Research shows that redox signaling molecules play a crucial role in how our cells communicate, adapt to stress, and maintain function as we age
Scientific findings on redox signaling and aging
NIH/PMC Studies
Research shows redox signaling molecules act as messengers that coordinate cellular responses to stress and damage
Mechanism
Through oxidation of specific cysteine residues in proteins
Research-documented patterns in cellular adaptation throughout life
Research indicates that cellular signaling capacity changes throughout life. This visualization shows typical patterns observed in aging studies.
Research Basis: Studies show that cellular adaptive responses to stress typically peak in youth and gradually decline with age.
Peak redox response capacity
Gradual decline in adaptive responses
Marked decrease in redox homeostasis
Significantly compromised cellular function
ASEA provides molecules that are native to your body's cellular communication system
Supporting the molecules your cells use to communicate and coordinate responses to daily stresses
Helping maintain the delicate balance between oxidation and reduction that cells need for optimal function
Supporting the activation of cellular pathways that protect against oxidative stress and damage
Supporting your body's natural mechanisms for maintaining cellular health throughout the aging process
Your cells naturally produce redox signaling molecules to maintain health and function. Research shows these molecules decline with age, potentially affecting your cellular communication and adaptive responses.