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Showing 91 to 100 of 135 (0.039 seconds)Spelling suggestions: "subject:"motor neuron"" "subject:"motor meuron""
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Treatment of lower limb spasticity in adults using a multimodal intervention: A mixed-methods approach evaluating the impact across all domains of the ICFKim, Jasmine Min Jung 07 May 2014 (has links)
Spasticity is highly prevalent in neurological conditions involving upper motor neuron lesions (UMNL). Lower limb spasticity is known to impair gait and limit participation in physical activity. Multimodal interventions including botulinum toxin A, orthoses, and physiotherapy have shown longer lasting improvements compared to unimodal interventions. Studies to date, however, have not examined the long term efficacy of this multimodal intervention nor have they examined the impact across a breadth of domains necessary to comprehensively and fully understand its impact. The aim of this study was to investigate the efficacy of a multimodal intervention to treat lower limb spasticity in adults using a longitudinal mixed-methods approach, including a comprehensive set of outcome measures spanning the domains of the International Classification of Functioning, Disability and Health (ICF) model. Seven-teen participants with chronic UMNL were included in the analysis as per inclusion criteria and showed improvements at 6 and 12 months, compared to baseline, within all domains of the ICF model. / Graduate / 0571 / 0382 / 0384 / jazkim@uvic.ca
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Treatment of lower limb spasticity in adults using a multimodal intervention: A mixed-methods approach evaluating the impact across all domains of the ICFKim, Jasmine Min Jung 07 May 2014 (has links)
Spasticity is highly prevalent in neurological conditions involving upper motor neuron lesions (UMNL). Lower limb spasticity is known to impair gait and limit participation in physical activity. Multimodal interventions including botulinum toxin A, orthoses, and physiotherapy have shown longer lasting improvements compared to unimodal interventions. Studies to date, however, have not examined the long term efficacy of this multimodal intervention nor have they examined the impact across a breadth of domains necessary to comprehensively and fully understand its impact. The aim of this study was to investigate the efficacy of a multimodal intervention to treat lower limb spasticity in adults using a longitudinal mixed-methods approach, including a comprehensive set of outcome measures spanning the domains of the International Classification of Functioning, Disability and Health (ICF) model. Seven-teen participants with chronic UMNL were included in the analysis as per inclusion criteria and showed improvements at 6 and 12 months, compared to baseline, within all domains of the ICF model. / Graduate / 2015-04-24 / 0571 / 0382 / 0384 / jazkim@uvic.ca
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Identification of Risk Factors Associated with Aetiology of Amyotrophic Lateral Sclerosis Based on Systematic Review and Meta-AnalysisWang, Ming-Dong 27 May 2014 (has links)
To identify the risk factors being associated with aetiology of amyotrophic lateral sclerosis (ALS), a series of systematic reviews based on existing observational epidemiological studies identified through searching of bibliographic databases were conducted. Associations between ALS and a number of genetic and environmental risk factors were examined using meta-analysis. Specifically we found that previous exposure to lead, pesticides, solvents, experience of trauma and electric shock were associated with relative increased risks of developing ALS of 86% [odds ratio (OR) =1.86, 95% CI: 1.39-2.48], 57% (OR=1.57,95% CI: 1.19-2.08), 47% (OR=1.47, 95%CI: 1.13-1.80), 64% (OR=1.64; 95%CI: 1.36-1.98), and 2.27% (OR=3.27, 95%CI:1.87-5.73) respectively, compared to their corresponding controls. The presence of intermediate CAG repeat expansion in the ATXN2 gene was associated with a 4.4 -fold increase in the risk of ALS (OR=4.44, 95%CI: 2.91-6.76). However, the attributable risk associated with each identified risk factor was estimated to be less than 5% of all ALS cases. These results confirm that ALS is a rare multifactorial degenerative condition of motor-neurons.
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Quantificação da lesão neuronal e mielínica na Esclerose Lateral Amiotrófica através da ressonância magnética / Quantification of myelin and neuronal damage in ALS using magnetic resonance imaging.Marina Campos Zuardi 28 May 2012 (has links)
Introdução: A Esclerose Lateral Amiotrófica (ELA) é uma doença degenerativa e progressiva que afeta neurônios motores da medula espinhal, tronco cerebral e/ ou córtex motor. Sua manifestação clínica é bastante variada, sua etiologia desconhecida e a progressão, fatal. Não existe ainda um tratamento curativo para a ELA, porém alguns medicamentos e a realização de fisioterapia podem auxiliar, fornecendo ao paciente uma melhor qualidade de vida. Objetivos: Testar a hipótese de que técnicas quantitativas de Ressonância Magnética (RM) são eficazes para detectar a lesão neuronal no encéfalo de pacientes com ELA no estágio inicial da doença e, verificar se existe correlação entre a lesão encefálica e a perda funcional do paciente. Dessa forma, pretende-se estabelecer um protocolo capaz de contribuir para o diagnóstico precoce da ELA. Metodologia: Quinze pacientes com diagnóstico de ELA definida ou provável (12 homens e três mulheres), com idade entre 37 e 79 anos e seus respectivos controles foram submetidos a um protocolo de avaliação por RM, que incluiu um estudo estrutural volumétrico e quantitativo do dano neuronal e mielínico por razão de sequências ponderadas em T1 e FLAIR, da Transferência de Magnetização (MT), Relaxometria, Anisotropia Fracionada (FA) e Difusão (DTI), além da Espectroscopia de prótons. Alguns dos sujeitos foram submetidos também à uma avaliação física de força muscular, de funcionalidade através da Amyotrophic Lateral Sclerosis Functional Rating Scale Revised (ALSFRS-R), de qualidade de vida através da Amyotrophic Lateral Sclerosis Assessment Questionnaire (ALSAQ-40) e de quantificação da fadiga pela Fadigue Severity Scale (FSS). Os dados da RM dos dois grupos foram comparados através da análise de variância multi e univariada e submetidos à correção de múltiplas comparações de Bonferroni. Nas variáveis com diferença significante entre os grupos, foi estudada a validade preditiva da medida, calculando-se a área sob a curva ROC e estabelecidos os valores de sensibilidade, especificidade e acurácia. Os dados das escalas foram comparados pelo teste de Mann-Whitney e correlacionados entre si e com as estruturas através da correlação de Spearman. Resultados: As várias técnicas da RM, com exceção da MT, identificaram pelo menos uma estrutura com diferença significante entre os dois grupos, totalizando 11 estruturas mais a razão dos metabólitos NAA/Cre. Os valores de sensibilidade, especificidade e acurácia foram satisfatórios variando entre 0,60 e 1,00 , com destaque para o Volume do Giro Superior Frontal Direito e Giro Superior Frontal Esquerdo que apresentaram valores 1,00 , 0,93 e 0,97 , respectivamente. As escalas ALSFRS-R e ALSAQ-40 apresentaram diferença significativa entre os dois grupos, mas a FSS não apresentou. As escalas apresentaram correlação significativa entre si em quase todos os escores totais e domínios. Já a correlação das escalas com as estruturas foi significativa apenas para o Volume. Conclusões: Técnicas como DTI, FA, Relaxometria e Volume se mostraram mais eficazes no diagnóstico precoce de pacientes com ELA do que as outras. A redução de volume de substância cinzenta se correlacionou positivamente com a ALSFRS-R. Por fim, propomos um protocolo para avaliação de pacientes com ELA, que inclua imagem volumétrica de alta resolução para cálculo da Volumetria e DTI. / Introduction: Amyotrophic Lateral Sclerosis (ALS) is a progressive and degenerative disease that affects motor neurons in the spinal cord, brain stem and/ or motor cortex. Their clinical presentation is varied, its unknown etiology and fatal progression. There isnt still a curative treatment for ALS, but some medications and physical therapy can help by providing the patient a better quality of life. Objectives: To test the hypothesis that quantitative techniques of magnetic resonance imaging (MRI) are effective to detect neuronal damage in the brain of patients with ALS at the inicial stage of the disease and see if there is a correlation between brain injury and functional loss of the patient. Thus, we intend to establish a protocol can to contribute to early diagnosis of ALS. Methods: Fifteen patients with definite or probable ALS (12 men and three women) aged between 37 and 79 and their respective controls underwent an MRI evaluation protocol, including a volumetric and quantitative structural study of damage neuronal and myelin by reason of T1-weighted sequences and FLAIR , Magnetization Transfer (MT), Relaxometry, Fractional Anisotropy (FA), Diffusion (DTI) and Proton magnetic resonance spectroscopy. Some of the subjects also underwent a physical assessment of muscle strength, functionality by Amyotrophic Lateral Sclerosis Functional Rating Scale Revised (ALSFRS-R), quality of life through the Amyotrophic Lateral Sclerosis Assessment Questionnaire (ALSAQ-40) and quantification of fatigue by Fadigue Severity Scale (FSS). The MRI data of the two groups were compared using analysis of variance multivariate and univariate and submitted to correction for multiple comparisons of Bonferroni. In the variables with significant differences between groups, we studied the predictive validity of the measure, by calculating the area under the ROC curve and set the sensitivity, specificity and accuracy. The data of the scales were compared using Mann-Whitney test and correlated with each other and with the structures by Spearman correlation. Results: The various MRI techniques, with the exception of MT, identified at least one structure with a significant difference between the two groups, a total of 11 structures over the reason for the metabolites NAA/Cre. The sensitivity, specificity and accuracy were satisfactory ranging from 0.60 to 1.00 , with emphasis on Volume of Gyros Superior Frontal Right and Gyros Superior Frontal Left that averaged 1.00 , 0.93 and 0,97 , respectively. The ALSFRS-R and ALSAQ-40 scales showed significant differences between the two groups, but the FSS did not. The scales were significantly correlated with each other in almost all domains and total scores. The correlation with the structures of the scales was significant only for the Volume. Conclusions: Techniques such as DTI, FA, Relaxometry and Volume are more effective in early diagnosis of ALS patients than others. The decrease in gray matter volume was positively correlated with the ALSFRS-R. Finally, we propose a protocol for evaluation patients with ALS, including high-resolution volumetric image to calculate the Volume and DTI.
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Untersuchung der Wirkung des antiaggregativen Compounds anle138b auf Löslichkeit und Toxizität von mutierter SOD1 / Analysis of the impact of the anti-aggregative compond anle138b on solubility and toxicity of mutated SOD1Kleinknecht, Alexander 07 November 2017 (has links)
No description available.
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Excitabilité intrinsèque, couverture synaptique et vacuolisation dendritique des motoneurones spinaux chez la souris SOD1-G93A, modèle de la Sclérose Latérale Amyotrophique / Intrinsic excitability, synaptic coverage and dendritic vacuolation of spinal motoneurons in SOD1-G93A mice, model of Amyotrophic Lateral SclerosisDelestrée, Nicolas 27 October 2014 (has links)
Les motoneurones tiennent une place remarquable dans l'organisme : ils constituent l'interface entre le système nerveux central et le système musculaire. Leur excitabilité est une caractéristique primordiale dans le comportement moteur puisqu'elle définit la force musculaire développée en réponse à la commande motrice. Chez la souris, la décharge des motoneurones est marquée par la présence d'oscillations de mode mixte (MMOs) entre les potentiels d'action. Ces MMOs permettent la décharge des motoneurones à basse fréquence et sont responsables d'un régime de décharge particulier nommé zone sous-Primaire, pendant lequel la fréquence de décharge est très variable et le gain de la relation courant-Fréquence élevé. Nous avons étudié les mécanismes responsables de l'apparition de ces MMOs à la fois de manière expérimentale, dans une préparation in vivo de souris anesthésié, incluant l'utilisation du Dynamic Clamp, et théorique, au moyen d'un modèle mono-Compartimental de motoneurone. Nos résultats ont montré que ces MMOs étaient causées par les courants sodiques et potassiques responsables des potentiels d'action et qu'elles émergeaient d'un état de faible excitabilité de la membrane, dû à l'inactivation lente des courants sodiques. Nous avons également montré que le courant de post-Hyperpolarisation pouvait paradoxalement augmenter l’excitabilité des motoneurones et réduire les MMOs en dé-Inactivant le courant sodique. La Sclérose Latérale Amyotrophique (SLA) conduit à la dégénérescence spécifique de ces motoneurones qui s'accompagne d'une vacuolisation de leur arborisation dendritique. L'augmentation précoce de l'excitabilité des motoneurones dans la maladie a largement été évoquée pour rendre compte de leur atteinte. Une hyperexcitabilité, aussi bien d'origine intrinsèque qu'extrinsèque pourrait en effet produire une excitotoxicité délétère pour la cellule. Si une telle modification de l'excitabilité est en cause dans la maladie, elle devrait persister jusqu'aux âges auxquels se produisent les premières dénervations des jonctions neuromusculaires. Nous avons enregistré les propriétés électrophysiologiques des motoneurones dans une préparation in vivo de souris adultes SOD1-G93A, modèle de la SLA. Nos résultats ont montré que leur conductance d'entrée était augmentée dans les jours qui précèdent les premières dénervations de leurs jonctions neuromusculaires. Malgré cela, leur excitabilité n'était pas modifiée. Loin d'être intrinsèquement hyperexcitables, une fraction d'entre eux perdaient même leur capacité à décharger de manière répétée. Nous avons finalement étudié la vacuolisation qui prend place dans les dendrites des motoneurones au cours de la maladie et son lien avec la couverture synaptique. Nous avons montré que la vacuolisation dendritique prenait place avant les dénervations et que la taille des vacuoles augmentait avec l'âge des souris SOD1-G93A. De manière intéressante, cette progression semblait plus rapide dans les motoneurones les plus sensibles à la maladie. Bien que la couverture synaptique n'était pas modifiée au cours de la maladie, nous avons mis en évidence une densité de synapses excitatrices et inhibitrices plus importante sur les régions dendritiques qui se vacuolisent. Ces résultats suggèrent un lien entre l'activité synaptique et la formation de vacuoles dans les motoneurones au cours de la SLA. Les motoneurones ne présentant pas d'hyperexcitabilité intrinsèque, une excitotoxicité d'origine synaptique pourrait alors être responsable de leur dégénérescence. / Motoneurones hold a remarkable position in the organism: they are the interface between the central nervous system and the muscular system. Their excitability is a crucial characteristic in motor behavior since it determines the muscular force produced in response to motor command. In mice, motoneurone discharge is marked by the presence of sub-Threshold oscillations between action potentials which create a behavior of mixed mode oscillations (MMOs). These MMOs allow the motoneurones to fire at low frequency and are responsible for a sub-Primary range of discharge during which the firing frequency is irregular and the slope of current-Frequency relation is steep. We investigated the mechanisms responsible for these MMOs by in vivo recordings in anesthetized mice, using Dynamic Clamp, and by theoretical modelization in a monocompartimental model of motoneurone. Our results showed that MMOs were caused by sodium and potasium currents responsible for action potentials and that they emerged from a state of low membrane excitability caused by a slow inactivation of the sodium current. Paradoxically, we also showed that the after-Hyperpolarization current was able to increase the membrane excitability and to reduce MMOs by de-Inactivating the sodium current. Amyotrophic Lateral Sclerosis (ALS) leads to the specific degeneration of these motoneurones and is accompanied by a vacuolation of their dendritic trees. An early increase in motoneurons excitability during the disease has been widely proposed to account for their degeneration. Indeed, a motoneuron hyperexcitability of intrinsic or extrinsic origin could produce a deleterious excitotoxicity. If such a change of excitability is involved in the disease, it should last until the ages where the first denervation of neuromuscular junctions occurs. We recorded the electrophysiological properties of motoneurones in an in vivo preparation of adult SOD1-G93A mice, model of ALS. Our results showed that their input conductance was increased before the first denervation of their neuromuscular junctions. Nevertheless, their excitability was not modified. Far from being intrinsically hyperexcitable, a fraction of them even lost their ability to discharge repeatedly. We finally studied the vacuolation that takes place in dendrites of motoneurones during the disease and its relation with synaptic coverage. We have shown that the dendritic vacuolation takes place before the denervation and that the size of these vacuoles increases with age in SOD1-G93A mice. Interestingly, this increase was faster in the most vulnerable motoneurones. Although synaptic coverage was not altered in the disease, we ¬revealed higher densities of excitatory and inhibitory synapses on dendritic regions that vacuolate. These results suggest a link between synaptic activity and vacuoles formation in motoneurones during ALS. Motoneurones were not intrinsically hyperexcitable, instead, an excitotoxicity from a synaptic origin may be responsible for their degeneration.
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Directed differentiation and purification of motor neurons from human induced pluripotent stem cells to model Amyotrophic Lateral Sclerosis / Différenciation et purification de motoneurones dérivés de cellules souches pluripotentes induites humaines pour la modélisation de la Sclérose Latérale AmyotrophiqueToli, Diana Eleni 27 November 2013 (has links)
La sclérose latérale amyotrophique (SLA) est une maladie neurodégénérative incurable de l’adulte qui affecte principalement les motoneurones. Les mécanismes conduisant à la mort des motoneurones restent mal connus, notamment du fait de l'hétérogénéité de la maladie et du manque d'accès aux neurones humains affectés. La technologie des cellules souches pluripotentes induites humaines (iPSc) est un outil prometteur pour la modélisation de la SLA, car elle offre la possibilité unique d'obtenir et d’étudier des motoneurones humains.Des clones d’iPSc de deux sujets témoins ont été générés et nous avons comparé plusieurs protocoles afin de mettre au point un protocole efficace de différenciation des iPSc en motoneurones. Les cultures obtenues étaient hétérogènes et contenaient différents types de neurones et des précurseurs neuraux. Afin de pouvoir étudier des mécanismes intrinsèques aux motoneurones dans la SLA, nous avons développé une nouvelle technique pour purifier les motoneurones. Cette technique a consisté à trier les motoneurones par FACS en combinant l'utilisation d'un vecteur lentiviral rapporteur exprimant une protéine fluorescente sous le contrôle d'un promoteur spécifique des motoneurones, et d'un anticorps monoclonal dirigé contre le récepteur aux neurotrophines p75. Cette double sélection a permis l'isolement efficace de motoneurones purs. En parallèle, la technologie iPSc a été utilisée pour établir des modèles cellulaires de la SLA. Des clones de cellules iPS ont été générés à partir d’un patient avec une forme familiale de la SLA présentant une mutation dans le gène TARDBP (codant pour une protéine de liaison à l’ADN, TDP-43) et un patient atteint d’une forme sporadique de SLA. Afin de valider nos modèles, nous avons recherché des phénotypes caractéristiques de la maladie au cours de la différenciation des iPSc : i) la formation d’agrégats cytoplasmiques, ii) des altérations de génération et de survie des motoneurones, iii) des défauts de croissance neuritique. / Amyotrophic lateral sclerosis (ALS) is a fatal adult-onset neurodegenerative disorder primarily affecting motor neurons. Mechanisms leading to motor neuron death in ALS are poorly understood mostly because of disease heterogeneity and lack of access to affected cells. The induced pluripotent stem cell (iPSc) technology provides the opportunity to obtain and study human motor neurons and is therefore a promising tool for ALS modeling.IPSc clones from control subjects were generated, and we compared several protocols in order to set up an efficient protocol for iPSc differentiation into motor neurons. The obtained cultures were heterogenous, comprising different neuron subtypes and neural precursors. To allow investigation of intrinsic disease mechanisms in ALS motor neurons, we developed a new technique to purify motor neurons by FACS sorting. By combining the use of a lentiviral vector expressing a fluorescent protein under control of a motoneuron-specific promoter and of a monoclonal antibody directed against the p75 neurotrophin receptor, isolation of exquisitely pure motor neurons was achieved. In parallel, iPSc technology was used to establish cellular models of ALS. IPSc were generated from one patient with familial ALS carrying a mutation in the TARDBP gene (encoding a DNA-binding protein, TDP-43) and one patient with sporadic ALS. To validate our models, we investigated characteristic disease phenotypes during iPSc differentiation, including i) cytoplasmic aggregate formation, ii) motor neuron generation and survival defects, iii) neurite growth alterations.
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Analysis of the structural integrity of the spinal cord in motor neuron diseases using a multi-parametric MRI approach / L’utilisation de l’approche IRM multiparamétrique pour l’analyse de l’intégrité structurale de la moelle épinière dans les maladies du motoneuroneEl Mendili, Mohamed-Mounir 13 December 2016 (has links)
Les pathologies du motoneurone sont caractérisées par une atteinte progressive des motoneurones au niveau de la corne antérieur de la moelle épinière. Au delà de cette susceptibilité anatomique commune, qui est responsable d’une atteinte motrice progressive et diffuse dans ces pathologies, d’autres systèmes neurologiques sont touchés. La dégénérescence du faisceau corticospinal est une caractéristique classique dans la sclérose latérale amyotrophique, qui est la maladie du motoneurone la plus commune chez l’adulte. Cependant, il est de plus en plus reconnu que la SLA est une maladie multisystémique. En particulier, une atteinte précoce du système sensoriel a été démontrée dans la modèle animal de la SLA ainsi que dans l’amyotrophie spinal liée à la mutation du gène SMN1 (survival motor neuron 1 en anglais). Chez les patients, l’imagerie par résonance magnétique (IRM) a émergé comme l’approche la plus performant à l’étage cérébral, permettant d’extraire des indices quantitatifs sur la perte neuronale, la dégénérescence axonale et la démyélinisation dans les pathologies neurodégénératives. Cependant, l’investigation de l’étage médullaire dans ces pathologies est difficile à mener à cause des nombreux défis techniques et méthodologiques que représente l’IRM de la moelle épinière.L’objectif de ce projet de thèse a été d’utiliser l’approche IRM multiparamétrique au niveau de la moelle épinière pour analyser les structures de la matière grise et blanche qui sont atteintes dans deux des pathologies du motoneurone les plus répondues, c’est-à-dire la SLA et la SMA, leurs altérations au cours du temps et leurs corrélations fonctionnelles avec les données cliniques et électrophysiologiques. / Degenerative motor neuron diseases (MND) are characterized by a progressive dysfunction and loss of ventral horn motor neurons of the spinal grey matter. Beyond this common anatomical susceptibility, which is responsible for a progressive and diffuse weakness, other neurological systems are also impaired. The corticospinal tract (CST) degeneration is a classical feature of amyotrophic lateral sclerosis (ALS), which is the most common adult onset motor neuron disease, but a more widespread multisystem involvement is now well recognized. In particular, early sensory system involvement has been demonstrated in animal models of ALS and also of survival motor neuron 1 gene linked spinal muscular atrophy (SMN1-linked SMA). In human patients, magnetic resonance imaging (MRI) has emerged as the most powerful approach at the brain level to extract quantitative data on neuronal loss, axonal degeneration and demyelination in degenerative conditions. Studies at the spinal cord levels are scarce mainly because of technical and methodological difficulties. The objective of the present thesis project was to use a multi-parametric MRI approach at the spinal cord level to analyze grey and white matter structures that are impaired in two most common MND, i.e. ALS and SMN1-linked SMA, their temporal alterations during the disease course and the functional correlates, as assessed by clinical and electrophysiological examinations.
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Speech intelligibility and marital communication in Motor Neuron DiseaseJoubert, Karin 01 March 2010 (has links)
The onset of a progressive, fatal illness such as Motor Neuron Disease (MND) inevitably results in physical and communication disabilities that impinge on the individuals’ ability to remain functionally independent. The loss of speech as a result of dysarthria, a motor speech disorder, is one of the most profound changes that the person with MND will experience. The decline in the individuals’ speech intelligibility, that negatively influences communication effectiveness, implies that in 80% of cases alternative and augmentative communication (AAC) strategies are required to support the daily communication needs of individuals with MND. The dyadic nature of chronic illness implies that multiple aspects of one of the most important adult relationships, marriage, will be affected. Roles and responsibilities performed by each member of the couple will continually change as the disease progresses. The emotional trauma of adjusting to the unavoidable alteration in their relationship elicits strong emotions such as guilt, anger and frustration. Communication is one of the most constructive ways of dealing with these emotions. The ability of spouses to convey their innermost thoughts, feelings and intimacy through communicative interaction is vitally important in marital communication. The aim of this study was to compare how persons with MND and their spouses perceive changes in their marital communication in relation to the deteriorating speech of persons with MND. Fourteen couples divided into two participant groups, persons with MND and spouses, participated in this non-experimental correlational research study. Data was collected during three visits at six-monthly intervals over a 12 month period. At each of these visits both participant groups completed a variety of objective and subjective measures, of which twenty percent were interrated by independent raters. Results confirmed the inevitable decline in speech intelligibility of persons with MND across the disease progression. The persons with MND did not report a change in their perception of marital communication although their spouses indicated a statistically significant decrease between the first and last visits. Interestingly, there was no statistically significant relationship between the deteriorating speech of persons with MND and the couples’ perception of marital communication, confirming that marital communication was not influenced by decreased speech intelligibility. / Thesis (PhD)--University of Pretoria, 2010. / Centre for Augmentative and Alternative Communication (CAAC) / unrestricted
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Fiber Scaffolds of Poly (glycerol-dodecanedioate) and its Derivative via Electrospinning for Neural Tissue EngineeringDai, Xizi 27 March 2015 (has links)
Peripheral nerves have demonstrated the ability to bridge gaps of up to 6 mm. Peripheral Nerve System injury sites beyond this range need autograft or allograft surgery. Central Nerve System cells do not allow spontaneous regeneration due to the intrinsic environmental inhibition. Although stem cell therapy seems to be a promising approach towards nerve repair, it is essential to use the distinct three-dimensional architecture of a cell scaffold with proper biomolecule embedding in order to ensure that the local environment can be controlled well enough for growth and survival. Many approaches have been developed for the fabrication of 3D scaffolds, and more recently, fiber-based scaffolds produced via the electrospinning have been garnering increasing interest, as it offers the opportunity for control over fiber composition, as well as fiber mesh porosity using a relatively simple experimental setup. All these attributes make electrospun fibers a new class of promising scaffolds for neural tissue engineering. Therefore, the purpose of this doctoral study is to investigate the use of the novel material PGD and its derivative PGDF for obtaining fiber scaffolds using the electrospinning. The performance of these scaffolds, combined with neural lineage cells derived from ESCs, was evaluated by the dissolvability test, Raman spectroscopy, cell viability assay, real time PCR, Immunocytochemistry, extracellular electrophysiology, etc. The newly designed collector makes it possible to easily obtain fibers with adequate length and integrity. The utilization of a solvent like ethanol and water for electrospinning of fibrous scaffolds provides a potentially less toxic and more biocompatible fabrication method. Cell viability testing demonstrated that the addition of gelatin leads to significant improvement of cell proliferation on the scaffolds. Both real time PCR and Immunocytochemistry analysis indicated that motor neuron differentiation was achieved through the high motor neuron gene expression using the metabolites approach. The addition of Fumaric acid into fiber scaffolds further promoted the differentiation. Based on the results, this newly fabricated electrospun fiber scaffold, combined with neural lineage cells, provides a potential alternate strategy for nerve injury repair.
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