Cognitive predictors of skilled performance with an advanced upper limb multifunction prosthesis: a preliminary analysis

Purpose The objectives were to 1) identify major cognitive domains involved in learning to use the DEKA Arm; 2) specify cognitive domain-specific skills associated with basic versus advanced users; and 3) examine whether baseline memory and executive function predicted learning. Method Sample included 35 persons with upper limb amputation. Subjects were administered a brief neuropsychological test battery prior to start of DEKA Arm training, as well as physical performance measures at the onset of, and following training. Multiple regression models controlling for age and including neuropsychological tests were developed to predict physical performance scores. Prosthetic performance scores were divided into quartiles and independent samples t-tests compared neuropsychological test scores of advanced scorers and basic scorers. Baseline neuropsychological test scores were used to predict change in scores on physical performance measures across time. Results Cognitive domains of attention and processing speed were statistically significantly related to proficiency of DEKA Arm use and predicted level of proficiency. Conclusions Results support use of neuropsychological tests to predict learning and use of a multifunctional prosthesis. Assessment of cognitive status at the outset of training may help set expectations for the duration and outcomes of treatment.

• Implications for Rehabilitation

• Cognitive domains of attention and processing speed were significantly related to level of proficiencyof an advanced multifunctional prosthesis (the DEKA Arm) after training.

• Results provide initial support for the use of neuropsychological tests to predict advanced learningand use of a multifunctional prosthesis in upper-limb amputees.

• Results suggest that assessment of patients’ cognitive status at the outset of upper limb prosthetictraining may, in the future, help patients, their families and therapists set expectations for theduration and intensity of training and may help set reasonable proficiency goals.

     

Adaptations from the prosthetic and intact limb during standing on a sway-referenced support surface for transtibial prosthesis users

Abstract

Purpose: To investigate the bilateral postural adaptations as a result of standing on an increasingly unstable sway-referenced support surface with both the intact and prosthetic limb for transtibial prosthesis users (TPUs).

Method: TPUs (n = 14) and matched controls (n = 14) stood quietly in multiple foot placement conditions (intact foot, prosthetic foot and both feet) on a sway-referenced support surface which matched surface rotation to the movement of the centre of pressure (CoP). Force and motion data were collected and used to analyse CoP mean position, displacement integral and force components under intact and prosthetic limbs.

Results: Significant differences were found between prosthesis users and controls in CoP mean position in anteroposterior (1.5 (95% CI, 1.2–1.8) cm) and mediolateral directions (3.1 (95% CI, 0.5–5.7) cm. CoP displacement integrals were significantly different greater for prosthesis user group in the anteroposterior direction. Force components differences were found in all planes (anteroposterior: 0.6 (95% CI, 0.4–0.8 N); mediolateral: 0.1 (95% CI, 0.0–0.2 N & 0.3 (95% CI, 0.2–0.4) N, inferosuperior: 2.2 (95% CI, 1.4–3.0) N).

Conclusions: TPUs have bilateral static and dynamic postural adaptations when standing on a sway-referenced support surface that is different to controls, and between prosthetic and intact sides. Results further support evidence highlighting importance of the intact limb in maintenance of postural control in prosthesis users. Differences indicate clinical treatment should be directed towards improving outcomes on the intact side.

• Implications for rehabilitation

• Prosthesis users have bilateral adaptations when standing on a sway referenced support surface

• These adaptations are different to controls, and between prosthetic and intact sides.

• The intact limb is the major contributor to maintenance of postural control in prosthesis users.

• Clinical treatment should account for this when interventions are designed.

     

Recovery-related anxiety and disability following upper limb injury: the importance of context

Abstract

Purpose: Anxiety following traumatic upper limb injury is common and may affect rehabilitation outcomes. Most previous research has focused on psychiatric anxiety disorders among those with severe injuries. The aims of this study were to determine the prevalence of anxiety among patients with mild to moderate traumatic upper limb injuries, to investigate the correlation between anxiety and disability, and to provide preliminary validation of the Recovery-Related Anxiety Questionnaire (RRAQ). Method: Eighty-four adults with a recent traumatic upper limb injury completed the State & Trait Anxiety Inventory (STAI), the Pain Anxiety Symptoms Scale (PASS-20), the RRAQ and the shortened Disability of the Arm, Shoulder and Hand Questionnaire (QuickDASH). Prevalence rates of anxiety were calculated and linear regression analysis was used to identify predictors of QuickDASH scores. Results: All participants reported some anxiety, with higher levels of recovery-related anxiety than general anxiety. In linear regression analysis, the four types of anxiety accounted for 29% of the variability in QuickDASH scores. The RRAQ accounted for 19% of the variability in QuickDASH scores. Conclusions: Recovery-related forms of anxiety appear to be more common and more strongly associated with disability than general anxiety symptoms for patients with mild to moderate traumatic upper limb injuries.

• Implications for Rehabilitation

• Following mild to moderate traumatic upper limb injury, anxiety about the injury and recovery is common.

• Recovery-related anxiety is more strongly associated with disability than general anxiety symptoms.

• Phrasing questions about anxiety directly associated with the recovery experience may give greater insight into the anxiety patients with mild to moderate upper limb injuries are experiencing.

• This insight may help clinicians to directly address recovery-related issues, potentially decreasing disability experienced by patients.

     

Feminine identity and functional benefits are key factors in women’s decision making about upper limb prostheses: a case series

Purpose: Although the DEKA Arm promises new abilities, it is unclear if women with upper limb amputation are willing to avail themselves of this new technology. The study purpose was to understand key factors and tradeoffs that shape women’s attitudes towards the DEKA Arm.

Methods: This case series includes three women with transradial amputation. Structured surveys and semi-guided interviews were administered after completion of in-laboratory training and a home trial of the DEKA Arm. A constant comparative method with a grounded theory approach was used to generate a model describing women’s decision-making related to the DEKA Arm. Quantitative data on prosthetic satisfaction was used to triangulate findings.

Results: Factors that enhanced desirability of the DEKA Arm were improved functionality, increased abilities and the availability of someone to service the prosthesis. Factors that detracted from desirability of the device were its appearance, conspicuousness, lifestyle incompatibility, weight, need for service and difficulty of use. Each woman weighted these factors within the larger context of the capabilities of and satisfaction with her personal prostheses, her self-concept and lifestyle needs. Situational demands, particularly the desire to appear feminine and professional or need to perform certain activities, also altered the valuation of these priorities.

Conclusion: Findings strongly suggest that advanced upper limb prosthetic technologies, like the DEKA Arm, will be better accepted by women if appropriately gendered in appearance and designed with women’s priorities in mind.

• Implications for Rehabilitation

• Women should be able to derive the functional benefits of advances in upper limb technology without needing to compromise their feminine identity and lifestyle preferences.

• Advanced upper limb prosthetic technologies will be better accepted by women if they are appropriately gendered.

     

Improved design and development of a functional moulded prosthetic foot

Purpose: In the Indian scenario, the Jaipur foot is a low-cost breakthrough that enabled the disabled person to adapt to the Indian environment. The aim of this study is to modify the present foot in terms of ankle support design and method of fabrication, foot moulds profile and the inner core material in order to improve the performance and durability. Method: The optimized design of ankle support and flat foot profile moulds suitable for both left and right foot were developed through CAD/CAM and prosthetic feet were fabricated using ethylene vinyl acetate (EVA) foam as an appropriate alternative core material for microcellular rubber (MCR). The developed prosthetic feet were tested for rigidity by load-deflection analysis in universal testing machine. Result: EVA foot had shown better rigidity than conventional MCR foot, which will help in weight transfer during walking and increase the durability. The CAD modeled ankle support and single block EVA had made the manufacturing process easy and reduced the weight of foot and improved Gait to the person fitted with it due to improved flat foot profile. Conclusion: The new artificial foot had proven to be efficacious technically as well as functionally, which is clearly borne out from the extremely positive feedback given by the amputees.

• Implications of Rehabilitation

• Persons with below knee amputation are usually provided with transtibial prosthesis, which allows for easier ambulation and helps them to get back to their normal life.

• Transtibial prosthesis is an artificial limb that replaces a lower limb that is amputated below the knee.

• In our study, a new prosthetic foot with a modified ankle support and flat foot profile using better inner-core material than the conventional Jaipur foot was developed and the process was also optimized for mass production. The developed prosthetic foot can be fitted with both above and below knee exoskeleton type of prosthesis.

     

H-GRASP: the feasibility of an upper limb home exercise program monitored by phone for individuals post stroke

Purpose: To investigate the feasibility of a phone-monitored home exercise program for the upper limb following stroke. Methods: A pre-post double baseline repeated measures design was used. Participants completed an 8-week home exercise program that included behavioural strategies to promote greater use of the affected upper limb. Participants were monitored weekly by therapists over the phone. The following feasibility outcomes were collected: Process (e.g. recruitment rate); Resources (e.g. exercise adherence rate); Management (e.g. therapist monitoring) and Scientific (e.g. safety, effect sizes). Clinical outcomes included: The Chedoke Arm and Hand Inventory, Motor Activity Log, grip strength and the Canadian Occupational Performance Measure. Results: Eight individuals with stroke were recruited and six participants completed the exercise program. All but one of the six participants met the exercise target of 60?minutes/day, 6 days/week. Participants were stable across the baseline period. The following post-treatment effect sizes were observed: CAHAI (0.944, p?=?0.046); MALQ (0.789, p?=?0.03) grip strength (0.947, p?=?0.046); COPM (0.789, p?=?0.03). Improvements were maintained at three and six month follow ups. Conclusions: Community dwelling individuals with stroke may benefit from a phone-monitored upper limb home exercise program that includes behavioural strategies that promote transfer of exercise gains into daily upper limb use.

• Implications for Rehabilitation

• A repetitive, task-oriented home exercise program that utilizes telephone supervision may be an effective method for the treatment of the upper limb following stroke

• This program is best suited for individuals with mild to moderate level impairment and experience a sufficient level of challenge from the exercises

• An exercise program that includes behavioural strategies may promote transfer of exercise gains into greater use of the affected upper limb during daily activities

     

The validity of forceplate data as a measure of rapid and targeted volitional movements of the centre of mass in transtibial prosthesis users

Purpose: To validate outcome variables from the limits of stability protocol that are derived from the center of pressure with those same variables derived from the center of mass during rapid, volitional responses in transtibial prosthesis users.

Method: Prosthesis users (n?=?21) and matched controls (n?=?21) executed movements while force and motion data were collected. Correlation coefficients were used to investigate relationships between center of pressure and center of mass for: x/y coordinates positions, limits of stability outcome variables and muscular reaction times.

Results: Significant differences were seen in correlation between x/y coordinate positions toward the intact limb (mean effect size of differences: r?=?.38). Limits of stability variables were positively correlated (reaction time and maximum excursion range r_s: .585–.846; directional control and mean velocity range r_s: .307–.472). Muscular reaction times correlated weakly with those from center of pressure (mean r_s prosthesis users: .186 and controls: .101).

Conclusions: Forceplate measures are valid in describing rapid, volitional movements in unilateral transtibial prosthesis users. Limits of stability outcomes extracted from center of pressure and center of mass are highly correlated, but can be sensitive to direction. Muscular reaction time correlates very little with reaction times extracted from the other variables.

• Implications for rehabilitation

• Rehabilitation programs utilizing limits of stability are valid measures of postural control in transtibial prosthesis users.

• Clinicians interpreting the outcomes from limits of stability need to be aware of their varying validity.

• Muscular reaction times correlate weakly with other measures of reaction time, highlighting the complexity of rapidly coordinating volitional movements in prosthesis users.

     

Self-reported use of the upper limbs related to clinical tests in persons with multiple sclerosis

Abstract

Purpose: This study investigated the relationship between self-reported use of the upper limbs and clinical tests in persons with multiple sclerosis (pwMS). Methods: This cross-sectional study involved 25?pwMS with upper limb dysfunction. The Motor Activity Log (MAL) was bilaterally applied to investigate the self-reported use of both upper limbs. Clinical tests on function level were the Motricity Index (MI) and the Brunnström–Fugl–Meyer (BFM). On activity level, the Action Research Arm test (ARAt) was conducted. To identify the relationship between the self-reported use and the clinical tests, Spearman correlation coefficients were calculated. Subgroups of dominant and non-dominant arms were differentiated, and compared with the Wilcoxon Signed rank test. Results: The highest correlations were found between the MAL and function level tests: MI (r?=?0.83, p?<?0.01) and BFM (r?=?0.75, p?<?0.01). A lower correlation was found between the MAL and the ARAt (r?=?0.49, p?<?0.01). For all outcome measures, the absolute scores were higher for the dominant hand. Higher correlations were found for the non-dominant compared to the dominant hand. Conclusion: The self-reported use of the upper limbs was highly associated with measures on function level. The association with activity level was, however, less pronounced. Magnitudes of relationships were influenced by hand dominance.

• Implications for Rehabilitation

• Self-reported use of the upper limbs in persons with MS, measured by the MAL, is highly associated with muscle strength and movement control.

• The ARAt (activity level of the ICF) is less associated with self-reported use compared to outcome measures at function level.

• The ARAt seems to be less sensitive to mild arm dysfunction.

• This study indicates that it is feasible and clinically relevant to apply the MAL as a self-reported outcome measure of upper limb use in MS.

     

Validity,reliability and ease of use of the disabilities of arm,shoulder and hand questionnaire in adults following stroke

Purpose: The Disabilities of Arm, Shoulder and Hand (DASH) questionnaire is a patient reported outcome measure for evaluating upper limb function in people with musculoskeletal conditions. While the DASH has good psychometric properties when used with people with musculoskeletal conditions, it has not been tested with adults after stroke.

Methods: Data for n?=?61 adults following stroke (aged 32–93 years, 44% male) were analyzed to test validity and reliability of the DASH for use with a stroke population. Data included demographic and clinical attributes, DASH scores (baseline and four weeks later) and Patient Rated Wrist Evaluation (PRWE) measures.

Results: Internal consistency was good (Cronbach alpha 0.92, SEM 6.65). Factor analysis and Rasch modeling suggested that the questionnaire comprised three subscales: pain, impact and function. Concurrent validity between the DASH and PRWE (Spearman’s Rho r_s?=_?0.41) was moderate. The scale was perceived by clinicians to be useful, quick and simple to administer. The DASH had low four-week test-retest reliability (ICC 0.56 [95% Cl 0.05–0.79]).

Conclusions: The DASH is considered to have acceptable validity when used with adults following stroke. Test–retest reliability was low but further research is needed to establish whether this is a result of condition-related change or the stability of the measure.

• Implications for Rehabilitation

• The DASH questionnaire examines upper limb function in task performance and appears to be a useful tool, which is simple to administer in the clinical setting with adults following stroke.

• Upper limb function post stroke can be meaningfully assessed using the DASH as it has good internal consistency and moderate concurrent validity.

• Rasch analysis and factor analysis suggests that the tool appears to consist of three subscales: pain, impact and function. The total score of the DASH may be less meaningful than the totals of these subscales.

• The test–retest reliability of the DASH requires further research; over a four-week period DASH stability was poor in a group of people with moderate to severe upper limb impairment.

     

3D-printed upper limb prostheses: a review

Goal: This paper aims to provide an overview with quantitative information of existing 3D-printed upper limb prostheses. We will identify the benefits and drawbacks of 3D-printed devices to enable improvement of current devices based on the demands of prostheses users.

Methods: A review was performed using Scopus, Web of Science and websites related to 3D-printing. Quantitative information on the mechanical and kinematic specifications and 3D-printing technology used was extracted from the papers and websites.

Results: The overview (58 devices) provides the general specifications, the mechanical and kinematic specifications of the devices and information regarding the 3D-printing technology used for hands. The overview shows prostheses for all different upper limb amputation levels with different types of control and a maximum material cost of $500.

Conclusion: A large range of various prostheses have been 3D-printed, of which the majority are used by children. Evidence with respect to the user acceptance, functionality and durability of the 3D-printed hands is lacking. Contrary to what is often claimed, 3D-printing is not necessarily cheap, e.g., injection moulding can be cheaper. Conversely, 3D-printing provides a promising possibility for individualization, e.g., personalized socket, colour, shape and size, without the need for adjusting the production machine.

• Implications for rehabilitation

• Upper limb deficiency is a condition in which a part of the upper limb is missing as a result of a congenital limb deficiency of as a result of an amputation.

• A prosthetic hand can restore some of the functions of a missing limb and help the user in performing activities of daily living.

• Using 3D-printing technology is one of the solutions to manufacture hand prostheses.

• This overview provides information about the general, mechanical and kinematic specifications of all the devices and it provides the information about the 3D-printing technology used to print the hands.

     

Epidemiological study of failures of the Jaipur Foot

Abstract

Objective: The purpose of this study was to examine effects of usage and demographics on damage to the Jaipur Foot prosthesis as well as the epidemiology and etiology of amputations performed at Santokba Durlabjhi Memorial Hospital (SDMH) in Jaipur, India.

Design: Total time spent standing, total time spent wearing and total distance walked were compared against severity and location of damage to the prosthesis. Time between initial fitting and follow-up visit for damaged prosthetic was also considered in this analysis. A novel damage severity scale based on prosthesis functionality is presented along with a damage location legend.

Results: Patients from 10 different states and two territories throughout India were included in the study. No main effects were found to be statistically significant in predicting severity or location of damage. Only the interaction between a patient’s total time spent standing and their total time spent wearing the prosthesis as well as the interaction between a patient’s total time spent standing and total distance walked was significant in predicting location of damage to the Jaipur Foot (p?=?.0327, p?=?.0278, respectively).

Conclusions: The lack of significant usage factor effect on damage severity or location could support previous findings that lack standardization in materials and manufacturing processes, which is the major drawback of the Jaipur Foot.

• Implications for Rehabilitation

• The Jaipur Foot is a safe, reliable and stable product as no abrupt breakage or sudden falls causing injury to the patient were noted. Hence, it is a safe rehabilitation device for lost limbs.

• The population can squat and sit cross-legged while wearing the prosthetic foot and it does not affect damage severity or location of damage, allowing for these activities to be performed while rehabilitating.

• The manufacturing of the foot needs to be standardized to improve life of foot.

• Total time spent standing, total time spent wearing and total distance walked were not predictive of severity or location of damage to the prosthesis, hence providing patient guidelines for activity during rehabilitation.

     

The applicability of four clinical methods to evaluate arm and hand function in all stages of spinal muscular atrophy type II

Abstract

Aim: To evaluate the ability of four clinical methods to reflect arm and hand function at impairment and activity level and to determine their ability to discriminate among SMA II patients of all ages and in all stages of the disease. Methods: Fifty-two patients with SMA II (age range: 8–73 years) were assessed by means of the Egen Klassifikation 2 (EK2 scale), the Motor Function Measure Scale (MFM D3), the Manual Muscle Test (MMT) and Hand-Held Dynamometry (HHD) in full fist grip and lateral pinch grip. Patients were classified into six levels of upper limb function by means of the Brooke Upper Limb Scale, and the four methods’ ability to differentiate among patients within these levels was calculated. Modified versions of the EK2 scale (EK Upper Limb) and the MFM D3 (MFM D3 Upper Limb) were assessed in the same manner. Results: The patients’ physical abilities were best described by the MMT and EK2 while the “EK Upper Limb”, MFM D3 and MMT were best at discriminating among patients across the range of upper limb function. Quantitative muscle tests as measured by Citec? HHD were less applicable to weak patients; full fist grip could discriminate among patients at Brooke levels 3–5, and lateral pinch grip among the strongest patients. Conclusion: At the impairment level, MMT is the superior measure of muscle function in very weak patients in whom HHD cannot reflect capacity. At the activity level, the EK 2 represents daily activities whereas the MFM D3 measures motor functions. In differentiating among SMA II patients of all ages and in all stages of the disease, the ability of abbreviated versions of scales targeting upper limb function is superior to unabridged versions of these scales.

• Implications for Rehabilitation

• Evaluation of upper limb function in spinal muscular atrophy II

• Even very weak patients with SMA II have some residual upper limb function that is measurable if the right method is chosen.

• The Manual muscle test is applicable to all patients with SMA II and is useful to determine possible interventions – such as methods to drive a wheelchair or operate a computer.

• Abbreviated versions of the EK2 scale and the MFM are useful as methods to evaluate subtle changes in upper limb function resulting from disease progression or interventions.

     

The influence of lower-limb prostheses technology on Paracanoeing time-trial performance

Within the Paracanoeing discipline, it is important to ensure that appropriate control is achieved by a paddler with a disability. However, this Paralympic Games discipline has seen very little attention to date. The aims of this study were to understand the kinematic impact to a paracanoeist when not utilizing the use of a prosthetic lower-limb. A kayaker with a uni-lateral transfemoral amputation completed several 200?m maximal efforts both with and without their prosthesis. When the prosthetic limb was removed, there were significant differences found in stroke rate, stroke speed, stroke length and overall power output. Sagittal and frontal video analysis demonstrated the residual limb movements when paddling and indicated where support would be required to improve the kayak’s control. It is recommended that those with lower-limb absence wishing to paddle a kayak competitively utilize the use of a prostheses designed for the kayaking environment that supports the residual limb at both the upper and inner thigh and the distal end.

• Implications for rehabilitation

• This paper is the first study to investigate both biomechanical and assistive technology-related issues in the new Paralympic Games sport of Paracanoeing.

• For participants possessing lower-limb absence, a prosthetic limb that is designed specifically for the kayaking environment is recommended when Paracanoeing to maximize efficient propulsion.

• Use of an ergometer and multiple 2D cameras provides practitioners the ability to optimize both the comfort and fit of a prosthetic limb.

• Use of an ergometer and multiple 2D cameras provides both athletes and practitioners the ability to optimize the points of human contact within a kayak to ensure comfort and control.

     

A cross-sectional observational study comparing foot and ankle characteristics in people with stroke and healthy controls

Purpose: The purpose of this study was to explore and compare foot and ankle characteristics in people with stroke and healthy controls; and between stroke fallers and non-fallers.

Methods: Participants were recruited from community groups and completed standardized tests assessing sensation, foot posture, foot function, ankle dorsiflexion and first metatarsal phalangeal joint range of motion (1st MPJ ROM), hallux valgus presence and severity.

Results: Twenty-three stroke participants (mean age 75.09?±?7.57 years; 12 fallers) and 16 controls (mean age 73.44?±?8.35 years) took part. Within the stroke group, reduced 1st MPJ sensation (p?=?0.016) and 1st MPJ ROM (p?=?0.025) were observed in the affected foot in comparison to the non-affected foot; no other differences were apparent. Pooled data (for both feet) was used to explore between stroke/control (n?=?78 feet) and stroke faller/non-faller (n?=?46 feet) group differences. In comparison to the control group, stroke participants exhibited reduced sensation of the 1st MPJ (p?=?0.020), higher Foot Posture Index scores (indicating greater foot pronation, p?=?0.008) and reduced foot function (p?=?0.003). Stroke fallers exhibited significantly greater foot pronation in comparison to non-fallers (p?=?0.027).

Conclusions: Results indicated differences in foot and ankle characteristics post stroke in comparison to healthy controls. These changes may negatively impact functional ability and the ability to preserve balance. Further research is warranted to explore the influence of foot problems on balance ability and falls in people with stroke.

• Implications for Rehabilitation

• Foot problems are common post stroke.

• As foot problems have been linked to increased fall risk among the general population we recommend that it would be beneficial to include foot and ankle assessments or a referral to a podiatrist for people with stroke who report foot problems.

• Further research is needed to explore if we can improve functional performance post stroke and reduce fall risk if treatment or prevention of foot problems can be included in stroke rehabilitation.

     

Explicit motor sequence learning with the paretic arm after stroke

Purpose: Motor sequence learning is important for stroke recovery, but experimental tasks require dexterous movements, which are impossible for people with upper limb impairment. This makes it difficult to draw conclusions about the impact of stroke on learning motor sequences. We aimed to test a paradigm requiring gross arm movements to determine whether stroke survivors with upper limb impairment were capable of learning a movement sequence as effectively as age-matched controls.

Materials and methods: In this case-control study, 12 stroke survivors (10–138 months post-stroke, mean age 64 years) attempted the task once using their affected arm. Ten healthy controls (mean 66 years) used their non-dominant arm. A sequence of 10 movements was repeated 25 times. The variables were: time from target illumination until the cursor left the central square (onset time; OT), accuracy (path length), and movement speed.

Results: OT reduced with training (p?p?>?0.1). We quantified learning as the OT difference between the end of training and a random sequence; this was smaller for stroke survivors than controls (p?=?0.015).

Conclusions: Stroke survivors can learn a movement sequence with their paretic arm, but demonstrate impairments in sequence specific learning.

• Implications for Rehabilitation

• Motor sequence learning is important for recovery of movement after stroke.

• Stroke survivors were found to be capable of learning a movement sequence with their paretic arm, supporting the concept of repetitive task training for recovery of movement.

• Stroke survivors showed impaired sequence specific learning in comparison with age-matched controls, indicating that they may need more repetitions of a sequence in order to re-learn movements.

• Further research is required into the effect of lesion location, time since stroke, hand dominance and gender on learning of motor sequences after stroke.

     

Upper limb and eye movement coordination during reaching tasks in people with stroke

Purpose: To enhance understanding of the relationship between upper limb and eye movements during reaching tasks in people with stroke.

Methods: Eye movements were recorded from 10 control participants and 8 chronic stroke participants during a visual orienting task (Experiment 1) and a series of reaching tasks (Experiment 2). Stroke participants completed the reaching tasks using (i) their less impaired upper limb, (ii) their more impaired upper limb without support, and (iii) their more impaired upper limb, with support (SaeboMAS gravitational support and/or electrical stimulation). Participants were tested individually and completed both experiments in the same session.

Results: Oculomotor control and the coordination between the upper limb and the oculomotor system were found to be intact in stroke participants when no limb movements were required, or when the less impaired upper limb was used. However, when the more impaired upper limb was used, success and accuracy in reaching decreased and patterns of eye movements changed, with an observed increase in eye movements to the limb itself. With upper limb support, patterns of hand-eye coordination were found to more closely resemble those of the control group.

Conclusion: Deficits in upper limb motor systems result in changes in patterns of eye movement behavior during reaching tasks. These changes in eye movement behavior can be modulated by providing upper limb support.

• Implications for Rehabilitation

• Deficits in upper limb motor systems can result in changes in patterns of eye movement behavior during reaching tasks.

• Upper limb support can reduce deficits in hand-eye coordination.

• Stroke rehabilitation outcomes should consider motor and oculomotor performance.