Responsiveness of Upper Extremity Kinematic Measures and Clinical Improvement During the First Three Months After Stroke

I love this, they tested a drinking task. Ask your doctor to follow up what it was,dark beer or wine? Its damn important to know those details.
I might have recovered my bad arm/hand by now if I had been challenged with this drinking game.
http://nnr.sagepub.com/content/27/9/844.abstract?etoc

1. Margit Alt Murphy, MSc1
2. Carin Willén, PhD1
3. Katharina S. Sunnerhagen, PhD, MD1

1. ¹University of Gothenburg, Gothenburg, Sweden

1. Margit Alt Murphy, Rehabilitation Medicine, Institute of Neuroscience and Physiology, University of Gothenburg, Per Dubbsgatan 14, 3tr, 41345 Göteborg, Sweden. Email: margit.alt-murphy@neuro.gu.se

Abstract

Background. Kinematic movement analysis is increasingly used as an outcome measure in evaluation of upper extremity function after stroke. Little is known, however, about what observed longitudinal changes in kinematics mean in the context of an individual’s functioning. In this study, the responsiveness and expected change in kinematic measures associated with clinically meaningful improvement in the upper extremity were evaluated. Methods. Kinematic movement analysis of a drinking task and Action Research Arm Test (ARAT) were performed early (9 days poststroke) and at 3 months after stroke in 51 subjects. The receiver-operating characteristic curve and linear regression analyses were used to evaluate responsiveness of kinematic parameters. Results. Movement time, smoothness, and trunk displacement discriminated those subjects demonstrating clinically meaningful improvements. Significant associations of 31% to 36% were found between the change in ARAT and kinematic measures. A real clinical improvement in kinematics lies in the range of 2.5 to 5 seconds, 3 to 7 units, and 2 to 5 cm in movement time, smoothness, and trunk displacement, respectively. Conclusions. All kinematic measures reported in this study are responsive measures for capturing improvements in the upper extremity during the first 3 months after stroke. Approximate estimates for the expected change in kinematics associated with clinically meaningful improvement in upper extremity activity capacity illustrate the usefulness of the linear regression analysis for assessing responsiveness. This knowledge facilitates the selection of kinematic measures for clinical and movement analysis research as well as for technology-based devices.