A new neurocognitive interpretation of shoulder position sense during reaching: unexpected competence in the measurement of extracorporeal space

Background.The position sense of the shoulder joint is important during reaching. Objective. To examine the existence of additional competence of the shoulder with regard to the ability to measure extracorporeal space, through a novel approach, using the shoulder proprioceptive rehabilitation tool (SPRT), during reaching. Design. Observational case-control study. Methods. We examined 50 subjects: 25 healthy and 25 with impingement syndrome with a mean age [years] of 64.52 +/− 6.98 and 68.36 +/− 6.54, respectively. Two parameters were evaluated using the SPRT: the integration of visual information and the proprioceptive afferents of the shoulder (Test 1) and the discriminative proprioceptive capacity of the shoulder, with the subject blindfolded (Test 2). These tasks assessed the spatial error (in centimeters) by the shoulder joint in reaching movements on the sagittal plane. Results. The shoulder had proprioceptive features that allowed it to memorize a reaching position and reproduce it (error of 1.22 cm to 1.55 cm in healthy subjects). This ability was lower in the impingement group, with a statistically significant difference compared to the healthy group ( < 0.05 by Mann–Whitney test). Conclusions. The shoulder has specific expertise in the measurement of the extracorporeal space during reaching movements that gradually decreases in impingement syndrome

Tactile-STAR: A Novel Tactile STimulator And Recorder System for Evaluating and Improving Tactile Perception

Many neurological diseases impair the motor and somatosensory systems. While several different technologies are used in clinical practice to assess and improve motor functions, somatosensation is evaluated subjectively with qualitative clinical scales. Treatment of somatosensory deficits has received limited attention. To bridge the gap between the assessment and training of motor vs. somatosensory abilities, we designed, developed, and tested a novel, low-cost, two-component (bimanual) mechatronic system targeting tactile somatosensation: the Tactile-STAR—a tactile stimulator and recorder. The stimulator is an actuated pantograph structure driven by two servomotors, with an end-effector covered by a rubber material that can apply two different types of skin stimulation: brush and stretch. The stimulator has a modular design, and can be used to test the tactile perception in different parts of the body such as the hand, arm, leg, big toe, etc. The recorder is a passive pantograph that can measure hand motion using two potentiometers. The recorder can serve multiple purposes: participants can move its handle to match the direction and amplitude of the tactile stimulator, or they can use it as a master manipulator to control the tactile stimulator as a slave. Our ultimate goal is to assess and affect tactile acuity and somatosensory deficits. To demonstrate the feasibility of our novel system, we tested the Tactile-STAR with 16 healthy individuals and with three stroke survivors using the skin-brush stimulation. We verified that the system enables the mapping of tactile perception on the hand in both populations. We also tested the extent to which 30 min of training in healthy individuals led to an improvement of tactile perception. The results provide a first demonstration of the ability of this new system to characterize tactile perception in healthy individuals, as well as a quantification of the magnitude and pattern of tactile impairment in a small cohort of stroke survivors. The finding that short-term training with Tactile-STARcan improve the acuity of tactile perception in healthy individuals suggests that Tactile-STAR may have utility as a therapeutic intervention for somatosensory deficits

Wearable Haptic Devices for Gait Re-education by Rhythmic Haptic Cueing

This research explores the development and evaluation of wearable haptic devices for gait sensing and rhythmic haptic cueing in the context of gait re-education for people with neurological and neurodegenerative conditions. Many people with long-term neurological and neurodegenerative conditions such as Stroke, Brain Injury, Multiple Sclerosis or Parkinson’s disease suffer from impaired walking gait pattern. Gait improvement can lead to better fluidity in walking, improved health outcomes, greater independence, and enhanced quality of life. Existing lab-based studies with wearable devices have shown that rhythmic haptic cueing can cause immediate improvements to gait features such as temporal symmetry, stride length, and walking speed. However, current wearable systems are unsuitable for self-managed use for in-the-wild applications with people having such conditions. This work aims to investigate the research question of how wearable haptic devices can help in long-term gait re-education using rhythmic haptic cueing. A longitudinal pilot study has been conducted with a brain trauma survivor, providing rhythmic haptic cueing using a wearable haptic device as a therapeutic intervention for a two-week period. Preliminary results comparing pre and post-intervention gait measurements have shown improvements in walking speed, temporal asymmetry, and stride length. The pilot study has raised an array of issues that require further study. This work aims to develop and evaluate prototype systems through an iterative design process to make possible the self-managed use of such devices in-the-wild. These systems will directly provide therapeutic intervention for gait re-education, offer enhanced information for therapists, remotely monitor dosage adherence and inform treatment and prognoses over the long-term. This research will evaluate the use of technology from the perspective of multiple stakeholders, including clinicians, carers and patients. This work has the potential to impact clinical practice nationwide and worldwide in neuro-physiotherapy

evaluation of upper limb sense of position in healthy individuals and patients after stroke

The aims of this study were to develop and evaluate reliability of a quantitative assessment tool for upper limb sense of position on the horizontal plane. We evaluated 15 healthy individuals (controls) and 9 stroke patients. A robotic device passively moved one arm of the blindfolded participant who had to actively move his/her opposite hand to the mirror location in the workspace. Upper-limb's position was evaluated by a digital camera. The position of the passive hand was compared with the active hand's 'mirror' position. Performance metrics were then computed to measure the mean absolute errors, error variability, spatial contraction/expansion, and systematic shifts. No significant differences were observed between dominant and non-dominant active arms of controls. All performance parameters of the post-stroke group differed significantly from those of controls. This tool can provide a quantitative measure of upper limb sense of position, therefore allowing detection of changes due to rehabilitation

Perception of Lower Extremity Loads in Stroke Survivors

Objective: This study aimed to improve our understanding of static and dynamic lower extremity sensory perception and the impact of sensory impairments on the control of walking in stroke survivors. Methods: Using a custom, real-time unloading system, we tested load perception at heel strike, mid stance and push off in 10 stroke survivors and compared their performance to 10 age-matched and 5 young adult control subjects. Dynamic load perception was based on a judgment of which leg was bearing more load, which was altered on a step by step basis. We also examined lower extremity static load perception, coordination, proprioception, balance, and gait symmetry. Results: The stroke survivors performed significantly worse than the control subjects in dynamic load perception, coordination, proprioception, balance and gait symmetry. Gait symmetry correlated with static and dynamic load perception measures but not with age, proprioception, coordination, and balance. Conclusions: Sensory deficits related to load detection in the impaired limb could result in an increased uncertainty of limb load and a gait strategy in which stroke survivors minimize loading of the impaired limb. Significance: This new method of measuring lower extremity dynamic load perception provides a framework for understanding gait-related sensory impairments in stroke survivors

The effectiveness of an upper extremity neuromuscular training program on the shoulder function of military members with a rotator cuff tendinopathy : a pilot randomized controlled trial

INTRODUCTION: La tendinopathie de la coiffe des rotateurs (TCR) entraine au quotidien des douleurs et faiblesses musculaires et une diminution du contrôle moteur à l'épaule. OBJECTIFS: Les objectifs de cette étude étaient i) d'effectuer une revue de littérature pour identifier les méthodes de quantification de la proprioception de l'épaule utilisées en laboratoire et en clinique et d’en présenter les qualités métrologiques, ii) d'évaluer l'efficacité d’un programme d’entrainement neuro-musculaire en comparant son efficacité à réduire la douleur à l’épaule et en améliorer la fonction à celle obtenue par des soins usuels de physiothérapie. MÉTHODES: i) Une revue de 5 bases de données a été conduite d’octobre 2015 à juillet 2016 pour documenter les propriétés métrologiques de protocoles d’évaluation de la proprioception à l'épaule. Les études incluses ont été évaluées à l'aide de l’outil de contrôle QualSyst et de l'échelle COSMIN à 4 points. ii) Trente-trois soldats en service actif au sein des Forces armées canadiennes ont été assignés au hasard à 1) programme standardisé supervisé d’entrainement neuromusculaire et contrôle moteur (Exp) ou à 2) soins usuels de physiothérapie (Ctl). Les variables principales étaient les symptômes, la capacité fonctionnelle et les limitations physiques évalués avec le questionnaire Disabilities of the Arm, Shoulder and Hand (DASH) et la variable secondaire était l'indice Western Ontario Rotator Cuff (WORC). Toutes les variables ont été mesurées au départ (T0) et à 6 (T6) et 12 (T12) semaines après l'intervention. La comparaison des effets des interventions a été évaluée à l'aide d’une analyse per protocole (APP), analyse intention-traitement (AIT) et avec une analyse de variance à mesures répétées à 2 voies. RÉSULTATS: i) Vingt et une études (n = 407 participants, 553 épaules) ont été retenues. Les études analysées confirment d'excellents scores méthodologiques avec l’outil QualSyst (88,1 ± 9,9%) et de bons scores avec le COSMIN pour la fidélité (71,1%) et un score de qualité modérée à faible (50%) pour la validité de critère. Les coefficients de corrélation intraclasse (CCI) pondérés pour la fidélité intraévaluateur étaient les plus élevés pour le sens du positionnement articulaire passif et la kinesthésie soit 0,92 ± 0,07 (n = 214) et 0,92 ± 0,04 (n = 74), respectivement. Le mouvement et l'outil les plus fidèles sont la rotation interne à 90 ° d'abduction (CCI = 0,88 ± 0,01 (n = 53)) et le dynamomètre (CCI = 0,92 ± 0,88 (n = 225)). Aucune étude n’a rapporté d’indices de sensibilité au changement. ii) Aucune interaction significative (p ≥ 0,101) de groupe × temps (p ≥ 0,101) n'a été démontrée. Par contre, nous avons observé un effet de temps significatif (p <0,001) pour le questionnaire DASH et l'indice WORC. CONCLUSION: Ces données préliminaires suggèrent que les deux approches proposées conduisent à des améliorations comparables. L'utilisation d'une intervention de groupe axée sur l'exercice a le potentiel d'être aussi efficace qu'une approche un à un plus exigeante en terme de temps de traitement. Ces résultats permettront de fournir aux cliniciens des lignes directrices pour la mesure de la proprioception à l'épaule et l’utilisation d’une approche novatrice de traitement en groupe pour la TCR. Mots clés : Épaule, tendinopathie, contrôle moteur, proprioception, programme d'exercices, soins en physiothérapieINTRODUCTION: The shoulder is the most mobile joint of the body which means that it heavily relies of an important level of neuromuscular control at all times. A rotator cuff (RC) complex provides stability to the shoulder and often times falls victim to injury, which can produce functional limitations during activities of daily living and work tasks. Individuals affected by an RC tendinopathy often have neuromuscular and proprioceptive deficits. OBJECTIVES: The objectives of this study are to (i) conduct a systematic review to identify methods of quantifying shoulder proprioception in a laboratory and clinical setting and to present the associated psychometric properties. (ii) To evaluate the effectiveness of a novel neuromuscular training program for the upper extremities versus one-on-one physiotherapy care (manual therapy, range of motion exercises, strengthening) for the reduction of shoulder pain and improvement in function with soldiers affected by an RC tendinopathy. METHODS: (i) A review of five databases was conducted from conception to July 2016 to identify studies that reported at least one psychometric property of a shoulder proprioception protocol. The included studies were evaluated using the QualSyst checklist and the 4-point COSMIN scale. (ii) Thirty-three military personnel with the Canadian Armed Forces were randomly assigned to one of the following interventions: 1) Upper Extremity Neuromuscular Training Program; (2) usual physiotherapy care. The main outcomes included symptoms and functional capacity assessed using the Disability of the Arm, Shoulder, and Hand (DASH) questionnaire. A secondary outcome included the Western Ontario Rotator Cuff (WORC) Index. Outcome measures were evaluated at baseline (T0) and 6 (T6) and 12 (T12) weeks post-intervention. The effects of the interventions were evaluated using repeated 2-way variance measures (ANOVAs) for a per-protocol analysis and intention-to-treat. RESULTS: i) Twenty-one studies were included, resulting in 407 participants and 553 evaluated shoulders (n). The weighed intraclass correlation coefficients (ICC) for intra-rater reliability were highest for passive joint position sense and kinesthesia, ICC = 0.92 ± 0.07 (n = 214) and ICC = 0.92 ± 0.04 (n = 74), respectively. The most reliable direction of movement and equipment used were internal rotation at 90° abduction, ICC = 0.88 ± 0.01 (n = 53), and the dynamometer, ICC = 0.92 ± 0.88 (N = 225). ii) No significant group (p ≥ 0.1) or group × time interactions (p ≥ 0.1) were found; though a statistically significant time effect (p < 0.001) was established for the DASH questionnaire and WORC Index. Our preliminary data suggests a marginally better improvement with the control group with all outcomes over 12 weeks. CONCLUSION: The evaluation of shoulder proprioception is most reliable when using a passive protocol with an isokinetic dynamometer for internal rotation at 90° shoulder abduction. The preliminary results of our pilot RCT suggest that both groups statistically improved with a time effect, but that the usual care group further demonstrated clinically significant gains. The results of this study will provide clinicians with potential guidelines for measuring shoulder proprioception in a clinical setting, as well as an innovative approach to group therapy that is potentially less costly and equally as effective as conventional one-on-one physiotherapy. Key words (4-6) : Shoulder, tendinopathy, motor control, proprioception, exercise program, physiotherapy car

Assessing plantar sensation in the foot using the FOot Roughness Discrimination Test (FoRDT™): a reliability and validity study in stroke

BACKGROUND: The foot sole represents a sensory dynamometric map and is essential for balance and gait control. Sensory impairments are common, yet often difficult to quantify in neurological conditions, particularly stroke. A functionally oriented and quantifiable assessment, the Foot Roughness Discrimination Test (FoRDT™), was developed to address these shortcomings. OBJECTIVE: To evaluate inter- and intra-rater reliability, convergent and discriminant validity of the Foot Roughness Discrimination Test (FoRDT™). DESIGN: Test-retest design. SETTING: Hospital Outpatient. PARTICIPANTS: Thirty-two people with stroke (mean age 70) at least 3 months after stroke, and 32 healthy, age-matched controls (mean age 70). MAIN OUTCOME MEASURES: Roughness discrimination thresholds were quantified utilising acrylic foot plates, laser-cut to produce graded spatial gratings. Stroke participants were tested on three occasions, and by two different raters. Inter- and intra-rater reliability and agreement were evaluated with Intraclass Correlation Coefficients and Bland-Altman plots. Convergent validity was evaluated through Spearman rank correlation coefficients (rho) between the FoRDT™ and the Erasmus modified Nottingham Sensory Assessment (EmNSA). RESULTS: Intra- and inter rater reliability and agreement were excellent (ICC =.86 (95% CI .72-.92) and .90 (95% CI .76 -.96)). Discriminant validity was demonstrated through significant differences in FoRDT™ between stroke and control participants (p.05). CONCLUSIONS: This simple and functionally oriented test of plantar sensation is reliable, valid and clinically feasible for use in an ambulatory, chronic stroke and elderly population. It offers clinicians and researchers a sensitive and robust sensory measure and may further support the evaluation of rehabilitation targeting foot sensation. This article is protected by copyright. All rights reserved

Important Parameters for Hand Function Assessment of Stroke Patients

Clinical scales such as Fugl-Meyer Assessment and Motor Assessment Scale are widely used to evaluate stroke patient's motor performance. However, the scoring systems of these assessments provide only rough estimation, making it difficult to objectively quantify impairment and disability or even rehabilitation progress throughout their rehabilitation period. In contrast, robot-based assessments are objective, repeatable, and could potentially reduce the assessment time. However, robot-based assessment scales are not as well established as conventional assessment scale and the correlation to conventional assessment scale is unclear. This paper discusses the important parameters in order to assess the hand function of stroke patients. This knowledge will provide a contribution to the development of a new robot-based assessment device effectively by including the important parameters in the device. The important parameters were included in development of iRest and yielded promising results that illustrate the potential of the important parameters in assessing the hand function of stroke patients