Well-Aging
Gene Mapping & Optimization
01
Mitochondrial Function
Epigenetic mechanisms regulate genes involved in mitochondrial function and energy metabolism. Changes in epigenetic marks can affect mitochondrial biogenesis, oxidative stress response, and mitochondrial DNA integrity, which are important for maintaining cellular health and resilience against aging-related stressors.
03
Cognitive Function
Epigenetic mechanisms such as DNA methylation and histone modifications can influence which genes are turned on or off in response to environmental factors like exercise, nutrition, and stress. This regulation can affect traits relevant to athletic performance such as muscle growth, oxygen uptake, and energy metabolism.
02
Inflammation and Immune Function
Epigenetic changes contribute to the regulation of inflammation and immune function, which play crucial roles in aging and age-related diseases. Alterations in epigenetic marks in genes involved in inflammatory pathways can influence immune response and contribute to chronic low-grade inflammation, a hallmark of aging.
04
Cellular Senescence
Epigenetic modifications contribute to cellular senescence, the process by which cells stop dividing and enter a state of permanent growth arrest. Changes in DNA methylation patterns and histone modifications can regulate the expression of genes involved in senescence pathways, influencing the rate of cellular aging and the development of age-related diseases.
Adding Quality To Your Years
The Wired BioHealth Epigenetic Panel opens avenues for developing personalized strategies to promote healthy aging, approach aging preventatively, and improve overall quality of life in older adults through genetic mapping.
Once genes with coding errors are identified, Wired BioHealth gives you the recommendations to literally turn them off in order to optimize that gene's function. This creates a personalized approach for well-aging by adding not just quantity, but quality years, to your life.