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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

Mechanisms of ß-Amyloid Clearance by Anti-Aß Antibody Therapy

Wilcock, Donna Marie 21 January 2004 (has links)
Alzheimers disease (AD) is defined as a progressive neurodegenerative disorder that gradually destroys a persons memory and ability to learn. There are three pathological hallmarks of the disease which are necessary for diagnosis of AD, these are; extracellular amyloid plaques composed of [beta]-amyloid (A[beta]) protein, intracellular neurofibrillary tangles and neuronal loss. Amyloid plaques exist as both compact deposits which stain with Congo red and more numerous diffuse deposits. Active immunization against A[beta] 1-42 or passive immunization with monoclonal anti-A[beta] antibodies reduces amyloid deposition and improves cognition in APP transgenic mice. Over several studies of active immunization in APP+PS1 transgenic mice we showed a strong correlation between reduction of compact amyloid deposits and the degree of microglial activation suggesting a potential role of microglia in the removal of A[beta]. Injection of anti-A[beta] antibodies into the frontal cortex and hippocampus of aged APP transgenic mice revealed an early phase of A[beta] removal which was removal of only diffuse amyloid deposits with no associated activation of microglia. A later phase was the removal of compact amyloid deposits. This was associated with significant activation of microglia. Prevention of this microglial activation by anti-A[beta] F(ab)2 fragments or its inhibition by dexamethasone also precluded the removal of compact amyloid deposits but did not affect the removal of the diffuse deposits. Systemic injection of anti-A[beta] antibodies weekly over a period of 1, 2, 3 and 5 months transiently activated microglia associated with the removal of compact amyloid deposits and elevated plasma A[beta], suggesting a peripheral mechanism contributes to removal of brain A[beta]. This systemic administration also dramatically improved cognitive performance in the Y-maze and in the radial-arm water maze. These studies also showed a significant increase in vascular amyloid dependent on the number of antibody injections the mice received. Associated with this increase in vascular amyloid was a dramatic increase in the numbers of microhemorrhages in the brain. Despite this pathology the mice showed cognitive improvement with the treatment. These effects could have major ramifications in humans and should be further investigated prior to any human clinical trials.
22

Alzheimer's Disease Classification using K-OPLS and MRI

Falahati Asrami, Farshad January 2012 (has links)
In this thesis, we have used the kernel based orthogonal projection to latent structures (K-OPLS) method to discriminate between Alzheimer's Disease patients (AD) and healthy control subjects (CTL), and to predict conversion from mild cognitive impairment (MCI) to AD. In this regard three cohorts were used to create two different datasets; a small dataset including 63 subjects based on the Alzheimer’s Research Trust (ART) cohort and a large dataset including 1074 subjects combining the AddNeuroMed (ANM) and the Alzheimer’s Disease Neuroimaging Initiative (ADNI) cohorts. In the ART dataset, 34 regional cortical thickness measures and 21 volumetric measures from MRI in addition to 3 metabolite ratios from MRS, altogether 58 variables obtained for 28 AD and 35 CTL subjects. Three different K-OPLS models were created based on MRI and MRS measures and their combination. Combining the MRI and the MRS measures significantly improved the discriminant power resulting in a sensitivity of 96.4% and a specificity of 97.1%. In the combined dataset (ADNI and AddNeuroMed), the Freesurfer pipeline was utilized to extract 34 regional cortical thickness measures and 23 volumetric measures from MRI scans of 295 AD, 335 CTL and 444 MCI subjects. The classification of AD and CTL subjects using the K-OPLS model resulted in a high sensitivity of 85.8% and a specificity of 91.3%. Subsequently, the K-OPLS model was used to prospectively predict conversion from MCI to AD, according to the one year follow up diagnosis. As a result, 78.3% of the MCI converters were classified as AD-like and 57.5% of the MCI non-converters were classified as control-like. Furthermore, an age correction method was proposed to remove the effect of age as a confounding factor. The age correction method successfully removed the age-related changes of the data. Also, the age correction method slightly improved the performance regarding to classification and prediction. This resulted in that 82.1% of the MCI converters were correctly classified. All analyses were performed using 7-fold cross validation. The K-OPLS method shows strong potential for classification of AD and CTL, and for prediction of MCI conversion.
23

Studies of unspecific interaction between the Aβ antibody 6E10 and blood coagulation protein factor X

Karlsson, Cecilia January 2012 (has links)
Alzheimer’s disease is neurodegenerative with amyloid plaque and neurofibrillary tangles as pathological hallmarks. The most abundant component in the amyloid plaque is the amyloid-β (Aβ) peptide, with presence of both isoform Aβ40 and Aβ42. In immunological methods studying the Aβ peptide a specific monoclonal antibody, 6E10, is routinly being used. In this master thesis work unspecific binding of 6E10 antibody to the blood coagulating protein factor X has been investigated. Factor X is a protein in the blood coagulation cascade where it forms protein complex that activates thrombin. Non-hemostatic functions with connections to nerves and Aβ peptide are also known. Studies with Western blot show clear binding of 6E10 to denatured factor X. Interaction studies with ELISA gives uncertain results, where binding is found but no clear binding curve is obtained. Studies with native factor X in real time measurements with SPR gave no binding at all. These results suggest binding to denatured factor X. Immunohistochemistry studies of colocalisation of factor X and Aβ peptide gave clear evidence that factor X and Aβ are found near each other in mouse brain tissue. Factor X is located outside the blood vessels and Aβ is located at the inside.
24

Design and Characterisation of Multifunctional Tools for the Elucidation of the Cu+ Chemistry in Alzheimer`s Disease

Rittmeier, Markus 05 February 2013 (has links)
No description available.
25

Assessing Olfactory Learning and Memory in the 5XFAD Mouse Model of Alzheimer’s Disease

Roddick, Kyle 24 July 2012 (has links)
Using an operant-olfactometer, the long term learning and memory, executive function, olfactory sensitivity, and working memory of the 5XFAD mouse model of Alzheimer’s disease was assessed. Six month old male and female 5XFAD and wildtype mice were tested. No deficits were found on an olfactory discrimination task or a reversal learning task. Female and transgenic mice performed better than male and wildtype mice on the higher odour concentrations, but not the lower concentrations, of the sensitivity task, suggesting differences in learning rate or maximum performance on the task, but not olfactory detection. This study demonstrated for the first time that mice are able to learn an olfactory delayed matching to sample task with delays up to 30 seconds long. Female mice showed higher levels of performance on the matching to sample task than male mice, indicative of better working memory.
26

Cellular level/distribution of γ-secretase subunit nicastrin and its modulator p23 in the brain

Kodam, Anitha Unknown Date
No description available.
27

Characterisation of a mouse model of chronic cerebral hypoperfusion and its application to investigating the impact of hypoperfusion on the development of Alzheimer's disease

Coltman, Robin Bruce January 2012 (has links)
The integrity of brain white matter is vital for the interneuronal signalling between distinct brain regions required for normal cognitive function. White matter integrity is compromised with ageing and could contribute to age-related cognitive decline. Chronic cerebral hypoperfusion is thought to underlie the development of white matter pathology and cognitive changes, often seen in the elderly. Additionally, the development of regional hypoperfusion and white matter damage are thought to be early events in Alzheimer’s disease (AD) pathogenesis. This thesis set out to test the hypothesis that chronic cerebral hypoperfusion underlies the development of white matter pathology and cognitive decline and also that chronic cerebral hypoperfusion causes the development of Ab pathology in AD. The first aim was to investigate the impact of hypoperfusion on the development of white matter damage and different aspects of cognition in a mouse model of chronic cerebral hypoperfusion. Two studies were undertaken to address this. The first study examined the temporal development of pathology following hypoperfusion induced by bilateral carotid artery stenosis (BCAS) using microcoils Hypoperfusion was induced in wild type (WT) mice and the pathological changes examined at one week, two weeks, one month and two months. Hypoperfused animals developed a diffuse and widespread white matter pathology, present from one week, which occurred predominantly in the myelin component of white matter; this was accompanied by minimal axonal damage. A second study examined the impact of hypoperfusion on different aspects of spatial memory and further investigated pathological changes in the model at one and two months. Behavioural testing revealed a significant impairment in spatial working memory but not episodic memory or spatial reference memory in hypoperfused animals. In the same mice, pathological assessment indicated that there was a significant increase in levels of myelin damage and elevated levels of microglial activation as compared to shams. These results demonstrate that modest reductions in cerebral blood flow are sufficient to cause the development of white matter damage and the development of cognitive deficits. The second aim was to investigate the impact of hypoperfusion on the development of white matter and amyloid pathology in a mouse model (3xTg-AD) of AD. To address this, using 2 different sizes of microcoils (0.18mm and 0.16mm internal diameter) BCAS of varying severities was induced in 3xTg-AD mice and white matter and Ab pathology were assessed at one month. Circle of Willis (CoW) architecture was also compared between WT and 3xTg-AD mice. Overall white matter pathology was not exacerbated in experimental 3xTg-AD mice with BCAS induced by 0.18mm coils. However with a greater level of stenosis (0.16mm coil) ischaemic damage to neuronal perikarya was present in most experimental animals. In addition to ischaemic damage, localised areas of severe white matter pathology were also observed in conjunction with subtle changes to white matter Ab levels. Hypoperfusion did not impact on the development of intraneuronal Ab pathology, other than in the presence of ischaemic damage when levels were reduced. Comparison of CoW architecture between WT and 3xTg-AD mice revealed strain specific differences in the presence and morphology of the posterior communicating artery which may explain the lack of pathology in 3xTg-AD mice as compared to WT following BCAS induced using 0.18mm dia. microcoils. The third aim was to investigate whether white matter protein composition changed with age and also whether ageing conferred increased vulnerability to hypoperfusion. To address this, white matter protein levels were compared between young (3-4 months) and old (12-13 months) 3xTg-AD mice. White matter pathology was compared between sham and hypoperfused animals in the aged cohort. Levels of myelin basic protein and 2', 3'-cyclic nucleotide 3'- phosphodiesterase were found to be significantly increased whilst levels of myelin associated glycoprotein were significantly reduced with ageing. These results suggest that changes in myelin protein composition may contribute to the development of age related white matter pathology. White matter pathology was not exacerbated in aged hypoperfused animals following one month of hypoperfusion as compared to shams. The results presented within the thesis demonstrate that chronic cerebral hypoperfusion precipitates the development of selective white matter damage and impacts on cognition. Also it has been shown that where hypoperfusion is severe enough to cause ischaemic damage to neuronal perikarya and localised areas of severe white matter pathology, alterations in white matter Ab levels can occur. Hypoperfusion does not impact on APP processing or on intraneuronal levels of APP or Ab, other than in the presence of ischaemic damage to neuronal perikarya, when levels are reduced. These findings highlight the importance of early intervention strategies in the treatment of vascular risk factors which can lead to hypoperfusion and the development of white matter damage and a decline in cognitive function in later life. These findings also suggest that repair or prevention of white matter damage may be an appropriate strategy for the attenuation of cognitive decline following onset of hypoperfusion. This thesis also highlights some of the limitations of animal models of human disease.
28

A LIFE SPAN APPROACH TO THE RELATIONSHIP BETWEEN CHOLESTEROL, LATE ONSET ALZHEIMER’S DISEASE, AND COGNITIVE FUNCTIONING AMONG OLDER ADULTS

Downer, Brian 01 January 2014 (has links)
There is evidence that cholesterol presents an important risk factor for Alzheimer’s disease (AD), but the direction of this relationship is modified by age. High cholesterol during midlife and low cholesterol during late life are both associated with an increased risk for AD. This dissertation research engaged a life span approach to study the relationship between cholesterol, AD and cognitive functioning among older adults. The purpose of this research was to determine if trajectories of cholesterol from midlife through late life differ according to AD status and if these trajectories are associated with cognitive functioning during old age. This research employed a secondary analysis of cognitive, phenotypic and genetic data collected from subjects of the Framingham Heart Study (FHS) Original and Offspring Cohorts. Aim One involved creating three summary scores of the FHS neuropsychological battery. ROC analysis was used to determine which score best differentiated between cognitively normal, impaired and dementia subjects. Aim Two used generalized additive mixed models to examine trajectories of total, HDL and total/HDL cholesterol ratio according to AD status in the Original Cohort. Aim Three used mixed-effects models to examine the relationship between subject-specific trajectories of total cholesterol and cognition during old age. Aim One determined that a summary score that provided equal weight to each assessment in the FHS neuropsychological battery best differentiates between subjects classified as cognitively normal, cognitively impaired and dementia. The findings from Aim Two indicated that there are subtle differences in the longitudinal trajectories of total, HDL and total/HDL ratio according to AD status. The findings from Aim Three provide limited evidence for a relationship between subject-specific trajectories of total cholesterol and cognitive functioning later in life. Older adults in the highest quartile for cognitive functioning had lower total cholesterol at approximately 55 years of age, but there were no differences in the mean trajectories of total cholesterol according to cognitive functioning later in life. The findings from this research suggest that older adults with high cognitive functioning have lower total cholesterol during midlife, but life span cholesterol trajectories do not appear to be associated with AD status or cognitive function.
29

Neuroinflammation in Alzheimer's disease : Focus on NF-κB and C/EBP transcription factors

Ramberg, Veronica January 2011 (has links)
Alzheimer's disease (AD) is the most common form of dementia among elderly. The disease is characterized by amyloid-β (Aβ) plaques, neurofibrillary tangles, loss of synapses and neurons and chronic neuroinflammation. The significance of neuroinflammatory processes in disease on-set and progression has been debated since activated microglia and reactive astrocytes have been attributed both protective and damaging properties. However, patients systematically treated with anti-inflammatory drugs have been shown to develop AD to a lesser extent than average. This indicates an important role of neuroinflammation in AD. This thesis focuses on two inflammatory related transcription factors, nuclear factor κB (NF-κB) and CCAAT/enhancer binding protein (C/EBP). Both NF-κB and C/EBP are known regulators of many pro-inflammatory genes and may during certain circumstances dimerize with each other. In paper I we use a new strategy to inhibit NF-κB DNA binding activity in primary astro-microglial cell cultures treated with Aβ and IL-1β. By coupling the NF-κB decoy to a transport peptide both concentration and incubation time can be shortened in comparison to previous studies. Moreover, using the same in vitro model in paper II and III, we show members of the C/EBP family to be dysregulated during AD mimicking conditions. Additional focus was directed towards C/EBPδ, which was shown to respond differently to oligomeric and fibrillar forms of Aβ. Results were also confirmed in vivo using an AD mouse model characterized by high levels of fibrillar Aβ deposits. Finally, in order to get further insight in neurodegenerative processes, induced by Aβ or microglial activation, we present in paper IV a new set of anchored sensors for detection of locally activated caspases in neuronal cells. By anchoring the sensors to tau they become less dynamic and caspase activation can be detected early on in the apoptotic process, in a spatio-temporal and reproducible manner.
30

Evaluating the Need for Early Stage Alzheimer's Disease Patient-Caregiver Dyad Support Groups in Rural Washington

McPherson, Julie Ann January 2015 (has links)
Advances in diagnostic tools and disease slowing treatments have led to an increased focus on diagnosing Alzheimer's disease (AD) during the early stages of the disease. Early diagnosis of AD improves quality of life for patients and caregivers by allowing for participation in disease slowing interventions. However, early diagnosis of AD may have unintentional psychological and social consequences for patients and caregivers. To combat these potential consequences, it is important that psychosocial interventions, such as support groups, are available at the time of diagnosis. A review of literature demonstrated that early stage AD patients and their informal caregivers benefited from support groups attended by both patients and caregivers, referred to as early stage AD patient-caregiver dyad (PCD) support groups. However, there is a gap in knowledge regarding the need for early stage AD PCD support groups in rural areas. The purpose of this study was to evaluate the need for early stage AD PCD support groups in rural WA.A needs assessment survey was developed and distributed for a period of one month to four clinics and one senior center in five rural WA towns. Twelve informal caregivers and five community members who did not have AD or care for someone with early stage AD were included in data analysis. Results demonstrated that participants lacked information about early stage AD PCD support groups and barriers to accessing these groups. Even with a lack of information about early stage AD PCD support groups, a majority of participants indicated that these groups would address their many unmet needs, and 52.9% of participants were likely to participate in early stage AD PCD support groups. Further studies should be performed to capture the need for early stage AD PCD support groups in rural WA.

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