Spelling suggestions: "subject:"postural instability"" "subject:"postural unstability""
1 |
THE EFFECT OF FATIGUE ON ELECTROMYOGRAPHY ACTIVITY PATTERNS WHILE PERFORMING TASKS ON INCLINED SURFACESLU, MING-LUN 03 December 2001 (has links)
No description available.
|
2 |
A Comparison of Clinical Assessment Versus Force Platform Assessment of Postural Instability in Parkinson's DiseaseSears-Duru, Rosemarie 04 1900 (has links)
The purposes of this study were: (1) to determine whether there was a correlation between a quantitative assessment of postural sway , and a clinical assessment of postural stability, in patients diagnosed with idiopathic Parkinson's disease (PD); (2) to plot individual diurnal changes in postural sway characteristics of PD patients over an eight-hour time period; (3) to plot day to day changes in individual postural sway characteristics of PD patients: (4) to determine whether there was a difference in the postural sway characteristics of parkinsonians, with and without vision; (5) to determine whether there was a difference in the postural sway characteristics of the same individuals when using either Sinemet or Oeprenyl.
Three male PD patients were recruited into this study. Each subject stood on a stable force platform (AMT1 OR6-5-1). Measurements included the standard deviations of the coordinates of the centre of pressure (COP) in the anterior-posterior (a-p) and lateral (lat) directions, the mean velocity of sway, and area of sway. These dependent measures were evaluated in a "quiet standing" condition, once with the eyes open (EO) and once with the eyes closed (EC). These procedures were carried out ten times over the course of an eight hour day. Each subject was tested two days while taking eight hour day. Each subject was tested two days while taking Sinemet, and two days while on the Deprenyl regimen. Secondly, at two periods of each test day, each patient was evaluated using the postural assessment section of the Sears Parkinson's Assessment Form (SPAF). The results were: (1) group analyses and individual analyses established the evidence of significant correlations between both the quantitative measures of postural sway (force platform) and the qualitative assessment tool (SPAF): (2) significant variability was evident in the analysis of individual data plots: (3) no statistically significant differences were observed tor any subject when measured from day to day; (4) generally, vision was a stabilizing factor in postural control, however, this was quite variable for each subject; (5) significant improvements in postural stability were observed with the introduction of Deprenyl for one out of three subjects. These findings are discussed in terms of their clinical and behavioral importance, with specific reference to Physiotherapy. / Thesis / Master of Science (MS)
|
3 |
Pedunculopontine nucleus stimulation for gait and postural disorders in Parkinson's diseaseThevathasan, Arthur Wesley January 2011 (has links)
The pedunculopontine nucleus (PPN) is a reticular collection of neurons at the junction of midbrain and pons. The PPN in animal models appears topographically organised and functionally related to locomotion and arousal. In Parkinson’s disease, the PPN degenerates and is susceptible to abnormal basal ganglia output. In patients with Parkinson’s disease, low frequency PPN stimulation is proposed to improve gait freezing and postural instability. However, the therapeutic mechanisms, optimal clinical application and precise effects on gait and posture of PPN stimulation are unclear. Here, a topographic arrangement of the PPN was supported by local field potential recordings in parkinsonian patients. In the PPN region, beta oscillations were recorded rostrally and alpha oscillations caudally. Alpha oscillations, consistent with their putative role in allocating attention, correlated with gait performance and attenuated with gait freezing. Thus the caudal PPN subregion may be the most relevant target for gait disorders. Accordingly, an unblinded clinical study suggested that stimulation of the caudal PPN subregion was beneficial for gait freezing, postural instability and falls. In a double-blinded study using spatiotemporal gait analysis, caudal PPN stimulation reduced triggered gait freezing, with bilateral stimulation more effective than unilateral. However, akinesia including akinetic gait did not improve with PPN stimulation. Accordingly, dopaminergic medication requirements did not change. Mechanisms underlying gait freezing and PPN stimulation were explored with reaction time experiments. Parkinsonian patients with severe gait freezing and postural instability demonstrated a ‘block’ to pre-programmed movement. This was evidenced by prolonged simple reaction times and the absence of ‘StartReact’, whereby pre-prepared responses are normally accelerated by loud acoustic stimuli. PPN stimulation improved simple reaction time and restored Startreact. The relief of this ‘motor block’ with PPN stimulation may therefore explain the associated improvement in gait freezing and postural instability, as these tend to occur in circumstances requiring triggered, pre-prepared adjustments.
|
4 |
Development of a novel balance assessment tool to study postural instability and fall riskPaliwal, Monica 01 May 2015 (has links)
Balance disorders and falls are prevalent among multiple pathologies that affect the musculoskeletal or sensorineural systems. Annually, fall-related injuries put excessive economic burden on society and yet, current clinical balance assessment tools based on functional tests are inaccurate and have limited association with fall risk. Therefore, there is a growing need of an accurate balance and fall risk assessment tool for clinical use.
The primary purpose of this research was to develop an accurate Center of Pressure (COP) based balance assessment tool to study postural instability and fall risk. Chapter 1 aimed at development of the COP based tool using cost effective equipment- a Wii Balance Board (WBB) and testing its accuracy and errors. The result of this study indicated that the WBB tool is reliable in assessing balance and the linearity and hysteresis errors in WBB tool are higher than force plates but it compares well in terms of cost, portability and availability. Chapter 2 aimed at assessing the relation between the radiographic parameters of balance, COP metrics, and health related quality of life in adults with spinal deformities. The results of this investigation revealed that just like radiographic parameters, COP metrics could help explain some variability in symptoms in patients with comparable extent of deformity. Chapter 3 attempted to establish a threshold value of COP metrics for binary classification of fall risk in patients with multiple sclerosis (MS). The findings of this study highlighted path length as an excellent predictor of future falls with high test accuracy, sensitivity and specificity. This dissertation concludes that the WBB tool has the potential to revolutionize balance and fall risk assessment in clinical fields such as geriatrics, rehabilitation, neurology, and orthopedics.
|
5 |
Exploring a Visual Flow Display to Enhance Spatial Orientation during FlightHelde, Kristian January 2002 (has links)
<p>The problem of spatial disorientation during flight of aircraft is briefly described, as are definitions of the phenomenon. Traditional countermeasure efforts that are often directed towards changes in the central visual field are reconsidered in favour of presentation of information in the peripheral visual field. It is proposed to use optic flow to support spatial orientation, as well as to omit such information from the central visual field. An experiment was conducted, and results showed that forward visual flow gave very important spatial information. The flow could be cropped to a certain degree in the periphery (horizontally), as well as parts of the central presentation could be omitted without decreasing effects in the experiment. Implications relevant to possible implementations in aircraft are discussed.</p>
|
6 |
Análise eletromiográfica de músculos do membro inferior em pacientes com Doença de Parkinson durante a realização do Pull TestAraújo, Tatiane Gomes de January 2012 (has links)
Introdução: A Doença de Parkinson (DP) é uma desordem neurodegenerativa, progressiva, patologicamente caracterizada pela perda neuronal de dopamina na via nigro-estriatal e pela presença de inclusões intraneuronais de corpos de Lewy. De etiologia desconhecida é consensualmente aceita como uma doença multifatorial com determinantes genéticos, ambientais e relacionados ao envelhecimento. Constitui-se na segunda doença neurodegenerativa mais comum em idosos. Caracteriza-se clinicamente pela tríade tremor, rigidez e bradicinesia. Juntam-se a esses sinais clássicos as alterações posturais, que levam a DP a ser considerada fator de risco independente para quedas. Apesar disso, a avaliação da estabilidade postural na DP ainda permanece imprecisa e com tratamento difícil. Objetivos e métodos: O principal foco desta dissertação é a compreensão dos mecanismos envolvidos nas alterações do equilíbrio na DP. Neste sentido realizamos uma avaliação da atividade elétrica muscular através da Eletromiografia (EMG) de superfície durante a realização do Pull Test (PT), em português teste de retropulsão. Padrões de latência e amplitude de ativação dos músculos tibial anterior, gastrocnêmio e bíceps femoral foram comparados durante a realização do PT entre pacientes com DP e indivíduos hígidos. Os padrões neurofisiológicos dos pacientes com DP foram comparados com escores no PT, tendência a quedas e administração de levodopa (períodos on e off). Resultados e conclusões: Foram encontradas diferenças significantes na atividade muscular entre DP e controles durante PT. Pacientes com DP apresentaram uma menor latência de ativação muscular. Além disso, após uma repetição em sequência de 10 PT, indivíduos controles apresentaram aumento progressivo das latências, sugerindo habituação. Já os pacientes com DP mantiveram uma latência de ativação constante, ou seja não apresentaram habituação. Não foram observadas diferenças relevantes de atividade muscular entre os DPs com PT positivo e negativo, entre caidores e não caidores e após a ingestão de Levodopa o que sugere a interferência de outros fatores relacionados à estabilidade postural, que levam a quedas na DP, em virtude da natureza heterogênea desses eventos. / Background: Parkinson's disease (PD) is a neurodegenerative disorder, progressive, pathologically characterized by neuronal loss of dopamine in the nigrostriatal pathway and the presence of intraneuronal inclusions of Lewy bodies. Of unknown etiology is widely accepted as a multifactorial disease with genetical, environmental and aging determinants. It constitutes the second most common neurodegenerative disease in the elderly. It is clinically characterized by a triad of tremor, rigidity and bradykinesia. Besides these classic signs we can add postural changes, leading PD to be considered an independent risk factor to falls. Despite this, the assessment of postural stability in PD remains unclear and difficult to treat. Objective and Methods: The main focus of this dissertation is understanding the mechanisms involved in balance disorders in PD. We undertook an assessment of muscle electrical activity through surface electromyography (EMG) while performing a Pull Test (PT). Patterns of latency and amplitude of muscle activation of the tibialis anterior, gastrocnemius and biceps femoris muscles were compared during the course of PT between PD patients and healthy individuals. Neurophysiological patterns of PD patients were compared with scores on the PT, the tendency to fall and administration of levodopa (on and off periods). Results and Conclusion: Significant differences were found in muscle activity between PD and controls during PT. PD patients had a lower latency of muscle activation. Furthermore, after a repetition in sequence of 10 PT, control subjects showed a progressive increase in latency, suggesting habituation. Patients with PD a latency of activation remained constant or showed no habituation. However, there were no significant differences in muscle activity between the PDs with positive and negative PT, between fallers and non fallers and after administration of L-dopa suggesting the influence of other factors related to postural stability, leading to falls in PD, due to the heterogeneous nature of these events.
|
7 |
Análise eletromiográfica de músculos do membro inferior em pacientes com Doença de Parkinson durante a realização do Pull TestAraújo, Tatiane Gomes de January 2012 (has links)
Introdução: A Doença de Parkinson (DP) é uma desordem neurodegenerativa, progressiva, patologicamente caracterizada pela perda neuronal de dopamina na via nigro-estriatal e pela presença de inclusões intraneuronais de corpos de Lewy. De etiologia desconhecida é consensualmente aceita como uma doença multifatorial com determinantes genéticos, ambientais e relacionados ao envelhecimento. Constitui-se na segunda doença neurodegenerativa mais comum em idosos. Caracteriza-se clinicamente pela tríade tremor, rigidez e bradicinesia. Juntam-se a esses sinais clássicos as alterações posturais, que levam a DP a ser considerada fator de risco independente para quedas. Apesar disso, a avaliação da estabilidade postural na DP ainda permanece imprecisa e com tratamento difícil. Objetivos e métodos: O principal foco desta dissertação é a compreensão dos mecanismos envolvidos nas alterações do equilíbrio na DP. Neste sentido realizamos uma avaliação da atividade elétrica muscular através da Eletromiografia (EMG) de superfície durante a realização do Pull Test (PT), em português teste de retropulsão. Padrões de latência e amplitude de ativação dos músculos tibial anterior, gastrocnêmio e bíceps femoral foram comparados durante a realização do PT entre pacientes com DP e indivíduos hígidos. Os padrões neurofisiológicos dos pacientes com DP foram comparados com escores no PT, tendência a quedas e administração de levodopa (períodos on e off). Resultados e conclusões: Foram encontradas diferenças significantes na atividade muscular entre DP e controles durante PT. Pacientes com DP apresentaram uma menor latência de ativação muscular. Além disso, após uma repetição em sequência de 10 PT, indivíduos controles apresentaram aumento progressivo das latências, sugerindo habituação. Já os pacientes com DP mantiveram uma latência de ativação constante, ou seja não apresentaram habituação. Não foram observadas diferenças relevantes de atividade muscular entre os DPs com PT positivo e negativo, entre caidores e não caidores e após a ingestão de Levodopa o que sugere a interferência de outros fatores relacionados à estabilidade postural, que levam a quedas na DP, em virtude da natureza heterogênea desses eventos. / Background: Parkinson's disease (PD) is a neurodegenerative disorder, progressive, pathologically characterized by neuronal loss of dopamine in the nigrostriatal pathway and the presence of intraneuronal inclusions of Lewy bodies. Of unknown etiology is widely accepted as a multifactorial disease with genetical, environmental and aging determinants. It constitutes the second most common neurodegenerative disease in the elderly. It is clinically characterized by a triad of tremor, rigidity and bradykinesia. Besides these classic signs we can add postural changes, leading PD to be considered an independent risk factor to falls. Despite this, the assessment of postural stability in PD remains unclear and difficult to treat. Objective and Methods: The main focus of this dissertation is understanding the mechanisms involved in balance disorders in PD. We undertook an assessment of muscle electrical activity through surface electromyography (EMG) while performing a Pull Test (PT). Patterns of latency and amplitude of muscle activation of the tibialis anterior, gastrocnemius and biceps femoris muscles were compared during the course of PT between PD patients and healthy individuals. Neurophysiological patterns of PD patients were compared with scores on the PT, the tendency to fall and administration of levodopa (on and off periods). Results and Conclusion: Significant differences were found in muscle activity between PD and controls during PT. PD patients had a lower latency of muscle activation. Furthermore, after a repetition in sequence of 10 PT, control subjects showed a progressive increase in latency, suggesting habituation. Patients with PD a latency of activation remained constant or showed no habituation. However, there were no significant differences in muscle activity between the PDs with positive and negative PT, between fallers and non fallers and after administration of L-dopa suggesting the influence of other factors related to postural stability, leading to falls in PD, due to the heterogeneous nature of these events.
|
8 |
Análise eletromiográfica de músculos do membro inferior em pacientes com Doença de Parkinson durante a realização do Pull TestAraújo, Tatiane Gomes de January 2012 (has links)
Introdução: A Doença de Parkinson (DP) é uma desordem neurodegenerativa, progressiva, patologicamente caracterizada pela perda neuronal de dopamina na via nigro-estriatal e pela presença de inclusões intraneuronais de corpos de Lewy. De etiologia desconhecida é consensualmente aceita como uma doença multifatorial com determinantes genéticos, ambientais e relacionados ao envelhecimento. Constitui-se na segunda doença neurodegenerativa mais comum em idosos. Caracteriza-se clinicamente pela tríade tremor, rigidez e bradicinesia. Juntam-se a esses sinais clássicos as alterações posturais, que levam a DP a ser considerada fator de risco independente para quedas. Apesar disso, a avaliação da estabilidade postural na DP ainda permanece imprecisa e com tratamento difícil. Objetivos e métodos: O principal foco desta dissertação é a compreensão dos mecanismos envolvidos nas alterações do equilíbrio na DP. Neste sentido realizamos uma avaliação da atividade elétrica muscular através da Eletromiografia (EMG) de superfície durante a realização do Pull Test (PT), em português teste de retropulsão. Padrões de latência e amplitude de ativação dos músculos tibial anterior, gastrocnêmio e bíceps femoral foram comparados durante a realização do PT entre pacientes com DP e indivíduos hígidos. Os padrões neurofisiológicos dos pacientes com DP foram comparados com escores no PT, tendência a quedas e administração de levodopa (períodos on e off). Resultados e conclusões: Foram encontradas diferenças significantes na atividade muscular entre DP e controles durante PT. Pacientes com DP apresentaram uma menor latência de ativação muscular. Além disso, após uma repetição em sequência de 10 PT, indivíduos controles apresentaram aumento progressivo das latências, sugerindo habituação. Já os pacientes com DP mantiveram uma latência de ativação constante, ou seja não apresentaram habituação. Não foram observadas diferenças relevantes de atividade muscular entre os DPs com PT positivo e negativo, entre caidores e não caidores e após a ingestão de Levodopa o que sugere a interferência de outros fatores relacionados à estabilidade postural, que levam a quedas na DP, em virtude da natureza heterogênea desses eventos. / Background: Parkinson's disease (PD) is a neurodegenerative disorder, progressive, pathologically characterized by neuronal loss of dopamine in the nigrostriatal pathway and the presence of intraneuronal inclusions of Lewy bodies. Of unknown etiology is widely accepted as a multifactorial disease with genetical, environmental and aging determinants. It constitutes the second most common neurodegenerative disease in the elderly. It is clinically characterized by a triad of tremor, rigidity and bradykinesia. Besides these classic signs we can add postural changes, leading PD to be considered an independent risk factor to falls. Despite this, the assessment of postural stability in PD remains unclear and difficult to treat. Objective and Methods: The main focus of this dissertation is understanding the mechanisms involved in balance disorders in PD. We undertook an assessment of muscle electrical activity through surface electromyography (EMG) while performing a Pull Test (PT). Patterns of latency and amplitude of muscle activation of the tibialis anterior, gastrocnemius and biceps femoris muscles were compared during the course of PT between PD patients and healthy individuals. Neurophysiological patterns of PD patients were compared with scores on the PT, the tendency to fall and administration of levodopa (on and off periods). Results and Conclusion: Significant differences were found in muscle activity between PD and controls during PT. PD patients had a lower latency of muscle activation. Furthermore, after a repetition in sequence of 10 PT, control subjects showed a progressive increase in latency, suggesting habituation. Patients with PD a latency of activation remained constant or showed no habituation. However, there were no significant differences in muscle activity between the PDs with positive and negative PT, between fallers and non fallers and after administration of L-dopa suggesting the influence of other factors related to postural stability, leading to falls in PD, due to the heterogeneous nature of these events.
|
9 |
Exploring a Visual Flow Display to Enhance Spatial Orientation during FlightHelde, Kristian January 2002 (has links)
The problem of spatial disorientation during flight of aircraft is briefly described, as are definitions of the phenomenon. Traditional countermeasure efforts that are often directed towards changes in the central visual field are reconsidered in favour of presentation of information in the peripheral visual field. It is proposed to use optic flow to support spatial orientation, as well as to omit such information from the central visual field. An experiment was conducted, and results showed that forward visual flow gave very important spatial information. The flow could be cropped to a certain degree in the periphery (horizontally), as well as parts of the central presentation could be omitted without decreasing effects in the experiment. Implications relevant to possible implementations in aircraft are discussed.
|
10 |
Applying a Novel Balance Technology to Evaluate Postural Instability following Pediatric Mild Traumatic Brain InjuryRhine, Tara D., M.D. 09 October 2013 (has links)
No description available.
|
Page generated in 0.0826 seconds