Early detection of Alzheimer's disease in experimental and natural animal models using novel biologics

  • Umma Habiba

Western Sydney University thesis: Doctoral thesis

Abstract

According to the World Alzheimer report published in 2020, 50 million people are currently living with dementia and this number is predicted to rise to 150 million in 2050. Alzheimer's disease (AD) is the most common form of dementia (60% - 70% of cases). Early and accurate diagnosis of AD is a major goal in order to reduce the impact of dementia and also represents an urgent unmet medical need globally. Canine Cognitive Dysfunction (CCD) in aged dogs is a progressive neurodegenerative disorder exhibiting gradual decline of cognitive function and memory loss similar to human AD. In parallel with progressive amyloid beta (AB) neuropathology, aged dogs display progressive decline in measures of learning and memory. Of importance, for both AD in human and CCD in dogs, the abnormal accumulation of amyloid beta plaques (ABp) in the brain is one of the major pathological lesions associated with this devastating disorder. AB is subdivided into three major assemblies, including monomers, oligomers, and fibrils of which AB soluble oligomers (ABo) are the most neurotoxic to neurons. ABo is believed to trigger the pathophysiology of AD and is normally detected two decades before clinical onset of the disease. Similarly, aged dogs affected with CCD display cognitive decline which occurs prior to accumulation of ABp in the canine brain, suggesting that earlier assembly states of AB (e.g., oligomers) may be the neurotoxic species in dogs, as described for human AD. This thesis particularly focused on the early detection of ABo with the aim of developing a cost-effective diagnostic test for AD before neuropathological and clinical deficits have ensued. Also, to provide an insight to develop the dog as a natural translational model of AD. Accumulating evidence described in my thesis suggested that retinal changes and pathophysiological processes could provide valuable insights into early diagnosis of AD. This thesis provides a strong basis to further validate dogs as a natural AD model where all the AD neuropathological hallmarks have been observed in the brain and retina. Finally, such a model will certainly facilitate the development and clinical applications of an easily accessible, inexpensive, and non-invasive retinal imaging of preclinical AD diagnostic platform to predict and diagnose early stages of AD and monitor disease therapies.
Date of Award2021
Original languageEnglish

Keywords

  • Alzheimer's disease
  • diagnosis
  • research

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