Global ETD Search

71	MEASUREMENT OF TRANSITION METALS IN THE RODENT BRAIN USING X-RAY FLUORESCENCE AND NEUTRON ACTIVATION ANALYSIS Moldovan, Nataliya 10 1900 (has links) <p>Transition metals, such as iron, manganese, and copper are essential in the development and function of biological systems. However, disrupted levels of transition metals are highly cytotoxic, and metal homeostasis is strictly maintained in cells under normal conditions. The neuropathology of several brain disorders, such as Alzheimer’s disease and Parkinson’s disease has been linked to altered metal levels. This work focused on the measurement of iron, manganese, and copper, with the aim of better elucidating their role in brain disease.</p> <p>Two experiments were carried out in C57Bl/6 mice looking at metal homeostasis: <em>1.</em> following manganese injections typically administered in manganese-enhanced MRI animal studies, and <em>2.</em> following copper deficiency in a cuprizone model of demyelination. Metal measurements were made in the brain and visceral organs using X-ray fluorescence to measure iron and copper concentrations, and neutron activation analysis to measure manganese concentrations.</p> <p>In the MEMRI study in this work, in addition to the expected manganese concentration increases in brain regions, a statistically significant decrease in iron concentration in the thalamus was found. This change in iron levels in the thalamus following manganese injections should serve as a caution that care should be taken when interpreting signal changes in brain regions.</p> <p>The cuprizone study in this thesis confirmed that copper levels are reduced following cuprizone administration. Surprisingly, manganese concentrations were significantly higher in several brain regions that have demyelination in this model, but not iron or copper. The mechanism of cuprizone toxicity was related to manganese neurotoxicity that may contribute to demyelination.</p> / Master of Science (MSc) transition metal homeostasis cuprizone manganese enhanced MRI manganese overexposure demyelination x-ray fluorescence neutron activation analysis Medical Biophysics Medical Biophysics
72	Grey matter pathology in multiple sclerosis Albert, Monika 27 October 2005 (has links) No description available. 500 Naturwissenschaften multiple sclerosis cortical lesion demyelination remyelination inflammation remodelling 44.47 44.45 MED 531: Neuroanatomie Neurophysiologie Neuropathologie MED 393: Histopathologie {Medizin}
73	Damage and Repair in Experimental Cortical Demyelination / Damage and Repair in Experimental Cortical Demyelination Garea Rodríguez, Enrique 09 December 2009 (has links) No description available. 500 Naturwissenschaften Multiple Sklerose Demyelinisierung Remyelinisierung multiple sclerosis demyelination remyelination 42.15 WH000
74	Development and application of quantitative MRI methods for assessing white matter integrity in the mouse brain Thiessen, Jonathan 28 September 2012 (has links) Healthy white matter in the brain and spinal cord is composed primarily of myelinated axons and glial cells. Myelinated axons transfer information between the peripheral nervous system and the central nervous system (CNS) as well as between centres within the CNS. Demyelination, a hallmark of neurodegenerative autoimmune diseases such as multiple sclerosis (MS), can cause nerve damage and degrade signal propagation. Magnetic resonance imaging (MRI) methods thought to assess myelin integrity and the structural integrity of axons are improving both the diagnosis and understanding of white matter diseases such as MS. Current methods, however, are sensitive to many different pathologies, making the interpretation of individual MRI results difficult. For this dissertation, several quantitative MRI methods were developed and compared, including single component T1 and T2 relaxometry, multicomponent T2 relaxometry, diffusion tensor imaging (DTI), and quantitative magnetization transfer imaging (qMTI). These methods were tested on agarose gels, fixed rat spinal cords, healthy control mice, and the cuprizone mouse model of demyelination. Quantitative MRI measurements were correlated to ultrastructural measurements of white matter to determine the influence myelin content and axonal structure have on different MRI methods. Cellular distributions measured in electron micrographs of the corpus callosum correlated strongly to several different quantitative MRI metrics. The largest Spearman correlation coefficient varied depending on cellular type: longitudinal relaxation rates (RA/T1) vs. the myelinated axon fraction ( r = 0.90/-0.90), the qMTI-derived bound pool fraction (f) vs. the myelin sheath fraction ( r = 0.93), and the DTI-derived axial diffusivity vs. the non-myelinated cell fraction (r = 0.92). Using Pearson’s correlation coefficient, f was strongly correlated to the myelin sheath fraction (r = 0.98) with a linear equation predicting myelin content (5.37f −0.25). Of the calculated MRI metrics, f was the strongest indicator of myelin content while longitudinal relaxation rates and diffusivity measurements were the strongest indicators of changes in tissue structure. Multiparametric MRI measurements of relaxation, diffusion, and magnetization transfer give a more complete picture of white matter integrity. magnetic resonance imaging diffusion tensor imaging magnetization transfer imaging relaxometry demyelination cuprizone corpus callosum myelin electron microscopy multiple sclerosis white matter image processing
75	Development and application of quantitative MRI methods for assessing white matter integrity in the mouse brain Thiessen, Jonathan 28 September 2012 (has links) Healthy white matter in the brain and spinal cord is composed primarily of myelinated axons and glial cells. Myelinated axons transfer information between the peripheral nervous system and the central nervous system (CNS) as well as between centres within the CNS. Demyelination, a hallmark of neurodegenerative autoimmune diseases such as multiple sclerosis (MS), can cause nerve damage and degrade signal propagation. Magnetic resonance imaging (MRI) methods thought to assess myelin integrity and the structural integrity of axons are improving both the diagnosis and understanding of white matter diseases such as MS. Current methods, however, are sensitive to many different pathologies, making the interpretation of individual MRI results difficult. For this dissertation, several quantitative MRI methods were developed and compared, including single component T1 and T2 relaxometry, multicomponent T2 relaxometry, diffusion tensor imaging (DTI), and quantitative magnetization transfer imaging (qMTI). These methods were tested on agarose gels, fixed rat spinal cords, healthy control mice, and the cuprizone mouse model of demyelination. Quantitative MRI measurements were correlated to ultrastructural measurements of white matter to determine the influence myelin content and axonal structure have on different MRI methods. Cellular distributions measured in electron micrographs of the corpus callosum correlated strongly to several different quantitative MRI metrics. The largest Spearman correlation coefficient varied depending on cellular type: longitudinal relaxation rates (RA/T1) vs. the myelinated axon fraction ( r = 0.90/-0.90), the qMTI-derived bound pool fraction (f) vs. the myelin sheath fraction ( r = 0.93), and the DTI-derived axial diffusivity vs. the non-myelinated cell fraction (r = 0.92). Using Pearson’s correlation coefficient, f was strongly correlated to the myelin sheath fraction (r = 0.98) with a linear equation predicting myelin content (5.37f −0.25). Of the calculated MRI metrics, f was the strongest indicator of myelin content while longitudinal relaxation rates and diffusivity measurements were the strongest indicators of changes in tissue structure. Multiparametric MRI measurements of relaxation, diffusion, and magnetization transfer give a more complete picture of white matter integrity. magnetic resonance imaging diffusion tensor imaging magnetization transfer imaging relaxometry demyelination cuprizone corpus callosum myelin electron microscopy multiple sclerosis white matter image processing
76	Neuropatologia da cinomose canina / Neuropathology of canine distemper Silva, Marcia Cristina da 30 March 2009 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Canine distemper is one of the most prevalent viral diseases of dogs. Several cases are diagnosed in a daily basis in private practices and veterinary hospitals around the country. Most cases of neurological manifestation of canine distemper are fatal and the diagnosis confirmation by histopathology is often necessary. Canine distemper encephalitis is the main cause of death or reason for euthanasia in dogs necropsied at the Laboratório de Patologia Veterinária (LPV) of the Universidade Federal de Santa Maria (UFSM). Consequently the large number of canine distemper cases in the LPV-UFSM files prompted the performance of a retrospective study consisting of 620 neurologic cases of canine distemper which served as the basis for a prospective study on the neuro-histopathologic aspects of the disease. The current study was carried out to perform a detailed histopathologic investigation on the changes in the central nervous system (CNS) of dogs affect by canine distemper aiming to help students of veterinary pathology and veterinary pathologists in the correct diagnose of this disease. Seventy dogs necropsied at the LPV-UFSM and with diagnosis of canine distemper confirmed by the finding of characteristic inclusion bodies in the CNS were included in the study. In order to determine the prevalence of the lesions, several anatomical regions were selected from the brain and spinal cord; these sites were consistently microscopically examined in each case. Overall, most affected anatomical regions were, in decreasing order of frequency: cerebellum (91.4%), diencephalon (78.6%), frontal lobe (75.7%), pons (72.9%) and mesencephalon (70.0%). Demyelination was the most prevalent lesion; it was observed in 91.4% of the cases and was located mainly in the cerebellum (88.6%), pons (65.7%) and diencephalon (61.4%). The five structures most affected by demyelination were: roof of the fourth ventricle (68.6%), cerebellar folia (61.4%), cerebellar medulla (61.4%), cervical spinal cord (46.3%) and mesencephalic tegment (40.0%). Other lesions and their prevalence were non-suppurative encephalitis (70.0%), non-suppurative leptomeningitis (44.3%), non-suppurative myelitis (35.2%), encephalomalacia (31.4%), nonsuppurative myelitis (18.5%), laminar cortical necrosis (17.1%), myelomalacia (13.0%), nonsuppurative ependymitis (7.1%) and plexochoroiditis (1.4%). The occurrence of the inclusion bodies in the cells of the CNS was: astrocytes (82.8%), neurons (44.3%), gemistocytes (31.4%), ependymal cells (22.8%), meningothelial cells (4.3%) and cells of the choroids plexus (1.4%). / A cinomose é uma das doenças virais mais prevalentes em cães. Muitos cães são diagnosticados com a doença diariamente em clínicas e hospitais veterinários de todo o país. A forma neurológica da cinomose é fatal na grande maioria das vezes, e a confirmação do diagnóstico clínico através do exame histopatológico se faz necessária em muitos casos. A encefalite por cinomose representa a principal causa de morte ou razão para eutanásia de cães necropsiados no Laboratório de Patologia Veterinária (LPV) da Universidade Federal de Santa Maria (UFSM). Com isso, o grande número de casos de cinomose arquivados no LPVUFSM proporcionou a realização de um estudo retrospectivo de 620 casos da forma neurológica da doença que serviu como base para a realização de um estudo neurohistopatológico prospectivo. O presente estudo tem como objetivo realizar uma investigação histopatológica detalhada das alterações no sistema nervoso central (SNC) de cães com cinomose para auxiliar estudantes de patologia e patologistas no diagnóstico da doença. Para isso, foram selecionados 70 casos da forma neurológica da cinomose confirmada pelo achado dos corpúsculos de inclusão característicos no SNC em cães necropsiados no LPV-UFSM. Para determinar a prevalência das lesões, diversas regiões anatômicas do encéfalo e medula espinhal foram selecionadas e sistematicamente examinadas histologicamente em cada caso. As regiões anatômicas mais afetadas, em ordem decrescente, independentemente do tipo de lesão, foram: cerebelo (91,4%), diencéfalo (78,6%), lobo frontal (75,7%), ponte (72,9%) e mesencéfalo (70,0%). Desmielinização foi a lesão mais prevalente, observada em 91,4% dos casos, localizada principalmente no cerebelo (88,6%), ponte (65,7%) e diencéfalo (61,4%). As cinco estruturas anatômicas mais afetadas pela desmielinização foram: teto do quarto ventrículo (68,6%), folhas cerebelares (61,4%), substância medular do cerebelo (61,4%), medula espinhal cervical (46,3%) e tegmento mesencefálico (40,0%). A prevalência das outras lesões foi: encefalite não-supurativa (70,0%), leptomeningite não-supurativa (44,3%), mielite não-supurativa (35,2%), encefalomalacia (31,4%), meningomielite não-supurativa (18,5%), necrose laminar cortical (17,1%), mielomalacia (13,0%), ependimite não-supurativa (7,1%) e plexocoroidite não-supurativa (1,4%). A ocorrência dos corpúsculos de inclusão nas células do SNC foi: astrócitos (82,8%), neurônios (44,3%), gemistócitos (31,4%), células do epêndima (22,8%), células meningoteliais (4,3%) e células do plexo coróide (1,4%). Doenças de cães Doenças virais Cinomose Neuropatologia Desmielinização Encefalite Diseases of dogs Viral diseases Canine distemper Neuropathology Demyelination Encephalitis
77	Resposta astrocitária e oligodendroglial no tronco encefálico de ratos wistar imunossuprimidos e submetidos ao modelo desmielinizante do brometo de etídio / Astrocytic and oligodendroglial response of the brain stem of immunosuppressed wistar rats submitted to the ethidium bromide demyelinating model Sallis, Eliza Simone Viégas 31 August 2005 (has links) Brain stem remyelination following demyelination induced by ethidium bromide (EB) is carried out by oligodendrocytes and Schwann cells that invade the central nervous system when astrocytes are lost. Although oligodendrocyte remyelination is detected from 13 days onward within the lesions, the origin of the remyelinating cells is not known. To clarify oligodendrocyte origin as well as to observe astrocytic behaviour in normal (n=22) as well as immunosuppressed animals (n=22) adult Wistar rats were injected with EB in the basal cisterna. Wistar rats had an EB injection while treated with cyclophosphamide (astrocyte investigation, n=12) or cyclosporine A (oligodendrocyte study, n=10). Control animals had a single injection of 10 μl of 0.9% saline (n=16). For the investigation on astrocytes, the rats were killed at 1, 2, 3, 7, 14 and 21 days a.i. GFAP labelled astrocytes were conspicuous within the lesions and isomorphic gliosis was detected, more marked in those rats immunosuppressed with CY. Nonetheless a significant difference among the groups could not be established because of the mean deviations detected by the image studies. For the oligodendrocyte investigation the rats were killed at 15, 21 and 31 days a.i. Lesions of EB injected in normal and cyclosporine A-treated Wistar rats labelled positive for OSP (oligodendrocytes specific protein). This result points to mature oligodendrocytes as a source of remyelinating cells to restore the lost myelin sheaths after EB injection. The EB model of demyelination allowed the observation of the neuroglia in lesions where remyelination is made up by mature cells of the oligodendroglial lineage and where astrocytes respond selectively to immunosuppressive drugs that modify the inflammatory reaction induced by EB / Remielinização após desmielinização com brometo de etídio (BE) no tronco encefálico de ratos é realizada por oligodendrócitos e células de Schwann que invadem o tecido após a morte dos astrócitos. Embora a remielinização por oligodendrócitos seja detectada a partir dos 13 dias pós-intoxicação, a origem das células remielinizantes não é conhecida. Para esclarecer essa origem bem como o comportamento astrocitário em lesões induzidas pelo BE em ratos adultos normais (n=22) ou sob terapia imunomoduladora (n=22), ratos Wistar adultos receberam uma injeção de 10 μl de BE na cisterna basal. Ratos Wistar receberam a injeção de BE enquanto sob terapia imunossupressora com ciclofosfamida (estudo astrocitário) (n=12) ou ciclosporina-A (n=10) (estudo da oligodendróglia). Os animais controle receberam uma injeção de 10 μl 0.9% de solução salina (n=16). Para o estudo astrocitário, os animais foram sacrificados aos 1, 2, 3, 7, 14 e 21 dias pós-injeção de BE. Astrócitos foram marcados com GFAP (proteína glial fibrilar ácida) e foi detectada gliose isomórfica nas lesões, mais marcada naqueles animais tratados com ciclofosfamida (CY). Embora existisse diferença entre a marcação por GFAP nos ratos que receberam somente BE e os que receberam BE e CY, os desvios das médias obtidas através da análise de imagem, não permitiram uma conclusão sobre a significância dessa diferença. Os ratos do experimento sobre a oligodendróglia foram sacrificados aos 15, 21 e 31 dias p.i. do BE. Tecidos de ratos normais injetados com BE e ratos injetados e tratados com ciclosporina foram marcados com imunofluorescência (IF) para OSP (proteína específica do oligodendrócito) que marca células maduras da linhagem oligodendroglial. O resultado foi a marcação de células maduras que remielinizavam em áreas próximas ao tecido normal, mostrando oligodendrócitos maduros como fonte celular na reparação das bainhas perdidas. O modelo de desmielinização do BE permitiu estudar a atividade da neuróglia em lesões que foram remielinizadas por oligodendrócitos maduros e nas que os astrócitos responderam seletivamente a imunossupressores que interferem com a reação inflamatória dentro do tecido Desmielinização Remielinização Neuróglia Brometo de etídio GFAP OSP Ciclosporina A Ciclofosfamida Demyelination Remyelination Neuroglia GFAP OSP Ethidium bromide Cyclosporine A Cyclophosphamide
78	O modelo desmielinizante do brometo de etídio (be): estudos morfológicos em camundongos C57BL/6 normais e knockout para conexina 32 / Ethidium bromide (eb) demyelinating model: morphologic studies in C57BL/6 normal and CX 32 knockout mice Ramos, Adriano Tony 14 December 2007 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Light and ultraestructural changes of central and peripheral nervous system lesions in mice KO for connexin-32 and submitted to the ethidium bromide gliotoxic demyelinating model are described. Their KO condition was tested with PCR and a negative connexin-32 labelling was performed by immunofluorescence. The experimental animals were C57BL/6 normal mice and C57BL/6 KO for connexin-32. For all groups the animals were maintained in cages of 5 individuals within a temperature controlled room and had ration and filtered water ad libitum. A single local injection of either 0,1% ethidium bromide in normal saline (5 μl in the brainstem and 1 μl in the sciatic nerve) or normal saline was performed as described for Wistar rats. The injected mice were observed daily until euthanasia was performed at 24, 48 hours and 3, 7, 15, 21 and 30 days after injection. The mice were perfused through the heart with either neutral 10% formalin or 2,5% glutaraldehyde. Histochemical, immunohistochemical, immunofluorescence and transmission electron microscopic methods were used to analyze the development of the lesions after differentiated processing. Hematoxylin- eosine, luxol fast blue and toluidine blue methods and immunolabelling with anti-GFAP, anti-CNPase, anti-S100 protein and anti-OSP, anti Cx32 and anti Cx43 antibodies were used. Within the CNS the lesions showed an acute degenerative phase with disappearance of glial cells, and myelin sheaths were withdrawn by a scant number of macrophages. In KO mice some granulocytes were detected within the lesions in tight contact with decaying myelin sheaths. Remyelination was carried out by oligodendrocytes since no Schwann cells were seen during the regenerating process of KO mice. Occasional remyelinating Scwann cells were seen in normal mice. For the sciatic nerves, Schwann cells initially showed signs of intoxication and rejected their sheaths; after seven days, some thin newly formed myelin sheaths with uneven compaction and redundant loops (tomacula) were conspicuous. Mast cells degranulated or not were seen in all BE- induced lesions and after saline injection. It is concluded that the repair of the CNS demyelinated lesions differs from the observed in normal and immunosupressed rats because Schwann cells remyelination was absent; the absence of connexin-32 may have caused that absence. The regeneration of lost myelin sheaths within the PNS followed the pattern already reported for this model in other species. It is suggested that the absence of connexin-32 determined the different repair of the myelin sheaths within the CNS whereas for the PNS, the normal pattern of tissue response might be due to the early age of the injected mice. / São descritas as alterações de microscopia de luz e ultra-estruturais induzidas pelo brometo de etídio no sistema nervoso central e periférico de camundongos KO para conexina 32. O genótipo KO foi testado por PCR e confirmado por imunofluorescência negativa para conexina 32. Os animais dos experimentos foram camundongos C57BL-6 normais (controles) e KO para conexina 32. Todos os camundongos foram mantidos em gaiolas de 5 indivíduos em sala climatizada e receberam ração e água à vontade. Uma única injeção de BE 0,1% em salina 0,9% ou de salina 0,9% (5 μl na cisterna basal e 1μl no nervo ciático) foi realizada como descrita em ratos Wistar. Os camundongos eram observados diariamente até ser realizada a eutanásia às 24 e 48 h, 3, 7, 15, 21 e 30 dias após a injeção. Os camundongos foram perfundidos através do coração; um grupo com glutaraldeído 2,5% visando o processamento para microscopia eletrônica; um outro grupo com solução salina com EDTA e posterior fixação em metacarn para inclusão em parafina. As amostras incluídas em parafina foram analisadas através dos métodos de hematoxilina e eosina, luxol fast blue e azul de toluidina. Foram realizadas imunoistoquímica e imunofluorescência visando a marcação de GFAP, CNPase, OSP, S100, e Cx43 e Cx32, respectivamente. As lesões do SNC eram discretas e tiveram uma fase ativa com desaparecimento das células gliais; os debris celulares e de mielina foram retirados por um reduzido número de fagócitos. Nos camundongos KO foram vistos granulócitos em estreito contato com bainhas de mielina em degradação. A remielinização dos axônios desmielinizados foi realizada exclusivamente por oligodendrócitos nos camundongos KO; nos camundongos normais, ocasionais células de Schwann podiam ser encontradas remielinizando axônios do SNC. No nervo ciático, as células de Schwann intoxicadas rejeitaram seus internodos de mielina; após sete dias, finas bainhas reparadas eram encontradas, com compactação irregular da mielina e alças redundantes (tomacula). Mastócitos, desgranulados ou não, eram vistos nas lesões do BE e após a injeção de solução salina. Conclui-se que o reparo das lesões do SNC difere do observado em ratos normais e imunossuprimidos devido à ausência de remielinização por células de Schwann; a falta de expressão da Cx 32 e o tamanho reduzido das lesões podem ter contribuído para essa ausência. A regeneração das bainhas perdidas no SNP obedeceu ao padrão descrito para esse modelo em outras espécies. Sugere-se que a ausência da Cx 32 não afetou o reparo do SNP devido à idade precoce dos animais. Brometo de etídio Desmielinização Remielinização Conexina32 Knockout Histoquímica Imunoistoquímica Neuropatologia experimental Ethidium bromide Demyelination Remyelination Connexin 32 Knockout Histochemistry Imunohistochemistry Experimental neuropathology
79	Role of antibodies in autoimmunity of the central nervous system Cordero Gómez, César 29 October 2019 (has links) No description available. 570 Multiple sclerosis Central nervous system B cells antibodies isotype Fc-receptor CRISPR-Cas9 autoimmunity hybridoma technology demyelination Biologie (PPN619462639)
80	Apheresis therapy in immunopathologically classified multiple sclerosis patients Stork, Lidia 12 February 2020 (has links) No description available. 610 inflammatory demyelination Apheresis therapy multiple sclerosis immunopattern Medizin (PPN619874732)

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