G6pd !new! Guide

Glucose-6-phosphate dehydrogenase (G6PD) deficiency is the most common enzymatic disorder in humans, affecting approximately 400 million people worldwide. While most individuals with G6PD deficiency lead normal, healthy lives, the condition makes them susceptible to acute hemolytic anemia when exposed to certain "triggers" like fava beans, specific medications, or infections. The Biology of G6PD

Without enough G6PD, red blood cells become vulnerable to oxidative stress. When stress occurs, the cells break down faster than the body can replace them, leading to . Genetic Inheritance and Risks When stress occurs, the cells break down faster

The G6PD enzyme is essential for the , a metabolic process that produces NADPH . In red blood cells, which lack mitochondria, G6PD is the only source of NADPH. This molecule is critical because it helps produce glutathione , an antioxidant that protects red blood cells from damage caused by reactive oxygen species (ROS)—essentially "rust" for the cell. This molecule is critical because it helps produce

G6PD deficiency is an , meaning the gene is located on the X chromosome. When stress occurs