⏳ Longevity Pathway Explorer
Explore the biological mechanisms of aging and how to slow them
🎯 Choose Your Learning Mode
🤔 What Is Longevity Science?
Longevity research studies the biological mechanisms of aging — telomere shortening, cellular senescence, mitochondrial dysfunction, and epigenetic changes. Key pathways like mTOR, AMPK, and Sirtuins act as master regulators. Interventions such as caloric restriction, senolytics, and NAD+ boosters show promise in extending healthy lifespan.
Why does this matter? Aging is the single greatest risk factor for chronic disease. Understanding the molecular pathways that drive aging opens the door to interventions that could add decades of healthy life. From rapamycin to epigenetic reprogramming, the science of longevity is rapidly moving from lab to clinic.
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Telomeres
Chromosome caps that shorten with age
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Senolytics
Clearing zombie senescent cells
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mTOR / AMPK
Nutrient-sensing master switches
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NAD+ Therapy
Restoring the coenzyme of youth
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Caloric Restriction
The oldest longevity intervention
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Epigenetic Clock
Measuring true biological age
🚀 Quick Start
⚙️ Basic Settings
📋 Event Log
Simulation idle. Press Start to begin aging...
Biological Age: 40.0
Telomere Length: 8.0 kb
Senescent Cells: 5.0%
NAD+ Level: 100%
Inflammation: 1.0
Projected Lifespan: 82 yr