Direction-specific Disruption of Paretic Arm Movement in Post-stroke Patients (original) (raw)
Related papers
Journal of Neurophysiology, 2019
Posture and movement planning, preparation, and execution of a goal-directed reaching movement are impaired in individuals with stroke. No studies have shown whether the deficits are generally impaired or are specific to the lesioned hemisphere/paretic arm. This study utilized StartReact (SR) responses elicited by loud acoustic stimuli (LAS) to investigate the preparation and execution of anticipatory postural adjustments (APAs) and reach movement response during both paretic and nonparetic arm reaching in individuals with stroke and in age-matched healthy controls. Subjects were asked to get ready after receiving a warning cue and to reach at a “go” cue. An LAS was delivered at –500, –200, and 0 ms relative to the go cue. Kinetic, kinematic, and electromyographic data were recorded to characterize APA-reach movement responses. Individuals with stroke demonstrated systemwide deficits in posture and in movement planning, preparation, and execution of APA-reach sequence as shown by si...
American journal of physical medicine & rehabilitation, 2017
The aim of this study was to examine the effect of target distance (within vs. beyond arm's length) on arm and trunk movements during symmetric bilateral reaching in patients with stroke. Eighteen stroke patients and 18 age-matched control participants reached bilaterally to press desk bells placed at 90% and 125% of arm's length. The kinematics of paretic arm and trunk movements and trunk contribution slopes were measured in the start, mid, and end phases of reaching. Target distance significantly affected arm (shoulder flexion and abduction, elbow extension) and trunk (flexion, rotation, and lateral shift) movements in patients with stroke. Significant group differences were also found in trunk contribution slopes in the start and mid phases of reaching to targets beyond arm's length. Bilateral reaching for targets beyond arm's length may increase shoulder flexion, shoulder abduction, elbow extension, and trunk flexion, but it may also induce unsymmetric trunk rota...
Ipsilesional Arm Aiming Movements After Stroke: Influence of the Degree of Contralesional Impairment
Journal of Motor Behavior, 2017
The authors examined the effects of the degree of impairment of the contralesional upper limb and the side of the hemispheric damage on ipsilesional upper limb performance in chronic stroke individuals. Right-and left-side stroke resulting in mild-to-severe impairment and healthy participants took part in simple and choice reaction time tasks involving aiming movements. The stroke individuals performed the aiming movements with the ipsilesional upper limb using a digitizing tablet to ipsi-or contralateral targets presented in a monitor. The global performance of the group with severe right hemispheric damage was worse than that of the other groups, indicating that the side of hemispheric damage and degree of motor impairment can adversely affect aiming movement performance.
Kinematic Manifestation of Arm-Trunk Performance during Symmetric Bilateral Reaching After Stroke
Am J Phys Med Rehabil, 2017
The aim of this study was to examine the effect of target distance (within vs. beyond arm's length) on arm and trunk movements during symmetric bilateral reaching in patients with stroke. Design: Eighteen stroke patients and 18 age-matched control participants reached bilaterally to press desk bells placed at 90% and 125% of arm's length. The kinematics of paretic arm and trunk movements and trunk contribution slopes were measured in the start, mid, and end phases of reaching. Results: Target distance significantly affected arm (shoulder flexion and abduction, elbow extension) and trunk (flexion, rotation, and lateral shift) movements in patients with stroke. Significant group differences were also found in trunk contribution slopes in the start and mid phases of reaching to targets beyond arm's length. Conclusions: Bilateral reaching for targets beyond arm's length may increase shoulder flexion, shoulder abduction, elbow extension, and trunk flexion, but it may also induce unsymmetric trunk rotation and lateral shift to the paretic side, as well as early and excessive trunk contributions in patients with stroke. The findings suggest that for beyond-arm-length reaching, therapists may restrain the trunk until the end phase of reaching and prevent trunk rotation and lateral shift to the paretic side.
Targeted Aiming Movements Are Compromised in Nonaffected Limb of Persons With Stroke
Neurorehabilitation and Neural Repair, 2007
Background. Research has shown that movement impairments following stroke are typically associated with the limb contralateral to the side of the stroke. Prior studies identified ipsilateral motor declines across a variety of tasks. Objective. Two experiments were conducted to better understand the ipsilateral contributions to organization and execution of proximal upper extremity multisegment aiming movements in persons with right-hemispheric stroke. Methods. Participants performed reciprocal aiming (Experiment 1) and 2-segment aiming movements (Experiment 2) on a digitizing tablet. In both experiments, target size and/or target orientation were manipulated to examine the influence of accuracy constraints on the planning and organization of movements. Results. Kinematic measures, submovement analysis, and harmonicity measures were included in this study. Declines in organization and execution of multisegment movements were found to contribute to performance decrements and slowing in stroke patients. Furthermore, stroke patients were unable to efficiently plan multisegment movements as one functional unit, resulting in discrete movements. Conclusions. Results suggest the importance of considering ipsilateral contributions to the control and organization of targeted aiming movements as well as implications for rehabilitation and recovery.
Life
This study investigated how stroke’s hemispheric localization affects motor performance, spinal maps and muscle synergies while performing planar reaching with and without assistive or resistive forces. A lesion of the right hemisphere affected performance, reducing average speed and smoothness and augmenting lateral deviation in both arms. Instead, a lesion of the left hemisphere affected the aiming error, impairing the feedforward control of the ipsilesional arm. The structure of the muscle synergies had alterations dependent on the lesion side in both arms. The applied force fields reduced the differences in performance and in muscle activations between arms and among populations. These results support the hypotheses of hemispheric specialization in movement control and identify potential significant biomarkers for the design of more effective and personalized rehabilitation protocols.
An inability to perform tasks involving reaching is a common problem for stroke patients. This paper provides an insight into mechanisms associated with recovery of upper limb function by examining how stroke participants’ upper limb muscle activation patterns differ from those of neurologically intact participants, and how they change in response to an intervention. In this study, five chronic stroke participants undertook nine tracking tasks in which trajectory (orientation and length), speed and resistance to movement were varied. During these tasks, EMG signals were recorded from triceps, biceps, anterior deltoid, upper, middle and lower trapezius and pectoralis major. Data collection was performed in sessions both before, and after, an intervention in which participants performed a similar range of tracking tasks with the addition of responsive electrical stimulation applied to their triceps muscle. The intervention consisted of eighteen one hour treatment sessions, with two participants attending an additional seven sessions. During all sessions, each participant’s arm was supported by a hinged arm-holder which constrained their hand to move in a two dimensional plane. Analysis of the pre intervention EMG data showed that timing and amplitude of peak EMG activity for all stroke participants differed from neurologically intact participants. Analysis of post intervention EMG data revealed that statistically significant changes in these quantities had occurred towards those of neurologically intact participants.
Submovements during reaching movements after stroke
Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual Conference, 2014
Neurological deficits after cerebrovascular accidents very frequently disrupt the kinematics of voluntary movements with the consequent impact in daily life activities. Robotic methodologies enable the quantitative characterization of specific control deficits needed to understand the basis of functional impairments and to design effective rehabilitation therapies. In a group of right handed chronic stroke survivors (SS) with right side hemiparesis, intact proprioception, and differing levels of motor impairment, we used a robotic manipulandum to study right arm function during discrete point-to-point reaching movements and reciprocal out-and-back movements to visual targets. We compared these movements with those of neurologically intact individuals (NI). We analyzed the presence of secondary submovements in the initial (i.e. outward) trajectory portion of the two tasks and found that the SS with severe impairment (FM < 30) presented arm submovements that differed notably not on...