One of the primary hypotheses explaining the development of Alzheimer's disease is the amyloid hypothesis. This hypothesis is the most widely recognized theory about Alzheimer's disease and is focused on the formation of senile plaques. Other theories include the Tau hypothesis, which focuses on the role of tau protein in the disease, cholinergic neuron damage hypothesis, oxidative stress hypothesis, inflammation hypothesis, and calcium homeostasis hypothesis, which suggests that Aβ can disrupt calcium levels. Additionally, the presenilin hypothesis suggests that dysfunction of presenilin 1 (PS1) contributes to neurodegeneration and dementia in Alzheimer's disease. These hypotheses collectively provide various perspectives on the complex underlying mechanisms of the disease.

Sources

Alzheimer's Disease: An Overview of Major Hypotheses and Therapeutic Options in Nanotechnology - PMC - NCBIAlzheimer's disease hypothesis and related therapies - PMC - NCBIVascular Hypothesis of Alzheimer Disease - AHA JournalsDiscussing major hypotheses of Alzheimer's disease - News MedicalAlzheimer's disease hypothesis and related therapies - Translational NeurodegenerationHistory and progress of hypotheses and clinical trials for Alzheimer's disease - Nature

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