Akademik Veri Yönetim Sistemi
INTERNATIONAL ISTANBUL MODERN SCIENTIFIC RESEARCH CONGRESS–V, İstanbul, Türkiye, 9 - 11 Temmuz 2023, ss.248-250, (Özet Bildiri)
ASSOCIATION BETWEEN ALZHEIMER DISEASE AND DIABETES: A REVIEW
OF LITERATURE
ABSTRACT
Alzheimer's disease is a neurodegenerative disease with a loss of cognitive function.
Cognitive problems such as neuronal damage and destruction and memory loss occur in the
early stages of the disease. Diabetes is a complex metabolic disorder characterized by
increased blood glucose levels or impaired insulin response due to altered insulin production
by pancreatic cells. It has been reported to cause structural and functional changes in the
central nervous system and abnormalities in peripheral organs in diabetic disease. For this
reason, it was assumed that there may be a relationship between diabetes and
neurodegenerative diseases. Studies have suggested that diabetes can accelerate the onset of
Alzheimer's disease and also affect cognitive functions. Although many studies on this
subject, the relationship between these two diseases is still not fully elucidated. Some
suggested mechanisms include insulin resistance, hyperglycemia, oxidative stress,
neuroinflammation, amyloid-beta deposition, and blood-brain barrier dysfunction. Among
them, it is a remarkable hypothesis that insulin resistance and hyperinsulinemia may increase
amyloid beta deposition in the brain and trigger neurodegeneration. In addition, studies have
emphasized that insulin deficiency can increase oxidative stress in cells by inhibiting glucose
uptake in neuronal cells. In addition, vascular factors, neurovascular disorders, and
inflammation are accepted as common points of both diseases. In our presentation, which we
created with a literature review, the triggering aspect of diabetes pathogenesis on Alzheimer's
disease will be mentioned, and the striking points between the common pathophysiological
mechanisms of these two diseases, which have a complex and multifactorial etiology, will be
emphasized. Given these, together with the fact that both disorders are highly heterogeneous,
the link between the two is likely to result from a combination of different molecular, cellular,
and systemic factors that are difficult to resolve. Understanding the relationship between
insulin and the brain in the pathogenesis of diabetes will help to understand the main cause of
Alzheimer's disease. In addition, further immunohistochemical studies using insulin receptor
markers in observing pathological changes in diabetic neuropathy will contribute to the
pathogenesis of Alzheimer's. We believe that further experimental and clinical studies at the
molecular level on insulin receptors and their functions in the brain may contribute to the
literature on the treatment of neurological diseases such as Alzheimer's.