with mild-to-moderate intellectual and developmental disability: A pilot study

Author

Ayelet Ronen, Eli Carmeli, Oz Zur, and Itshak Melzer

Subjects

Male, medicine.medical_specialty, Vestibulo-ocular response, Visual acuity, Adolescent, genetic structures, Developmental Disabilities, Posture, Early detection, Pilot Projects, Audiology, Young Adult, Intellectual Disability, Developmental and Educational Psychology, medicine, Humans, Young adult, Postural Balance, Balance (ability), Psychomotor learning, Head impulse test, Reflex, Vestibulo-Ocular, Fully developed, Clinical Psychology, Female, sense organs, medicine.symptom, Psychology

Abstract

The vestibulo-ocular response (VOR) may not be fully developed in children with an intellectual and developmental disability (IDD). This study aimed to identify the presence of VOR deficit in children and young adults with unspecified mild-to-moderate intellectual and developmental disability and its effect on balance control. Twenty-one children and young adults with IDD ranging in age from 8 to 22 years (mean 17.5 ± 3.9 years) were included in the study. The VOR was evaluated with the Head Impulse Test and the Static and Dynamic Visual Acuity Test (SD-VAT). Postural stability was measured in an upright standing position by the Clinical Test for Sensory Interaction in Balance (CTSIB), single leg stance (SLS) during eyes open and eyes closed, and Romberg stance under eyes open and eyes closed conditions using a force platform. Reduced vestibulo-ocular responses were found in 13 of 21 (62%) participants who were able to complete testing. In the fifth condition of the CTSIB (standing on foam with eyes closed), those without VOR deficit were able to maintain balance longer than those with VOR deficit (29 s [median 30] vs. 12s [median 7.3], respectively; p=0.03). The study demonstrates potential effects of VOR deficit in children and young adults with IDD and some significant differences in balance control between those with and without a VOR deficit. VOR function in children and young adults with IDD should be routinely tested to enable early detection of deficits.

Published

2013

30. Frontal Plane Instability Following Rapid Voluntary Stepping: Effects of Age and a Concurrent Cognitive Task

Author

Itshak Melzer, Ilan Kurz, and Elinor Berezowski

Subjects

Adult, Aged, 80 and over, Male, Aging, medicine.medical_specialty, Cognition, Instability, Standard deviation, Developmental psychology, Physical medicine and rehabilitation, Center of pressure (terrestrial locomotion), Turnover, Coronal plane, Bone plate, medicine, Postural Balance, Humans, Accidental Falls, Female, Geriatrics and Gerontology, Psychology, Aged

Abstract

Background. Quick step execution may prevent falls when balance is lost. Lateral steps often emerge as a consequence of frontal plane instability arising after the first rapid step. In this study, we suggest a new analysis, focusing on the variability of the frontal plane fluctuations of center of pressure (CoP), that is, mediolateral instability, and their changes over time during and immediately following rapid voluntary stepping in older and younger adults in single- and dual-task conditions. This may be useful in understanding age-related alterations in the locomotor control system. Methods. Seventeen older adults, who live independently in the community, and 16 younger adults performed rapid forward voluntary stepping under single- and dual-task conditions. The average mediolateral CoP fluctuations, that is, the average distance the CoP travels from side to side in the frontal plane over time, standard deviation, and the coefficient of variation of mediolateral CoP fluctuation were extracted and calculated from CoP data during and immediately following rapid voluntary stepping using a force plate. Results. We found an age-related increase in the coefficient of variation that represents the variability of frontal plane fluctuations and no significant differences in the average and standard deviations of frontal plane fluctuations. Cognitive task had no influence on measures of frontal plane fluctuations in both age groups. Conclusion. The study showed frontal plane instability during and immediately following rapid stepping in older persons. This may be a factor contributing to lateral balance loss and the large number of lateral falls seen in the older population.

Published

2013

31. A water-based training program that includes perturbation exercises improves speed of voluntary stepping in older adults: A randomized controlled cross-over trial

Author

Itshak Melzer, Ori Elbar, Gali Shvarth, Michael Friger, Irit Tzedek, and Elisha Vered

Subjects

Aging, medicine.medical_specialty, Health (social science), Poison control, Walking, law.invention, Randomized controlled trial, law, medicine, Humans, Postural Balance, Aged, Cross-Over Studies, Physical Education and Training, Stance phase, business.industry, Water, Middle Aged, Crossover study, Water based, Turnover, Postural stability, Physical therapy, Geriatrics and Gerontology, Training program, business, Gerontology

Abstract

A B S T R A C T This study evaluated the effects of a water exercise training program that includes perturbation exercises (WEP) to improve the speed of voluntary stepping reaction in older adults. Speed of voluntary stepping considered as an important skill to prevent a fall when balance is lost. In a single-blinded randomized controlled trial with a crossover design thirty-six independent old adults (64–88 years old) were divided into two groups. Group A received WEP for the first 12 weeks, followed by no intervention for the second 12 weeks. Group B did not receive intervention for the first 12 weeks and received WEP for the second 12 weeks. Voluntary Step Execution Test and postural stability in upright standing (eyes open and closed conditions) were measured at baseline, 12 weeks, and 24 weeks. A significant interaction effect between group and time was found for the step execution, due to improvement in initiation phase and swing phase durations in the WEP group. Also significant improvement in postural stability parameters in eyes open and closed conditions is noted. The present results indicate that the primary benefit of WEP that include perturbations to induce stepping, was a reduction in voluntary stepping times. The WEP generalized to a better control of balance in up-right standing.

Published

2013

32. Reliability and Concurrent Validity of the Narrow Path Walking Test in Persons With Multiple Sclerosis

Author

Itshak Melzer and Uri Rosenblum

Subjects

Adult, Male, medicine.medical_specialty, Multiple Sclerosis, Intraclass correlation, Concurrent validity, Physical Therapy, Sports Therapy and Rehabilitation, Walk Test, Walking, 03 medical and health sciences, Disability Evaluation, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Humans, 030212 general & internal medicine, Mobility Limitation, Dynamic balance, Postural Balance, Reliability (statistics), Partial correlation, Gait Disorders, Neurologic, Mathematics, Balance (ability), Walking test, Rehabilitation, Reproducibility of Results, Standard error, Motor Skills, Accidental Falls, Female, Neurology (clinical), 030217 neurology & neurosurgery

Abstract

Background and purpose About 90% of people with multiple sclerosis (PwMS) have gait instability and 50% fall. Reliable and clinically feasible methods of gait instability assessment are needed. The study investigated the reliability and validity of the Narrow Path Walking Test (NPWT) under single-task (ST) and dual-task (DT) conditions for PwMS. Methods Thirty PwMS performed the NPWT on 2 different occasions, a week apart. Number of Steps, Trial Time, Trial Velocity, Step Length, Number of Step Errors, Number of Cognitive Task Errors, and Number of Balance Losses were measured. Intraclass correlation coefficients (ICC2,1) were calculated from the average values of NPWT parameters. Absolute reliability was quantified from standard error of measurement (SEM) and smallest real difference (SRD). Concurrent validity of NPWT with Functional Reach Test, Four Square Step Test (FSST), 12-item Multiple Sclerosis Walking Scale (MSWS-12), and 2 Minute Walking Test (2MWT) was determined using partial correlations. Results Intraclass correlation coefficients (ICCs) for most NPWT parameters during ST and DT ranged from 0.46-0.94 and 0.55-0.95, respectively. The highest relative reliability was found for Number of Step Errors (ICC = 0.94 and 0.93, for ST and DT, respectively) and Trial Velocity (ICC = 0.83 and 0.86, for ST and DT, respectively). Absolute reliability was high for Number of Step Errors in ST (SEM % = 19.53%) and DT (SEM % = 18.14%) and low for Trial Velocity in ST (SEM % = 6.88%) and DT (SEM % = 7.29%). Significant correlations for Number of Step Errors and Trial Velocity were found with FSST, MSWS-12, and 2MWT. Discussion and conclusions In persons with PwMS performing the NPWT, Number of Step Errors and Trial Velocity were highly reliable parameters. Based on correlations with other measures of gait instability, Number of Step Errors was the most valid parameter of dynamic balance under the conditions of our test.Video Abstract available for more insights from the authors (see Supplemental Digital Content 1, available at: http://links.lww.com/JNPT/A159).

Published

2016

33. Improving balance control and self-reported lower extremity function in community-dwelling older adults: a randomized control trial

Author

Lars I. E. Oddsson and Itshak Melzer

Subjects

Male, medicine.medical_specialty, Poison control, Physical Therapy, Sports Therapy and Rehabilitation, Suicide prevention, law.invention, Physical medicine and rehabilitation, Randomized controlled trial, law, Intervention (counseling), Injury prevention, medicine, Humans, Postural Balance, Reference group, Aged, Balance (ability), Aged, 80 and over, Physical Education and Training, business.industry, Rehabilitation, Displacement (psychology), Exercise Therapy, Lower Extremity, Massachusetts, Physical therapy, Accidental Falls, Female, business

Abstract

Objectives: To evaluate the effect of a group-based functional and specific balance training programme that included dual-task exercises on balance function in healthy older adults. Design: A single-blind randomized controlled trial. Setting: General community. Participants: Sixty-six community-dwelling older adults (age 77.0 ± 6.5 years), without functional balance impairment were recruited and allocated at random to an intervention group ( n = 33) or a reference group ( n = 33). Intervention: The intervention group received 24 training sessions over three months that included perturbation as well as dual-task exercises. The reference group received no intervention. Outcome measures: The voluntary step execution times during single- and dual-task conditions, stabilogram-diffusion analysis in upright standing, and self-reported physical function; all were measured assessed at baseline and at the end of intervention. The intervention group was retested after six months. Results: Compared with the reference group, participation in group-based functional and specific balance training led to faster voluntary step execution times under single-task ( P = 0.02; effect size (ES) = 0.34) and dual-task ( P = 0.036; ES = 0.55) conditions; lower transition displacement and shorter transition time of the stabilogram-diffusion analysis under eyes-closed conditions ( P = 0.007, ES = 0.30 and P = 0.08, ES = 0.44, respectively); and improved self-reported lower extremity function ( P = 0.006, ES = 0.37). Effects were lost at six-month follow-up. Conclusions: Functional and specific balance training can improve voluntary stepping and balance control in healthy older non-fallers, parameters previously found to be related to increased risk of falls and injury in older adults.

Published

2012

34. The effect of plantar flexor muscle fatigue on postural control

Author

Itshak Melzer, Raziel Riemer, Yoav Gimmon, and Lars I. E. Oddsson

Subjects

Adult, Male, medicine.medical_specialty, Posture, Biophysics, Neuroscience (miscellaneous), Plantar flexion, Postural control, Physical medicine and rehabilitation, Center of pressure (terrestrial locomotion), Humans, Medicine, Force platform, Muscle, Skeletal, Postural Balance, Feedback, Physiological, Muscle fatigue, Foot, business.industry, Sagittal plane, body regions, medicine.anatomical_structure, Muscle Fatigue, Upper limb, Female, Neurology (clinical), Ankle, business, Muscle Contraction

Abstract

Objective Previous studies have demonstrated that ankle muscle fatigue alters postural sway. Our aim was to better understand postural control mechanisms during upright stance following plantar flexor fatigue. Method Ten healthy young volunteers, 25.7±2.2years old, were recruited. Foot center-of-pressure (CoP) displacement data were collected during narrow base upright stance and eyes closed (i.e. blindfolded) conditions. Subjects were instructed to stand upright and as still as possible on a force platform under five test conditions: (1) non-fatigue standing on firm surface; (2) non-fatigue standing on foam; (3) ankle plantar flexor fatigue, standing on firm surface; (4) ankle plantar flexor fatigue, standing on foam; and (5) upper limb fatigue, standing on firm surface. An average of the ten 30-s trials in each of five test conditions was calculated to assess the mean differences between the trials. Traditional measures of postural stability and stabilogram-diffusion analysis (SDA) parameters were analyzed. Results Traditional center of pressure parameters were affected by plantar flexor fatigue, especially in the AP direction. For the SDA parameters, plantar flexor fatigue caused significantly higher short-term diffusion coefficients, and critical displacement in both mediolateral (ML) and anteroposterior (AP) directions. Long-term postural sway was different only in the AP direction. Conclusions Localized plantar flexor fatigue caused impairment to postural control mainly in the Sagittal plane. The findings indicate that postural corrections, on average, occurred at a higher threshold of sway during plantar flexor fatigue compared to non-fatigue conditions.

Published

2011

35. The influence of an auditory–memory attention-demanding task on postural control in blind persons

Author

Itshak Melzer, Elad Damry, Ronit Yagev, and Anat Landau

Subjects

Adult, Male, medicine.medical_specialty, Time Factors, Echoic memory, genetic structures, Population, Biophysics, Poison control, Blindness, Cognition, Physical medicine and rehabilitation, Hearing, Center of pressure (terrestrial locomotion), Memory, Pressure, Postural Balance, medicine, Humans, Attention, Orthopedics and Sports Medicine, Force platform, education, Balance (ability), education.field_of_study, Middle Aged, Case-Control Studies, Female, Psychology, Visually Impaired Persons

Abstract

BACKGROUND: In order to evaluate the effect of an auditory-memory attention-demanding task on balance control, nine blind adults were compared to nine age-gender-matched sighted controls. This issue is particularly relevant for the blind population in which functional assessment of postural control has to be revealed through "real life" motor and cognitive function. The study aimed to explore whether an auditory-memory attention-demanding cognitive task would influence postural control in blind persons and compare this with blindfolded sighted persons. METHODS: Subjects were instructed to minimize body sway during narrow base upright standing on a single force platform under two conditions: 1) standing still (single task); 2) as in 1) while performing an auditory-memory attention-demanding cognitive task (dual task). Subjects in both groups were required to stand blindfolded with their eyes closed. Center of Pressure displacement data were collected and analyzed using summary statistics and stabilogram-diffusion analysis. FINDINGS: Blind and sighted subjects had similar postural sway in eyes closed condition. However, for dual compared to single task, sighted subjects show significant decrease in postural sway while blind subjects did not. INTERPRETATION: The auditory-memory attention-demanding cognitive task had no interference effect on balance control on blind subjects. It seems that sighted individuals used auditory cues to compensate for momentary loss of vision, whereas blind subjects did not. This may suggest that blind and sighted people use different sensorimotor strategies to achieve stability. Language: en

Published

2011

36. Age-related differences in lower-limb force–time relation during the push-off in rapid voluntary stepping

Author

Itshak Melzer, Tal Krasovsky, Dario G. Liebermann, and Lars Oddsson

Subjects

Male, Aging, medicine.medical_specialty, Biophysics, Walking, Physical medicine and rehabilitation, Age related, Vertical direction, medicine, Postural Balance, Humans, Orthopedics and Sports Medicine, Force platform, Gait, Simulation, Aged, Balance (ability), Aged, 80 and over, Age Factors, Swing, Biomechanical Phenomena, Push off, Turnover, Accidental Falls, Female, Psychology

Abstract

Background This study investigated the force–time relationship during the push-off stage of a rapid voluntary step in young and older healthy adults, to study the assumption that when balance is lost a quick step may preserve stability. The ability to achieve peak propulsive force within a short time is critical for the performance of such a quick powerful step. We hypothesized that older adults would achieve peak force and power in significantly longer times compared to young people, particularly during the push-off preparatory phase. Methods Fifteen young and 15 older volunteers performed rapid forward steps while standing on a force platform. Absolute anteroposterior and body weight normalized vertical forces during the push-off in the preparation and swing phases were used to determine time to peak and peak force, and step power. Two-way analyses of variance (‘Group’ [young–older] by ‘Phase’ [preparation-swing]) were used to assess our hypothesis (P ≤ 0.05). Findings Older people exerted lower peak forces (anteroposterior and vertical) than young adults, but not necessarily lower peak power. More significantly, they showed a longer time to peak force, particularly in the vertical direction during the preparation phase. Interpretations Older adults generate propulsive forces slowly and reach lower magnitudes, mainly during step preparation. The time to achieve a peak force and power, rather than its actual magnitude, may account for failures in quickly performing a preventive action. Such delay may be associated with the inability to react and recruit muscles quickly. Thus, training elderly to step fast in response to relevant cues may be beneficial in the prevention of falls.

Published

2010

37. A retrospective analysis of balance control parameters in elderly fallers and non-fallers

Author

Lars I. E. Oddsson, Itshak Melzer, and Ilan Kurz

Subjects

Male, Aging, medicine.medical_specialty, Cross-sectional study, Posture, Population, Biophysics, Poison control, Postural control, Diffusion, Physical medicine and rehabilitation, Postural Balance, Retrospective analysis, medicine, Humans, Orthopedics and Sports Medicine, education, Aged, Retrospective Studies, Balance (ability), Aged, 80 and over, education.field_of_study, business.industry, Displacement (psychology), Biomechanical Phenomena, Cross-Sectional Studies, Physical therapy, Accidental Falls, Female, business

Abstract

Background A cross-sectional retrospective study of parameters reflecting balance function in elderly fallers and non-fallers was conducted to better understand postural control mechanisms in individuals prone to falls. Methods Ninety-nine old adults (65–91 years, mean age 78.4 (SD 5.7)) from two self-care residential facilities participated in the study. Foot center-of-pressure (CoP) displacement data were collected during narrow base upright stance eyes closed conditions and analyzed using summary statistics and Stabilogram-Diffusion Analysis (SDA) for mediolateral (ML) and anteroposterior (AP) directions. Subjects were instructed to minimize body sway. Findings Twenty-nine of the subjects reported at least one fall and 69 subjects reported no falls in the past six months. The SDA showed significantly higher short-term diffusion coefficients and critical displacements in fallers in the ML but not the AP direction. Mean sway area and ML-CoP sway range were also larger in fallers. Interpretation The greater ML critical displacement seen in fallers suggests that balance corrections on average occurred at higher sway amplitudes in this population. This is consistent with an ML decrease in the sensitivity of their postural control system. A higher short-term diffusion coefficient is consistent with increased muscle stiffness, a possible compensation for lost control sensitivity. Testing balance function under narrow stance conditions provides a modest increase in task difficulty that may help reveal pre-conditions of the balance control system that could increase the risk of falls.

Published

2010

38. Voluntary stepping behavior under single- and dual-task conditions in chronic stroke survivors: A comparison between the involved and uninvolved legs

Author

Melissa Goldring, Yehudit Melzer, Elad Green, Itshak Melzer, and Irit Tzedek

Subjects

Male, medicine.medical_specialty, Biophysics, Neuroscience (miscellaneous), Task (project management), Physical medicine and rehabilitation, Step initiation, Reaction Time, medicine, Humans, Attention, Postural Balance, Stroke, Chronic stroke, Balance (ability), Muscle force, Leg, Middle Aged, Swing, medicine.disease, Turnover, Physical therapy, Accidental Falls, Female, Neurology (clinical), Psychology

Abstract

Objective If balance is lost, quick step execution can prevent falls. Research has shown that speed of voluntary stepping was able to predict future falls in old adults. The aim of the study was to investigate voluntary stepping behavior, as well as to compare timing and leg push-off force–time relation parameters of involved and uninvolved legs in stroke survivors during single- and dual-task conditions. We also aimed to compare timing and leg push-off force–time relation parameters between stroke survivors and healthy individuals in both task conditions. Methods Ten stroke survivors performed a voluntary step execution test with their involved and uninvolved legs under two conditions: while focusing only on the stepping task and while a separate attention-demanding task was performed simultaneously. Temporal parameters related to the step time were measured including the duration of the step initiation phase, the preparatory phase, the swing phase, and the total step time. In addition, force–time parameters representing the push-off power during stepping were calculated from ground reaction data and compared with 10 healthy controls. Results The involved legs of stroke survivors had a significantly slower stepping time than uninvolved legs due to increased swing phase duration during both single- and dual-task conditions. For dual compared to single task, the stepping time increased significantly due to a significant increase in the duration of step initiation. In general, the force time parameters were significantly different in both legs of stroke survivors as compared to healthy controls, with no significant effect of dual compared with single-task conditions in both groups. Conclusions The inability of stroke survivors to swing the involved leg quickly may be the most significant factor contributing to the large number of falls to the paretic side. The results suggest that stroke survivors were unable to rapidly produce muscle force in fast actions. This may be the mechanism of delayed execution of a fast step when balance is lost, thus increasing the likelihood of falls in stroke survivors.

Published

2010

39. Do voluntary step reactions in dual task conditions have an added value over single task for fall prediction? A prospective study

Author

Danit R. Shahar, Ilan Kurz, Lars I. E. Oddsson, and Itshak Melzer

Subjects

Aged, 80 and over, Male, Aging, medicine.medical_specialty, Poison control, Odds ratio, Logistic regression, Logistic Models, Physical medicine and rehabilitation, Center of pressure (terrestrial locomotion), Task Performance and Analysis, Injury prevention, Added value, medicine, Humans, Accidental Falls, Female, Force platform, Prospective Studies, Geriatrics and Gerontology, Ground reaction force, Geriatric Assessment, Postural Balance, Aged, Mathematics

Abstract

Background and aims: Stepping reactions play a critical role in responding to balance perturbations, whether they are a consequence of external perturbation or self-induced in nature. The aim of the present study was to determine prospectively the capacity of voluntary stepping performance in singleand dual-task conditions, to predict future falls among older community-dwelling persons. We also aimed to assess whether dual task conditions have an added value over single tasks for fall prediction. Methods: A total of 100 healthy old volunteers (mean age 78.4±5.7 yrs), from two self-care protected retirement homes for older adults, performed the Voluntary Step Execution Test in single- and dual-task conditions as a reaction time task while standing on a single force platform. Step initiation, preparatory and swing phases, and foot-contact time were extracted from data on center of pressure and ground reaction force. One-year fall incidences were monitored. Results: Ninety-eight subjects completed the one-year follow-up, 49 non-fallers, 32 one-time fallers, and 17 recurrent fallers (two or more falls). Recurrent fallers had significantly slower voluntary step execution times in both single- and dual-task conditions, especially due to a slower preparation phase. Two stepwise (backward) logistic regression models showed that longer step execution times have strong predictive value for falls in both single- and dual-task conditions (odds ratio (OR) 8.7 and 5.4, respectively, p

Published

2010

40. Cognitive Load Affects Lower Limb Force-Time Relations During Voluntary Rapid Stepping in Healthy Old and Young Adults

Author

Lars I. E. Oddsson, Tal Krasovsky, Dario G. Liebermann, and Itshak Melzer

Subjects

Adult, Aging, medicine.medical_specialty, Cognition, Physical medicine and rehabilitation, Center of pressure (terrestrial locomotion), Reaction Time, Humans, Medicine, Attention, Ground reaction force, Young adult, Gait, Postural Balance, Aged, Aged, 80 and over, business.industry, Swing, Turnover, Motor unit recruitment, Physical therapy, Accidental Falls, Geriatrics and Gerontology, business, Cognitive load, Fall prevention

Abstract

BACKGROUND Quick step execution may prevent falls when balance is lost; adding a concurrent task delays this function. We investigate whether push-off force-time relations during the execution of rapid voluntary stepping is affected by a secondary task in older and young adults. METHODS Nineteen healthy older adults and 12 young adults performed rapid voluntary stepping under single- and dual-task conditions. Peak power, peak force, and time to peak force during preparatory and swing phases of stepping were extracted from center of pressure and ground reaction force data. RESULTS For dual-task condition compared with single-task condition, older adults show a longer time to reach peak force during the preparation and swing phases compared with young adults (approximately 25% vs approximately 10%, respectively). Peak power and peak force were not affected by a concurrent attention-demanding task. CONCLUSION Older adults have difficulty allocating sufficient attention for fast muscle recruitment when concurrently challenged by an attention-demanding task.

Published

2009

41. Self reported function and disability in late life: a comparison between recurrent fallers and non-fallers

Author

Ilan Kurz and Itshak Melzer

Subjects

Male, medicine.medical_specialty, Self Disclosure, Cross-sectional study, Statistics, Nonparametric, Disability Evaluation, Physical medicine and rehabilitation, Elderly persons, Recurrence, Risk Factors, Activities of Daily Living, medicine, Humans, Geriatric Assessment, Postural Balance, Aged, Balance (ability), Aged, 80 and over, Analysis of Variance, Rehabilitation, Cognition, Cross-Sectional Studies, Berg balance test, Physical therapy, Accidental Falls, Female, Psychology, Timed up and go

Abstract

To compare self-reported function and disability between fallers and non-fallers.Self-reported late life function and disability (LLFDI) were evaluated among 100 elderly persons who live independently in the community in a cross sectional study. The function component evaluates difficulty in performing physical activities in upper and lower extremity and the disability component evaluates limitations in life activities and frequency in taking part in life tasks. Falls, cognitive function, berg balance test (BBS), and timed up and go (TUG) were also evaluated.Eighteen subjects reported one fall (F), 11 fell twice or more (RF) and 71 did not report retrospective fall (NF). There were significant differences in overall function of LLFDI between RF and NF (56.8 +/- 5.7 vs. 63.7 +/- 11.4, P = 0.04), mainly due to decreased basic lower extremity function scores (66.2 +/- 8.6 vs. 75.3 +/- 13.5, P = 0.03); no significant differences were found in disability component scores. RF subjects showed high to moderate correlations between overall function of LLFDI, BBS and TUG (r = 0.77, P = 0.006 and r = -0.62, P = 0.04, respectively), moderate correlation between disability limitation and BBS (r = 0.60, P = 0.05) but weaker with TUG (r = -0.38, P = 0.28). Both BBS and TUG were not correlated with disability frequency (r = -0.18, P = 0.61 and r = 0.14, P = 0.68, respectively) in RF. RF demonstrated high correlation between overallfunction and disability limitation (r = 0.76, P = 0.007) and low with disability frequency (r = 0.39, P = 0.23).Balance function, self-reported function and disability limitation are strongly associated in RF but not related to the disability frequency, suggesting that the frequency of performing life tasks was not influenced only by functional capabilities.

Published

2009

42. Association between ankle muscle strength and limit of stability in older adults

Author

Neil B. Alexander, N. Benjuya, Jacob Kaplanski, and Itshak Melzer

Subjects

Joint Instability, Male, Aging, medicine.medical_specialty, Activities of daily living, Physical medicine and rehabilitation, Sensation, Research Letter, medicine, Postural Balance, Humans, Muscle Strength, Muscle, Skeletal, Geriatric Assessment, Aged, Balance (ability), Aged, 80 and over, business.industry, General Medicine, medicine.anatomical_structure, Tripping, Physical therapy, Regression Analysis, Accidental Falls, Female, Geriatrics and Gerontology, Ankle, medicine.symptom, Falling (sensation), business, Ankle Joint, Balance problems

Abstract

SIR—Loss of balance and falls in the elderly constitute a major problem associated with human suffering as well as high costs for society [1]. Falls might occur during various daily activities, such as tripping or tangling the feet, reaching movements or bending [2]. Many of these activities are constrained by limits of stability (LOS). LOS can be described as the maximum distance a person can intentionally displace his/her centre of gravity, and lean his/her body in a given direction without losing balance, stepping or grasping. Accordingly, one's LOS capacity is likely to be an important prerequisite for the successful planning and execution of movements such as using a step stool to reach into a high cabinet as well as bending over from standing position to pick up an object from the floor. Ageing is associated with decreased LOS [3–5], muscle strength [6] and foot sensation [7]. Investigators have reported significant correlations between postural stability, quadriceps, ankle dorsiflexion and hand-grip strength [8–11], tibialis anterior latency [8] and functional clinical balance testing [12] among older adults. However, the relationships between lower-limb muscle strength and falls are unclear. Several studies show minimal or no differences in strength between fallers and non-fallers [13, 14] while others show no strength–falls relationships [15]. Cutaneous mechanoreceptors at the soles of the feet contribute to postural stability when standing [16]. Those with reduced feet sensation have a higher risk of falling [17] and greater instability [18]. Reduced foot sensation may contribute to reduced LOS, since older adults might not properly detect when the centre of gravity approaches the LOS. To our knowledge, no one has studied how postural control during LOS relates to ankle strength and foot sensation among older adults. The aims of this study are to investigate how two specific tests of postural control, LOS and postural stability, relate to ankle muscle strength and foot sensation in older adults. Identification of sensorimotor factors associated with both types of balance control can help us to understand better the balance problems facing older adults. Given that LOS likely requires highly active muscular control and that postural stability requires careful sensory monitoring of stance, we hypothesised that ankle muscle strength (and not foot sensation) will be significantly correlated with LOS and that foot sensation (and not ankle muscle strength) will be significantly correlated with postural stability. Data from this study may lead to a better understanding of the mechanisms underlying falls that occur during reaching and bending movements.

Published

2008

43. Regular Exercise in the Elderly Is Effective to Preserve the Speed of Voluntary Stepping under Single-Task Condition but Not under Dual-Task Condition

Author

Ilan Kurz, Itshak Melzer, and Roni Marx

Subjects

Aging, medicine.medical_specialty, Computer science, Exercise therapy, Task (project management), Dual (category theory), Physical medicine and rehabilitation, Single task, Regular exercise, Physical therapy, medicine, Postural Balance, Geriatrics and Gerontology, Exercise physiology, Balance (ability)

Abstract

Background: Stepping response may be considered the most important postural reaction to prevent a fall because it is the inability to respond effectively to a loss of balance that ultimately determines whether a fall occurs. However, very little has been studied on the effect of exercising on step execution behavior in the elderly. Objectives: To explore whether older persons who exercise regularly have faster voluntary stepping times than sedentary elderly persons. Additionally, we investigated the association between step execution behavior, self-reported physical function, and balance performance. Methods: Case-control study of 48 elderly adults aged 65–91 years who live independently in retirement homes. Participants were classified as 24 exercisers (reporting >2 exercise training activities/week) and 24 age- and gender-matched inactive elderly individuals (who do not exercise regularly). The Voluntary Step Execution Test was performed as a reaction time task while standing on a force platform under single-task and dual-task conditions. Step initiation phase, foot off time, foot contact time, preparatory, and swing phases were extracted from center of pressure and ground reaction force data. Self-reported function was examined using Late-Life Function and Disability Instrument; Berg Balance Test was also performed. Results: Exercisers had significantly faster voluntary step times in single-task condition (959 vs. 1,158 ms) but not during dual-task condition (1,170 vs. 1,303 ms). Exercisers had a significantly higher Berg Balance Test (53.7 ±3.6 vs. 49.8 ±5.3), consumed less medication (3.3 ±2.3 vs. 5.6 ±2.9), and their lower extremity function scores were higher (88.61 ±2.3 vs. 73.1 ±2.7) than those of inactive subjects. Conclusion: Exercising regularly protects from physical functioning loss in older persons and against a decrease in voluntary step execution times during single-task but not during dual-task conditions. Lack of specificity (dual-task exercises) during the training may be the cause of insignificant differences in dual-task stepping performance. Thus, adding dual-task training may improve dual-task performance in the elderly.

Published

2008

44. Unexpected perturbations training improves balance control and voluntary stepping times in older adults - a double blind randomized control trial

Author

Yoav Gimmon, Ilan Kurz, Ronen Debi, Itshak Melzer, Yoram Snir, and Amir Shapiro

Subjects

Male, 030506 rehabilitation, medicine.medical_specialty, Aging, medicine.medical_treatment, Poison control, Step execution, Postural stability, Walking, law.invention, Double blind, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Randomized controlled trial, Double-Blind Method, law, Risk Factors, Injury prevention, Postural Balance, Medicine, Humans, Unexpected perturbation of balance, Exercise, Balance (ability), Aged, Aged, 80 and over, Rehabilitation, business.industry, Mental Disorders, Exercise Therapy, Turnover, Physical therapy, Exercise Test, Accidental Falls, Female, Falls, Geriatrics and Gerontology, 0305 other medical science, business, 030217 neurology & neurosurgery, Research Article

Abstract

Falls are common among elderly, most of them occur while slipping or tripping during walking. We aimed to explore whether a training program that incorporates unexpected loss of balance during walking able to improve risk factors for falls. In a double-blind randomized controlled trial 53 community dwelling older adults (age 80.1±5.6 years), were recruited and randomly allocated to an intervention group (n = 27) or a control group (n = 26). The intervention group received 24 training sessions over 3 months that included unexpected perturbation of balance exercises during treadmill walking. The control group performed treadmill walking with no perturbations. The primary outcome measures were the voluntary step execution times, traditional postural sway parameters and Stabilogram-Diffusion Analysis. The secondary outcome measures were the fall efficacy Scale (FES), self-reported late life function (LLFDI), and Performance-Oriented Mobility Assessment (POMA). Compared to control, participation in intervention program that includes unexpected loss of balance during walking led to faster Voluntary Step Execution Times under single (p = 0.002; effect size [ES] =0.75) and dual task (p = 0.003; [ES] = 0.89) conditions; intervention group subjects showed improvement in Short-term Effective diffusion coefficients in the mediolateral direction of the Stabilogram-Diffusion Analysis under eyes closed conditions (p = 0.012, [ES] = 0.92). Compared to control there were no significant changes in FES, LLFDI, and POMA. An intervention program that includes unexpected loss of balance during walking can improve voluntary stepping times and balance control, both previously reported as risk factors for falls. This however, did not transferred to a change self-reported function and FES. ClinicalTrials.gov Registration number: NCT01439451 .

Published

2015

45. Altered characteristics of balance control in obese older adults

Author

Itshak Melzer and Lars I. E. Oddsson

Subjects

Male, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Movement, Postural instability, Overweight, Postural control, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Humans, 030212 general & internal medicine, Obesity, Geriatric Assessment, Postural Balance, Balance (ability), Aged, Aged, 80 and over, Nutrition and Dietetics, business.industry, Work (physics), Transition time, Displacement (psychology), medicine.disease, Accidental Falls, Female, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Summary Background Obesity is one of the most significant epidemiological trends of the last decades. Recently it was found that obese individuals show postural instability. Balance control mechanisms in obese older adults were less studied. Therefore we aimed to investigate the effect of obesity on balance control mechanisms in older adults. Methods Parameters from Stabilogram-Diffusion Analysis (SDA) and measures from summary statistics of foot centre-of-pressure (COP) displacements along the anterior-posterior (AP) and mediolateral (ML) directions in eyes open and eyes closed conditions were used to characterize postural control in 22 obese (30– 2 ), 26 overweight (25– 2 ), and 18 normal weight subjects (18.5– 2 ). Results Obese group subjects demonstrated significantly greater transition displacement, transition time interval, and short-term scaling exponent in the ML-direction compared with the normal weight group (eyes open and closed). In the AP-direction the obese group showed greater transition displacement (eyes open) and short-term scaling exponent (eyes open and closed). Average AP-COP and ML-COP ranges of COP sway were higher in the obese group compared with the normal weight group (eyes open and closed). Conclusions This work indicates an altered postural control process in obese older adults. A greater sway displacement before closed-loop feedback mechanisms are called into play was seen in the ML direction that may lead to a higher risk of instability and fall events.

Published

2014

46. Effect of single dose methylphenidate on walking and postural stability under single- and dual-task conditions in older adults--a double-blind randomized control trial

Author

Yaakov Bachner, Itshak Melzer, Tal Guy, and Zamir Shorer

Subjects

Male, Aging, Elementary cognitive task, medicine.medical_specialty, Poison control, Walking, behavioral disciplines and activities, law.invention, Task (project management), Executive Function, Physical medicine and rehabilitation, Randomized controlled trial, Double-Blind Method, law, mental disorders, Motor system, Medicine, Humans, Attention, Gait, Postural Balance, Balance (ability), Aged, Aged, 80 and over, business.industry, Methylphenidate, Accidental Falls, Central Nervous System Stimulants, Female, Geriatrics and Gerontology, business, human activities, psychological phenomena and processes, Psychomotor Performance, medicine.drug

Abstract

BACKGROUND: Methylphenidate (MPH) action may improve executive function and motor function. Effects of MPH on balance function in older adults were investigated. METHODS: A randomized controlled double-blind study examined the effects of a single dose of MPH on gait and postural stability in 30 healthy older adults (mean age = 74.9 ± 5.6) in four task conditions: (a) single task, standing still; (b) dual task, standing still performing a memory task; (c) single task, narrow base walking; and (d) dual task, narrow base walking, performing concurrent cognitive tasks. RESULTS: A single dose of MPH improved narrow base walking by reducing the number of step errors and step error rate in both single and dual tasks, with no equivalent improvement in postural stability. CONCLUSIONS: A single dose of MPH was able to improve gait function in older adults, especially in complex dual tasks that require higher executive control. This could largely account for the effects of MPH on a sustained attention dual task, but direct effects on the motor system may have also played a role. Language: en

Published

2013

47. Relative and absolute reliability of the clinical version of the Narrow Path Walking Test (NPWT) under single and dual task conditions

Author

Grinshpon Jacob, Constanze Lenoble-Hoskovec, Itshak Melzer, Yoav Gimmon, and Christophe Büla

Subjects

Male, Aging, medicine.medical_specialty, Health (social science), Intraclass correlation, Concurrent validity, Walking, Stability (probability), Task (project management), 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Gait (human), medicine, Humans, 030212 general & internal medicine, Geriatric Assessment, Postural Balance, Reliability (statistics), Aged, Aged, 80 and over, Walking test, Reproducibility of Results, Path (graph theory), Female, Geriatrics and Gerontology, Psychology, Gerontology, Social psychology, 030217 neurology & neurosurgery, Psychomotor Performance

Abstract

A B S T R A C T Decline in gait stability has been associated with increased fall risk in older adults. Reliable and clinically feasible methods of gait instability assessment are needed. This study evaluated the relative and absolute reliability and concurrent validity of the testing procedure of the clinical version of the Narrow Path Walking Test (NPWT) under single task (ST) and dual task (DT) conditions. Thirty independent community-dwelling older adults (65–87 years) were tested twice. Participants were instructed to walk within the 6-m narrow path without stepping out. Trial time, number of steps, trial velocity, number of step errors, and number of cognitive task errors were determined. Intraclass correlation coefficients (ICCs) were calculated as indices of agreement, and a graphic approach called ‘‘mountain plot’’ was applied to help interpret the direction and magnitude of disagreements between testing procedures. Smallest detectable change and smallest real difference (SRD) were computed to determine clinically relevant improvement at group and individual levels, respectively. Concurrent validity was assessed using Performance Oriented Mobility Assessment Tool (POMA) and the Short Physical Performance Battery (SPPB). Test–retest agreement (ICC1,2) varied from 0.77 to 0.92 in ST and from 0.78 to 0.92 in DT conditions, with no apparent systematic differences between testing procedures demonstrated by the mountain plot graphs. Smallest detectable change and smallest real change were small for motor task performance and larger for cognitive errors. Significant correlations were observed for trial velocity and trial time with POMA and SPPB. The present results indicate that the NPWT testing procedure is highly reliable and reproducible.

Published

2013

48. Postural control among children with and without attention deficit hyperactivity disorder in single and dual conditions

Author

Lars I. E. Oddsson, Talia Jacobi-Polishook, Zamir Shorer, Itshak Melzer, and Boaz Becker

Subjects

Male, medicine.medical_specialty, genetic structures, Automaticity, Audiology, behavioral disciplines and activities, Postural control, Center of pressure (terrestrial locomotion), Task Performance and Analysis, medicine, Postural Balance, Attention deficit hyperactivity disorder, Humans, Force platform, Child, Balance (ability), business.industry, Cognition, medicine.disease, Attention Deficit Disorder with Hyperactivity, Case-Control Studies, Pediatrics, Perinatology and Child Health, Female, business, psychological phenomena and processes

Abstract

Given the known deficits in attention in attention deficit hyperactivity disorder (ADHD) and the evidence suggesting that postural control requires attention, this study aimed to investigate the mechanisms of postural control of children with and without ADHD in single-(ST) and dual-task (DT) conditions. Postural sway and stabilogram diffusion analysis (SDA) were performed on the Center of Pressure trajectories on 24 ADHD children and 17 age-gender- matched healthy controls. The subjects were instructed to stand as stable as possible on a force platform in two task conditions: (1) single task (ST) and (2) dual task (DT)—an auditory-memory attention-demanding cognitive task. During ST and DT conditions, the ADHD children showed signifi- cantly greater ML-sway, short- and long-term effective diffu- sion coefficients, and critical displacement of SDA compared with controls. The effects of DT were somewhat unexpected; the control group indicated a significantdecreaseinML-sway, AP-sway, sway area, and critical displacement of SDA; the ADHD group showed a significant decrease in ML-sway range and critical displacement. It is concluded that a greater sway displacement before closed-loop mechanisms is called into play in ADHD children. The DT enhanced balance con- trol by reinforcing balance automaticity and minimizing sway in both healthy and ADHD children.

Published

2011

49. Balance perturbation system to improve balance compensatory responses during walking in old persons

Author

Amir Shapiro and Itshak Melzer

Subjects

medicine.medical_specialty, Short Report, Poison control, Health Informatics, Walking, lcsh:RC321-571, Postural control, User-Computer Interface, Physical medicine and rehabilitation, Software Design, Physical Stimulation, Injury prevention, Postural Balance, medicine, Humans, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Aged, Balance (ability), Equipment Safety, Rehabilitation, Equipment Design, Practice, Psychological, Physical therapy, Balance perturbation, Accidental Falls, Psychology, Falling (sensation), Fall prevention

Abstract

Ageing commonly disrupts the balance control and compensatory postural responses that contribute to maintaining balance and preventing falls during perturbation of posture. This can lead to increased risk of falling in old adults (65 years old and over). Therefore, improving compensatory postural responses during walking is one of the goals in fall prevention programs. Training is often used to achieve this goal. Most fall prevention programs are usually directed towards improving voluntary postural control. Since compensatory postural responses triggered by a slip or a trip are not under direct volitional control these exercises are less expected to improve compensatory postural responses due to lack of training specificity. Thus, there is a need to investigate the use balance perturbations during walking to train more effectively compensatory postural reactions during walking. This paper describes the Balance Measure & Perturbation System (BaMPer System) a system that provides small, controlled and unpredictable perturbations during treadmill walking providing valuable perturbation, which allows training compensatory postural responses during walking which thus hypothesize to improve compensatory postural responses in older adults.

Published

2010

50. The effect of methylphenidate on postural stability under single and dual task conditions in children with attention deficit hyperactivity disorder - a double blind randomized control trial

Author

Itshak Melzer, Talia Jacobi-Polishook, and Zamir Shorer

Subjects

Male, medicine.medical_specialty, Placebo, behavioral disciplines and activities, law.invention, Task (project management), Physical medicine and rehabilitation, Randomized controlled trial, Double-Blind Method, law, Memory, mental disorders, medicine, Attention deficit hyperactivity disorder, Humans, Active listening, Attention, Child, Postural Balance, Balance (ability), Analysis of Variance, Methylphenidate, medicine.disease, Treatment Outcome, Neurology, Attention Deficit Disorder with Hyperactivity, Postural stability, Central Nervous System Stimulants, Female, Neurology (clinical), Psychology, human activities, psychological phenomena and processes, Music, Psychomotor Performance, Cognitive psychology, medicine.drug

Abstract

Objectives To investigate the effects of Methylphenidate (MPH) on postural stability in attention deficit hyperactivity disorder (ADHD) children in single and dual task conditions. Methods A randomized controlled double-blind study analyzing postural stability in 24 ADHD children before and after MPH vs. placebo treatments, in three task conditions: (1) Single task, standing still; (2) dual task, standing still performing a memory-attention demanding task; (3) standing still listening to music. Results MPH resulted in a significant improvement in postural stability during the dual task condition and while listening to music, with no equivalent improvement in placebo controls. Conclusions MPH improves postural stability in ADHD, especially when an additional task is performed. This is probably due to enhanced attention abilities, thus contributing to improved balance control during performance of tasks that require attention. MPH remains to be studied as a potential drug treatment to improve balance control and physical functioning in other clinical populations.

Published

2008