Epigenomic Age & Organ Age Test

Biological Age & Aging Rate Analysis

The Epigenomic Age & Organ Age Test is an advanced longevity diagnostic designed to measure how fast your body is actually aging at a biological level.

While chronological age simply reflects the number of years you have lived, biological age reflects how your cells, tissues, and organs are functioning internally. Two individuals of the same chronological age can have dramatically different biological aging patterns depending on their genetics, lifestyle, metabolic health, and environmental exposures.

This test uses state-of-the-art epigenomic and metabolic biomarker analysis to assess cellular aging, organ system health, oxidative stress, and metabolic resilience.

At The Longevity Lab, this test forms a core component of our advanced performance program & precision longevity framework, helping identify the biological systems that are aging faster than expected and guiding targeted interventions to slow or reverse those processes.

What This Test Evaluates

The Epigenomic Age panel combines multiple advanced biomarkers and aging clocks to provide a comprehensive assessment of biological aging and metabolic resilience.

DNA Methylation & Epigenetic Age

DNA methylation patterns are one of the most accurate biological indicators of aging.
The test analyzes methylation patterns across the genome to estimate true biological age and compare it with chronological age.

Key epigenetic aging algorithms include:

• OMICmAge –> A high-precision epigenetic aging clock measuring cellular aging patterns
• SYMPHONY Age--> Multi-omic aging estimation integrating metabolic and genomic signals
• Dunedin Pace of Aging –> Measures the rate at which aging is currently occurring, rather than just total age

Together, these markers provide insight into both biological age and the speed of aging progression.

Organ System Aging Analysis

The test evaluates how different physiological systems are aging relative to chronological age.

This includes insights into:

• Cardiometabolic system aging
• Liver metabolic resilience
• Immune and inflammatory aging
• Neurological aging patterns

This allows identification of which organ systems may require targeted support.

Telomere Length

Telomeres are protective caps at the ends of chromosomes that shorten with cellular replication and stress.

Shortened telomeres are associated with:

• Accelerated aging
• Increased disease risk
• Reduced cellular repair capacity

Telomere analysis provides an additional marker of cellular longevity and regenerative potential.

Oxidative Stress & Cellular Damage

Lipid Peroxidation

This marker measures oxidative damage to cellular membranes, which is a key driver of biological aging and chronic disease.

Elevated lipid peroxidation reflects:

• Increased oxidative stress
• Cellular damage
• Mitochondrial dysfunction

Cellular Energy & NAD+ Metabolism

NAD+ metabolism markers evaluate pathways involved in:

• Mitochondrial function
• DNA repair
• Cellular energy production
• Longevity pathways

Declining NAD+ activity is strongly associated with metabolic dysfunction and accelerated aging.

Why This Test Matters

Aging is not a single process, it is the result of multiple biological systems gradually losing resilience.

By measuring epigenetic signals, oxidative stress, metabolic pathways, and cellular aging markers, this test provides a comprehensive map of your biological aging process.

This allows for precision longevity strategies focused on:

• Metabolic optimization
• Mitochondrial health
• Inflammation control
• Hormonal balance
• Cellular repair pathways

Who This Test Is Designed For

This test is ideal for individuals interested in data-driven longevity and performance optimization, including:

• Individuals focused on healthspan and biological age reversal
• High performers seeking advanced health insights
• Clients participating in longevity or metabolic optimization programs
• Those interested in tracking the impact of lifestyle, nutrition, and interventions on aging

Sample Required

A blood sample collected from the comfort of your home by our lab partners. 

Turnaround Time

Results are typically available 6–8 weeks after sample submission, due to the complexity of genomic and epigenomic analysis.

Important Note

This test is part of the Longevity Lab’s advanced longevity diagnostics framework and is most valuable when interpreted alongside:

• Blood biomarkers
• Hormonal analysis
• Gut health assessment
  

to build a comprehensive, personalized longevity protocol.