244 research outputs found
Development of a Physical Therapy Telehealth Examination Battery for People with Parkinson Disease
Scope: The rapid transition to telehealth following the COVID-19 pandemic raised challenges for remote delivery of physical therapy. One challenge was identifying outcome measures for people with Parkinson Disease (PwP) that could safely be conducted via telehealth. This paper evaluates the feasibility of a telehealth physical therapy examination battery for PwP in early to middle stage of disease progression. Methodology: We reviewed recommended outcome measures from the American Physical Therapy Association’s Academy of Neurologic Physical Therapy (ANPT) Parkinson Evidence Database to Guide Effectiveness (EDGE) document and evaluated their appropriateness for remote administration. A clinical decision tree was created to streamline the examination process, incorporating elements of the ANPT movement analysis of tasks as a movement screen. The examination battery was then conducted on three PwP and evaluated for safety and feasibility. Conclusion: This physical therapy telehealth examination battery provides physical therapists with a method to conduct safe and efficient remote assessments for PwP
Area Plan Implementation Program: From Paper to Progress
The Charlotte-Mecklenburg Planning Department is a joint City/County Planning Department that advises the City Council and Board of County Commissioners on land use, design plans, zoning, land development, transportation/ transit, economic development, public facilities, and other general planning matters. Through public processes over the years, the Department had amassed dozens of adopted small area plans and hundreds of plan recommendations by 2005, but lacked funding and a comprehensive means to achieve implementation on the ground. Planning Director Debra Campbell asked the philosophical question; “Why is an Area Plan done, if we cannot implement it?
Applying Principles of Motor Learning and Control to Upper Extremity Rehabilitation
The purpose of this article is to provide a brief review of the principles of motor control and learning. Different models of motor control from historical to contemporary are presented with emphasis on the Systems model. Concepts of motor learning including skill acquisition, measurement of learning, and methods to promote skill acquisition by examining the many facets of practice scheduling and use of feedback are provided. A fictional client case is introduced and threaded throughout the article to facilitate understanding of these concepts and how they can be applied to clinical practice
Insensitivity of the present hsp26 chromatin structure to a TATA box mutation in Drosophila
The role of the TATA element in establishing the chromatin structure and inducible transcription of the Drosophila melanogaster hsp26 gene has been analyzed. An hsp26/lacZ fusion gene with a mutant promoter, in which the TATA box sequence TATAAA was changed to CCCAAA, was introduced into Drosophila by P-element transformation. The mutation had little effect on formation of the preset chromatin structure observed prior to induction. However, the mutation dramatically reduced transcription levels following heat shock. Northern analysis indicated that weak, inducible expression of the mutant promoter occurred within the same period of heat shock as for the normal promoter, suggesting that TFIID was associated with the mutant promoter prior to heat shock. Biochemical analysis showed that the mutant promoter still bound TFIID in vitro, but with 3-5-fold less affinity than the normal promoter. DNase I footprinting revealed that the conformation of the TFIID-DNA complex differed significantly from that of the normal promoter. These results indicate that alterations in the conformation or the stability of the TFIID-DNA complex drastically reduce the level of induction, but do not dramatically affect chromatin structure formation. Formation of the requisite chromatin structure is either independent of, or highly tolerant of, changes in the TFIID-DNA complex
Motor-cognitive dual-task deficits in individuals with early-mid stage Huntington's disease
Background. Huntington’s disease (HD) results in a range of cognitive and motor impairments that progress throughout the disease stages; however, little research has evaluated specific dual-task abilities in this population, and the degree to which they may be related to functional ability. Objectives. The purpose of this study was to a) examine simple and complex motor-cognitive dual-task performance in individuals with HD, b) determine relationships between dual-task walking ability and disease-specific measures of motor, cognitive and functional ability, and c) examine the relationship of dual-task measures to falls in individuals with HD. Methods. Thirty-two individuals with Huntington’s disease were evaluated for simple and complex dual-task ability using the Walking While Talking Test. Demographics and disease-specific measures of motor, cognitive and functional ability were also obtained. Results. Individuals with HD had impairments in simple and complex dual-task ability. Simple dual-task walking was correlated to disease-specific motor scores as well as cognitive performance, but complex dual-task walking was correlated with total functional capacity, as well as a range of cognitive measures. Number of prospective falls was strongly correlated to dual-task measures. Conclusions. Our results suggest that individuals with HD have impairments in cognitive-motor dual-task ability that are related to disease progression and specifically functional ability. Dual-task measures appear to evaluate a unique construct in individuals with early to mid-stage HD, and may have value in improving the prediction of falls risk in this population
Critical features in the development of exercise-based interventions for people with Huntington's disease
Exercise and physical therapies are increasingly being considered as a lifestyle intervention in people with Huntington’s disease (HD). In addition to possible effects on motor function, there may be benefits in mood, behaviour and cognition from early in the disease. Certainly exercise may also infer general health benefits and there are recent suggestions that exercise may indeed potentiate disease modification. This review provides an overview of a strategic approach to the development and evaluation of complex exercise interventions in this neurodegenerative disease with a view to informing future clinical trials
A pilot study of a minimally supervised home exercise and walking program for people with Parkinson’s disease in Jordan
Aim: This study aimed to evaluate the feasibility and cultural considerations of a minimally supervised, home-based exercise program in Jordan. Methods: Quantitative and qualitative approaches were used. Thirty participants were randomly allocated to either an 8-week intervention group (n = 16), or a standard care group (n = 14). The intervention incorporated the home use of an exercise DVD, walking program and initial instructional sessions and weekly phone calls provided by a physiotherapist. Interviews were used to explore feasibility. Unified Parkinson’s disease rating scale (UPDRS-III); balance and walking speed were assessed. Results: The retention rate was 86.7% and mean adherence rate was 77%. Personal and sociocultural barriers of adherence to the exercise program were identified. UPDRS-III at follow-up was lower in the intervention group. Conclusion: A home exercise program was feasible. Sociocultural barriers specific to Arabic culture may affect the uptake of such an intervention in Parkinson’s disease in these countries
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Quantifying Intra- and Interlimb Use During Unimanual and Bimanual Tasks in Persons with Hemiparesis Post-Stroke
Background
Individuals with hemiparesis post-stroke often have difficulty with tasks requiring upper extremity (UE) intra- and interlimb use, yet methods to quantify both are limited. Objective
To develop a quantitative yet sensitive method to identify distinct features of UE intra- and interlimb use during task performance. Methods
Twenty adults post-stroke and 20 controls wore five inertial sensors (wrists, upper arms, sternum) during 12 seated UE tasks. Three sensor modalities (acceleration, angular rate of change, orientation) were examined for three metrics (peak to peak amplitude, time, and frequency). To allow for comparison between sensor data, the resultant values were combined into one motion parameter, per sensor pair, using a novel algorithm. This motion parameter was compared in a group-by-task analysis of variance as a similarity score (0–1) between key sensor pairs: sternum to wrist, wrist to wrist, and wrist to upper arm. A use ratio (paretic/non-paretic arm) was calculated in persons post-stroke from wrist sensor data for each modality and compared to scores from the Adult Assisting Hand Assessment (Ad-AHA Stroke) and UE Fugl-Meyer (UEFM). Results
A significant group Ă— task interaction in the similarity score was found for all key sensor pairs. Post-hoc tests between task type revealed significant differences in similarity for sensor pairs in 8/9 comparisons for controls and 3/9 comparisons for persons post stroke. The use ratio was significantly predictive of the Ad-AHA Stroke and UEFM scores for each modality. Conclusions
Our algorithm and sensor data analyses distinguished task type within and between groups and were predictive of clinical scores. Future work will assess reliability and validity of this novel metric to allow development of an easy-to-use app for clinicians
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