What is the fundamental pathophysiology of sickle cell disease?

• A. A genetic mutation leading to abnormal hemoglobin production
• B. A viral infection affecting red blood cells
• C. An autoimmune response against red blood cells
• D. A deficiency of iron in the body

Answer: (A)

The fundamental pathophysiology of sickle cell disease is rooted in a genetic mutation that alters the structure of hemoglobin, specifically leading to the production of hemoglobin S (HbS) instead of normal hemoglobin A. This mutation occurs in the HBB gene located on chromosome 11, which encodes the beta chains of hemoglobin. When oxygen levels are low, hemoglobin S can polymerize and distort red blood cells into a characteristic sickle shape, making them less flexible and more likely to obstruct small blood vessels. This can lead to various complications, including pain crises, increased risk of infection, and organ damage due to decreased blood flow.

While other answer options touch on important concepts related to blood disorders, they do not accurately describe the specific mechanism underlying sickle cell disease. The disease's primary issue is not linked to infections, autoimmune responses, or iron deficiency, but rather to the inherent genetic defect that causes the abnormal hemoglobin production.