The independence of deficits in position sense and visually guided reaching following stroke

Dukelow, Sean P.; Herter, Troy M.; Bagg, Stephen; Scott, Stephen H.

doi:10.1186/1743-0003-9-72

Cited by 132 publications

(196 citation statements)

References 63 publications

(62 reference statements)

Supporting

Mentioning

189

Contrasting

Unclassified

Order By: Relevance

“…1 Proprioceptive deficits affect more than half of stroke survivors [2][3][4] and can lead to significant problems with balance, 5 coordination, 6 and performance of activities of daily living. 4,7 Unfortunately, clinicians are faced with significant challenges to measure proprioception accurately, because clinical assessments of proprioception have been identified as insensitive, unreliable, and subjective. 8 We commonly see patients after stroke who are unable to perform activities of daily living, such as brushing their hair, or reaching for a cup; yet current clinical assessments make it difficult to discern whether the underlying problem is a result of damage to the motor system, sensory system, or both.…”

mentioning

confidence: 99%

Robotic Identification of Kinesthetic Deficits After Stroke

Semrau

Herter

Scott

et al. 2013

Stroke

123

177

View full text Add to dashboard Cite

Background and Purpose-Kinesthesia, the sense of body motion, is essential to proper control and execution of movement.Despite its importance for activities of daily living, no current clinical measures can objectively measure kinesthetic deficits. The goal of this study was to use robotic technology to quantify prevalence and severity of kinesthetic deficits of the upper limb poststroke. Methods-Seventy-four neurologically intact subjects and 113 subjects with stroke (62 left-affected, 51 right-affected) performed a robot-based kinesthetic matching task with vision occluded. The robot moved the most affected arm at a preset speed, direction, and magnitude. Subjects were instructed to mirror-match the movement with their opposite arm (active arm). Results-A large number of subjects with stroke were significantly impaired on measures of kinesthesia. We observed impairments in ability to match movement direction (69% and 49% impaired for left-and right-affected subjects, respectively) and movement magnitude (42% and 31%). We observed impairments to match movement speed (32% and 27%) and increased response latencies (48% and 20%). Movement direction errors and response latencies were related to clinical measures of function, motor recovery, and dexterity. Conclusions-Using a robotic approach, we found that 61% of acute stroke survivors (n=69) had kinesthetic deficits.Additionally, these deficits were highly related to existing clinical measures, suggesting the importance of kinesthesia in day-to-day function. Our methods allow for more sensitive, accurate, and objective identification of kinesthetic deficits after stroke. With this information, we can better inform clinical treatment strategies to improve poststroke rehabilitative care and outcomes.

show abstract

mentioning

confidence: 99%

Robotic Identification of Kinesthetic Deficits After Stroke

Semrau

Herter

Scott

et al. 2013

Stroke

123

177

View full text Add to dashboard Cite

show abstract

“…For example, despite continued complaints of problems using a spoon and toothbrush, our subject's CMSA, a tool specifically developed for assessing arm and hand function, attained the maximal score at 6 months. Fundamental issues with the basic measurement properties of any given assessment can lead to problems in accurately identifying a subject's deficits [13]. In our study case, the robot and PPB scores, which are both based on normative scales identified impairments consistent with these problems in daily activities.…”

Section: Discussionmentioning

confidence: 82%

“…The relationship between our robotic measures and clinical measures is one of interest, but is difficult to evaluate quantitatively in a single case study. In a previous study, we evaluated a group of one hundred subjects with stroke and showed modest to moderate correlations between performance on various task parameters in the visually guided reaching or position matching tasks and common clinical measures such as the PPB and the FIM [13]. In that study the visually guided reaching parameters demonstrated a Pearson's correlation coefficient of 0.61 between the Movement Time parameter with the Purdue Pegboard, but only 0.35 with the Reaction Time parameter and no significant correlation with the robotic Posture Speed variable.…”

Section: Discussionmentioning

confidence: 99%

Stroke Recovery after Unilateral Posterior Spinal Artery Stroke: A Case Report

Fung¹,

Herter²,

Hill³

et al. 2014

Int J Phys Med Rehabil

View full text Add to dashboard Cite

show abstract

“…In recent years, the incorporation of new robotic and advanced digital technologies has enabled more precise quantitative assessments of arm function. [1][2]3,4 The analysis of secondary submovements in chronic stroke survivors (SS) is important because on the one hand, increased frequency of submovements has been described in association with low movement speed which is also typical of aging and Parkinson's disease, 5,6 and on the other hand, the observed decrease in the frequency of submovements after therapeutic interventions has been proposed to characterize motor recovery after stroke. 7,8 Secondary submovements are present in neurologically intact individuals and their origin is a matter of debate.…”

Section: Introductionmentioning

confidence: 99%

Submovements during reaching movements after stroke

Simó

Piovesan

Laczkó

et al. 2014

2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society

View full text Add to dashboard Cite

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 only from NI but also from those of SS with moderate arm impairment . Therefore the results of this pilot study suggest that in SS arm kinematics vary significantly across differing levels of motor impairment.

show abstract

The independence of deficits in position sense and visually guided reaching following stroke

Cited by 132 publications

References 63 publications

Robotic Identification of Kinesthetic Deficits After Stroke

Robotic Identification of Kinesthetic Deficits After Stroke

Stroke Recovery after Unilateral Posterior Spinal Artery Stroke: A Case Report

Submovements during reaching movements after stroke

Contact Info

Product

Resources

About