In cells from sick hearts, these channels often don't inactivate properly, allowing for excess sodium entry and a build - up of calcium, which ultimately
promotes abnormal heart rate (arrhythmia) and symptoms of heart failure.
• Keeping
abnormal proteins from building up and potentially shutting down major organs (
heart, liver and nervous system, to name a few) • Protecting the brain's functions of learning and memory against neurotransmitter toxicity • Activating or increasing the activity of proteins that
promote the initial growth, maintenance and survival of brain neurons • Enhancing the movement of proteins, lipids and other cell parts through the cytoplasm of cell bodies.