Spelling suggestions: "subject:"alzheimer's's disease.""
231 |
Characterization of microglial Rab7 knockout on amyloid pathology in the 5xFAD mouse model of Alzheimer’s diseaseKoch, Beate Maren Erika 20 November 2018 (has links)
No description available.
|
232 |
Role of the N-Terminal Hydrophilic Region of Amyloid Beta Peptide in Amyloidogenesis, Membrane Interaction and Toxicity Associated with Alzheimer’s DiseaseUnknown Date (has links)
Alzheimer’s disease (AD) is a deleterious neurodegenerative disease caused in major part by the aberrant processing and accumulation of amyloid beta peptides. In this dissertation, we systematically investigated the role of N-terminal region (NTR) residues of amyloid (1-40) (Aβ40) peptide in amyloidogenesis, lipid bilayer membrane interaction and damage, as well as neurotoxicity. Herein, we investigated the role of NTR residues on the aggregation and amyloid fibril formation process, to gain understanding on the electrostatic and hydrophobic constituents of the mechanism. This was achieved by substituting specific charged residues located in the NTR of Aβ40 and investigating their effects through a variety of techniques. We also investigated the role of NTR charged residues in their interaction with supported phospholipid bilayer membranes through the use of Quartz Crystal Microbalance with Dissipation (QCM-D) monitoring to gain insight on the mechanistic details of the interaction. To further understand the implications of substituting charged NTR residues on membrane interaction, pore formation and damage, we utilized a carboxyfluorescein dye leakage assay to quantify the membrane damage caused by Aβ40 and the NTR mutants. We also performed neurotoxicity assay with SH-SY5Y neuroblastoma cells to shed light on the effects of NTR substitutions on cellular toxicity. Finally, we synthesized a polymer, trimethyl chitosan (TMC), and utilized it as a polyelectrolyte monitor of electrostatic interactions occurring between TMC and the NTR of Aβ40. Our results demonstrate that the NTR charged residues of Aβ40 contribute significantly to the aggregation process, amyloidogenesis, and phospholipid membrane interaction and perturbation by means of electrostatic, thermodynamic and hydrophobic forces. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2019. / FAU Electronic Theses and Dissertations Collection
|
233 |
STREAMLINING CLINICAL DETECTION OF ALZHEIMER’S DISEASE USING ELECTRONIC HEALTH RECORDS AND MACHINE LEARNING TECHNIQUESUnknown Date (has links)
Alzheimer’s disease is typically detected using a combination of cognitive-behavioral assessment exams and interviews of both the patient and a family member or caregiver, both administered and interpreted by a trained physician. This procedure, while standard in medical practice, can be time consuming and expensive for both the patient and the diagnostician especially because proper training is required to interpret the collected information and determine an appropriate diagnosis. The use of machine learning techniques to augment diagnostic procedures has been previously examined in limited capacity but to date no research examines real-world medical applications of predictive analytics for health records and cognitive exam scores. This dissertation seeks to examine the efficacy of detecting cognitive impairment due to Alzheimer’s disease using machine learning, including multi-modal neural network architectures, with a real-world clinical dataset used to determine the accuracy and applicability of the generated models. An in-depth analysis of each type of data (e.g. cognitive exams, questionnaires, demographics) as well as the cognitive domains examined (e.g. memory, attention, language) is performed to identify the most useful targets, with cognitive exams and questionnaires being found to be the most useful features and short-term memory, attention, and language found to be the most important cognitive domains. In an effort to reduce medical costs and streamline procedures, optimally predictive and efficient groups of features were identified and selected, with the best performing and economical group containing only three questions and one cognitive exam component, producing an accuracy of 85%. The most effective diagnostic scoring procedure was examined, with simple threshold counting based on medical documentation being identified as the most useful. Overall predictive analysis found that Alzheimer’s disease can be detected most accurately using a bimodal multi-input neural network model using separated cognitive domains and questionnaires, with a detection accuracy of 88% using the real-world testing set, and that the technique of analyzing domains separately serves to significantly improve model efficacy compared to models that combine them. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2019. / FAU Electronic Theses and Dissertations Collection
|
234 |
Proteolysis of CX3CL1 Impacts CX3CR1 Signaling and Therapeutic Benefits in a Tauopathy ModelFinneran, Dylan John 15 November 2018 (has links)
Alzheimer’s disease (AD) is a progressive, neurodegenerative disorder and the most common form of dementia. The hallmark pathologies of AD are extracellular aggregates of amyloid-beta, intracellular aggregates of microtubule associated protein tau and increased neuroinflammation. Current therapeutics offer only symptomatic relief and clinical trials investigating therapeutic benefits of non-steroidal anti-inflammatory drugs have yielded no positive results. Therefore, recent work has focused on immunomodulators, such as CD200 and fractalkine, as potential therapeutic targets for AD.
Fractalkine (CX3CL1; FKN) is expressed as a transmembrane protein with an N-terminal chemokine domain followed by a long, mucin-like stalk. FKN can signal as a membrane-bound protein or, upon cleavage, as a soluble ligand (sFKN). Upon binding its receptor, FKN reduces expression of pro-inflammatory genes in activated microglia.
Disrupting FKN signaling has been shown to exacerbate neurodegeneration in a number or neurodegenerative diseases. Relevant to this study, there have been conflicting reports on how FKN signaling affects AD pathology and whether a soluble FKN is beneficial or not. Here, we examine the ability of soluble FKN over expression to impact tauopathy and the resulting cognitive deficits in the rTg4510 mouse model of tauopathy, focusing on cognitive improvement after the onset of tau deposition. Furthermore, we explore the functional activity of proteolytic fragments of FKN on activated microglia in vitro to rectify the contradictory findings in the literature.
We observed that sFKN over expression can significantly reduce both soluble and insoluble phospho-tau in both a preventative and an early interventional study design. However, in animals with significant pathology and neurodegeneration we did not observe an impact of sFKN over expression on tau pathology. Interestingly, in these late stage animals we did observe an improvement in spatial learning and memory as well as a reduction in hyperactivity. This suggests that earlier intervention would likely be most beneficial in reducing tau pathology but in late stage AD FKN signaling can still have benefits on cognition, likely due to reductions in the inflammatory milieu.
Current publications suggest that different proteolytic fragments of FKN may have different functional signaling. Here we demonstrate that the this may be due to differences in receptor binding. sFKN (which includes the mucin-like stalk) exhibited a lower EC50 than the ckFKN (soluble chemokine domain), which leads to reduced functional efficacy of ckFKN at low concentrations. More interestingly, we also observed that high concentrations of FKN, regardless of cleavage variant, is ineffective at reducing pro-inflammatory activation of microglial and may in fact elicit a proinflammatory response. We hypothesize that FKN may signal through an alternative receptor at high concentrations, suggesting an as yet unidentified signaling pathway for FKN. Furthermore, we show that the ckFKN does not rescue pathology in the rTg4510 mouse, as sFKN does. These data may clarify conflicts in the literature and demonstrate that care must be taken with respect to in vitro and in vivo studies using FKN.
|
235 |
Targeting the Hsp90/Aha1 Complex for the Treatment of TauopathiesShelton, Lindsey Brooke 16 April 2018 (has links)
The microtubule associated protein, tau, is involved in regulating microtubule stability and axonal transport. When tau becomes hyperphosphorylated it can disassociate from the microtubules and start to aggregate. These tau aggregates are the hallmarks of many diseases known as tauopathies. The heat shock protein 90 kDa (Hsp90) chaperone network is highly involved in modulating client proteins, including tau. However, during aging and disease the Hsp90 chaperone network becomes highly imbalanced with some Hsp90/co-chaperone complexes increasing, while others are repressed. This imbalance in Hsp90/co-chaperone complexes could result in a worsening of tau pathology in Alzheimer’s disease.
Hsp90 inhibition has been of interest as a potential therapeutic for tauopathies for many years. However, issues with toxicity and bioavailability have dampened enthusiasm for Hsp90 as a viable therapeutic target. Hsp90 co-chaperones are currently being investigated for as potential therapeutic targets for tauopathies, with the hope that targeting co-chaperones will lead to more specific targeting without toxicity. One co-chaperone that has the potential to become a therapeutic target for tauopathies is the activator of Hsp90 ATPase homolog 1 (Aha1).
Aha1 is the only known stimulator of the ATPase of Hsp90, so targeting this particular co-chaperone could potentially mimic the effects of Hsp90 inhibition with more specificity. In this study we found that Aha1 enhanced Hsp90-mediated tau aggregation and increased insoluble tau accumulation in vitro. Additionally, a novel Aha1 inhibitor was able to reduce the formation of insoluble tau in vitro. We also investigated the effects of Aha1 overexpression in the rTg4510 mouse model, which is a tauopathy model that stably overexpresses the P301L mutation of tau. Overexpression of Aha1 in these mice increased the accumulation of insoluble and oligomeric tau. Furthermore, Aha1 overexpression led to cognitive deficits and neurotoxicity. Due to the effect of Aha1 overexpression on tau we wanted to investigate the effects of Aha1 knock-down in the rTg4510 mice. Incredibly, Aha1 knock-down led to reductions in pathological Gallyas silver positive tau tangles and was able to rescue neuronal loss. Overall, this work highlights Aha1 as an important regulator of tau pathology through Hsp90. The Hsp90/Aha1 complex could provide a novel therapeutic target for the treatment of tauopathies.
|
236 |
Coping strategies employed by in-home family caregivers of Alzheimer's patientsReisler, Steven E. (Steven Elliot) January 1994 (has links)
No description available.
|
237 |
In vivo neurotoxicity of Aβ and metal ions : relevance for Alzheimer's diseaseBishop, Glenda M. (Glenda Maree), 1976- January 2001 (has links)
Abstract not available
|
238 |
Quinolinic acid and its effect on the astrocyte with relevance to the pathogenesis of Alzheimer??s diseaseTing, Ka Ka, Clinical School - St Vincent's Hospital, Faculty of Medicine, UNSW January 2008 (has links)
There is evidence that the excitotoxin quinolinic acid (QUIN) synthesized through the kynurenine pathway (KP) by activated microglia may play a role in the pathogenesis of several major neuroinflammatory diseases and more particularly in Alzheimer??s disease (AD). The hypothesis of this project is QUIN affects the function and morphology of astrocytes. In this study I used human foetal astrocytes stimulated with AD associated cytokines including IFN-gamma, TNF-alpha, TGF-alpha and different concentrations of QUIN ranging from low physiological to high excitotoxic concentrations. I found that QUIN induces IL-1beta expression in human astrocytes and subsequently, contribute to the inflammatory cascade that is present in AD pathology. Glial fibrillary acid protein (GFAP) and vimentin protein expression were complementary in expression to each other after 24 hr stimulation with different QUIN doses. However, there were marked increases in GFAP levels and reduction in vimentin levels compared to controls with QUIN treatment indicating that QUIN can trigger astrogliosis in human astrocytes. Glutamine synthetase (GS) activity was used as a functional metabolic test for astrocytes and I found a dose-dependent inhibition of GS activity by QUIN. This inhibition was inversely correlated with iNOS expression whereby reduced GS activity is accompanied with an increase expression of iNOS in human astrocytes. These results suggest that reduction in GS activity can lead to accumulation of extracellular glutamate then leading to exacerbated excitotoxicity via NMDA receptor over-activation and ultimately neuronal death. PCR array results showed that at least four different pathways were activated with pathological concentration of QUIN including p38 MAPK that is associated with pro-inflammatory cytokine production, ERK/MAPK growth and differentiation that can modulate structural proteins, mitochondrial-induced apoptotic cascade and cell cycle control pathway. QUIN-induced astrogliosis and excitotoxicity could lead to glial scar formation and prevention of axonal growth thus exacerbation of neurodegeneration via synaptosomal NMDA receptor over-activation. All together, this study showed that, in the context of AD, QUIN is an important factor for astroglial activation, dysregulation and death, which can be mediated by the previously mentioned pathways.
|
239 |
Pain perception and processing in ageing and Alzheimer's diseaseCole, Leonie J. January 2008 (has links)
The prevalence of chronic pain is known to increase with advancing age, with over 50% of community dwelling older adults (aged 65 years and over) and up to 80% of those residing in nursing homes estimated to be suffering some form of persistent or recurring pain complaint. In addition to a greater likelihood of pain, advancing age is associated with increased reports of pain interference. It is possible to ascribe age-related changes in pain report and impact to increased disease prevalence and severity in older people. However, there is also evidence that ageing has effects on pain perception, central pain processing, and plasticity of pain responses that are not explained by co-morbid disease. / The increased prevalence of chronic pain in older adults represents a major public health concern. As a result of increased life expectancy and the post-World War II baby boom, there will be a dramatic change in the demographic structure of our population over the coming decades, with older adults representing the fastest-growing segment of our communities. The proportion of the total population over the age of 65 in Australia has risen from 9% in 1976, to 12% in 2001, and is predicted to reach 16% by the year 2016. Pain that is undetected or under-treated can adversely affect quality of life for older adults, leading to diminished mood, impaired cognition, behavioural problems, as well as increased functional dependence. This in turn contributes to greater demands for daily personal care and a resultant increase in health-care costs. / Pain management is a particularly salient issue in the case of older adults with dementia, who are at increased risk of undetected pain on account of impaired cognition and communication skills. Indeed, clinical reports show that patients with Alzheimer’s disease (AD) are routinely administered fewer pain-relief medications compared with their cognitively-intact peers. Understandably, reports of reduced analgesia in AD have sparked considerable research interest, and over recent years there has been a marked increase in the number of studies aimed at better characterising the experience of pain in patients with AD. However, despite these efforts, the effects of neurodegeneration on pain processing, and the specific ways in which the disease process impacts on brain responses to noxious stimulation and the ensuing experience of pain have not been previously determined. / Improved management of pain is fundamental to the clinical care of older adults, particularly those with dementia. However, the potential to adequately counteract pro-nociceptive processes and facilitate endogenous inhibitory mechanisms in the treatment of ongoing pain in older adults will only become possible once the effects of ageing and age-related neurodegeneration on central pain processing are identified and described. The overarching goal of this thesis was therefore to improve current understanding of the ways in which normal ageing and Alzheimer’s disease impact on the perception and central nervous system processing of pain. The findings of this thesis provide valuable new insights into the impact of ageing and AD on the central mechanisms contributing to pain perception, and may therefore contribute toward better management and treatment of pain in this vulnerable and rapidly growing sector of our community. / Thesis outline: Chapter 2 provides a review of the background literature and rationale for the thesis. The chapter begins with a discussion of current understanding of pain as a multidimensional phenomenon shaped by sensory, emotional and cognitive components, and leads into a description of neural mechanisms of nociception, as well as the supraspinal processes involved in the elaboration of nociceptive signals into these aspects of pain. The impact of ageing on the structure and function of central nervous system regions underlying these processes are discussed, along with the findings from previous clinical and empirical data which suggest age-related changes in pain perception. Current understanding of the neuropathological and clinical aspects of AD is reviewed, with particular emphasis on potential ways in which the disease may impact on central nociceptive processing and the behavioural response to pain. This is followed by a review of the previous clinical and empirical literature examining pain perception in AD. Finally, the aims of the current thesis are outlined. / Chapter 3 describes the general methods which were employed in the subsequent empirical chapters in order to address the aims of the thesis. The equipment and psychophysical procedures used to assess pain perception in healthy young and older adults and patients with AD are described. The basic principals of magnetic resonance imaging (MRI) are then outlined, and the utility of structural and functional MRI for assessing age-related and disease-related changes to brain regions involved in pain perception and processing are discussed. The empirical studies which were undertaken to identify the impact of ageing and AD on central pain processing are presented in the next three chapters. / Chapter 4 begins with psychophysical studies comparing sensory and emotional responses to pain in healthy young and older adults, and follows with MRI investigations of age-related differences in brain volumetry and pain-related brain activity. Studies of pain sensitivity and pain-evoked brain activity in patients with AD compared with age-matched controls are presented in Chapter 5. Following on from these findings of AD-related differences in pain-evoked brain activation, the study described in Chapter 6 used functional connectivity analysis in order to assess the impact of AD on the functional integration of brain regions underlying the sensory, emotional, and cognitive aspects of pain. / The key findings presented in the preceding three chapters are summarized in a general discussion in Chapter 7. The implications of the findings, in terms of the clinical management of pain in older adults with and without Alzheimer’s disease are discussed. The opportunity is also taken to discuss some of the limitations of the present research, and finally, recommendations are made for future research directions.
|
240 |
Magnetic resonance elastography neuronal and muscular studies, and a novel acoustic shear wave generator /Chan, Cho-cheong. January 2007 (has links)
Thesis (Ph. D.)--University of Hong Kong, 2007. / Title proper from title frame. Also available in printed format.
|
Page generated in 0.0607 seconds