5 Must Know Facts For Your Next Test

1. There are two main types of diabetes: Type 1, which is an autoimmune condition where the body attacks insulin-producing cells, and Type 2, which typically develops due to insulin resistance and is often linked to obesity.
2. Diabetes can lead to serious complications such as cardiovascular disease, nerve damage, kidney failure, and vision loss if not managed properly.
3. In type 2 diabetes, lifestyle factors like diet and physical activity play a significant role in its development and management.
4. The regulation of metabolic pathways in diabetes involves key hormones like insulin and glucagon that manage glucose production in the liver and uptake in muscles and fat tissue.
5. Continuous monitoring of blood sugar levels is essential for individuals with diabetes to avoid hyperglycemia (high blood sugar) or hypoglycemia (low blood sugar) episodes.

Review Questions

• How does the lack of insulin production or action impact metabolic pathways related to glucose metabolism in diabetes?
  • In diabetes, particularly Type 1, the absence of insulin production disrupts the normal metabolic pathways that facilitate glucose uptake in cells. Without insulin, glucose remains in the bloodstream instead of being used for energy or stored as glycogen in the liver and muscle. This leads to elevated blood sugar levels and impacts other metabolic pathways, resulting in increased fat breakdown and altered protein metabolism.
• Discuss how insulin resistance in Type 2 diabetes affects overall energy metabolism and what regulatory mechanisms might be impaired.
  • In Type 2 diabetes, insulin resistance means that cells do not respond effectively to insulin. This leads to decreased glucose uptake by tissues, causing an excess of glucose in the bloodstream. The body attempts to compensate by producing more insulin; however, over time this can exhaust pancreatic function. Impaired regulation of metabolic pathways occurs as lipid metabolism increases due to elevated free fatty acids from adipose tissue, which can worsen insulin resistance and create a cycle of metabolic dysfunction.
• Evaluate the long-term implications of uncontrolled diabetes on metabolic pathways and how they relate to chronic complications.
  • Uncontrolled diabetes can severely disrupt multiple metabolic pathways over time, leading to chronic complications such as neuropathy, retinopathy, and cardiovascular diseases. Elevated glucose levels cause glycation of proteins and lipids, which can alter their functions. This affects tissue repair mechanisms and contributes to inflammatory processes. Furthermore, long-term high blood sugar can lead to increased oxidative stress, resulting in cellular damage that perpetuates the complications associated with diabetes.

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