Chronic Diabetes Complications Introduction

Chronic complications of diabetes

• Macrovascular complications: IHD, stroke
• Diabetes is a risk factor in atherosclerosis

• Microvascular complications (diabetes specific - not seen in the abscence of hyperglycaemia):
• Neuropathy
• Nephropathy
• Retinopathy

• Cognitive dysfunction/dementia

• Erectile dysfunction

• Psychiatric complications

Screening for complications

• Digital retinal screening

• Foot risk assessment

• Urine albumin-to-creatinine ratio and serum creatinine

Pathophysiology of microvascular complications

• In normal patients glucose is completely oxidized via glycolysis and the TCA cycle

• When faced with excess glucose, glycolytic flux is high but mitochondria can't keep up

• Alternative glucose metabolism pathways are used which, in excess, can be harmful

Formation of advanced glycation end products (AGE)

• When a wide variety of proteins are exposed to increase glucose concentrations, glucose binds irreversibly to the protein to form AGE

• AGEs cause tissue injury and inflammation via stimulation of pro-inflammatory factors, such as complement and cytokines

Increased flux of glucose through the sorbitol-polyol pathway

• Glucose + aldose reductase → sorbitol

• Sorbitol and fructose accumulate which cause changes in vascular permeability (osmotic damage), cell proliferation and capillary structure via stimulation of protein kinase C and TGF-β

Increased flux of glucose through other pathways

• NADPH oxidase generated via pentose phosphate pathway - generates ROS

• UDP-GlcNAC generated via hexosamine pathway - causes inflammation and fibrosis

• Diacyl glycerol activates protein kinase C - protein kinase C can activate NF-KB which is thought to be active in the kidneys causing nephropathy