The science of stem cells and longevity
Your body's natural regenerative power declines with age
Preserving your stem cells today means having access to your body's most potent regenerative resources tomorrow, when medical science advances to utilize them fully.
The stem cell aging curve
Why timing matters in preservation
Birth and childhood
Adult reproductive years
Aging and elderly
Shaped by natural selection
Outside of evolutionary selective pressure
Stem cell quantity and quality decline significantly after reproductive age. Evolution optimized our biology for reproduction and early survival, not for maintaining regenerative capacity into late life. Banking your cells now preserves them at their peak potency.
Why preservation matters
Cellular decline is inevitable
As we age, our stem cells accumulate damage, reduce in number, and lose their regenerative potential. By age 50, you have significantly fewer viable stem cells than you did at 25. This decline affects your body's ability to heal, regenerate tissue, and fight disease.
Future medicine needs young cells
Regenerative medicine is advancing rapidly, with new stem cell therapies emerging for conditions from heart disease to neurodegeneration. These treatments work best with young, healthy cells. Banking now gives you access to your cells at their biological peak.
A one-time investment
Unlike other health interventions that require ongoing effort, stem cell banking is a one-time procedure. Your cells are collected once, processed, and cryopreserved for decades—potentially for your entire lifetime—ready when you need them.
Research and clinical applications
Orthopedic & Joint Health
Stem cell therapy shows promise for treating osteoarthritis, cartilage damage, and degenerative joint conditions. Clinical trials demonstrate improved function and pain reduction.
Cardiovascular Disease
Research explores stem cells for repairing heart tissue after heart attacks, treating heart failure, and improving vascular health. Early studies show encouraging results.
Neurological Conditions
Ongoing studies investigate stem cell applications for Parkinson's disease, Alzheimer's, stroke recovery, and spinal cord injuries. The field is rapidly evolving.
The collection process
Collection
A simple outpatient procedure extracts bone marrow or adipose tissue containing your stem cells. Performed by experienced physicians in our network of trusted clinics.
Processing
Your sample is processed in an FDA-registered laboratory to isolate and concentrate viable stem cells, ensuring maximum quality and viability for long-term storage.
Storage
Cryopreserved at -196°C in secure biorepositories with 24/7 monitoring, your cells remain viable for decades. Retrieved and shipped when you need them for treatment.
The science of cryopreservation
Vitrification technology
Our cryopreservation process uses controlled-rate freezing and cryoprotectants to prevent ice crystal formation, which can damage cell membranes. This ensures your cells remain intact and viable during decades of storage.
Quality assurance
Every sample undergoes rigorous testing for cell count, viability, and sterility. We maintain strict chain-of-custody protocols and comply with all FDA regulations for cellular storage facilities.
Long-term viability
Scientific studies demonstrate that properly cryopreserved cells can remain viable indefinitely. Samples stored for over 30 years have been successfully thawed and shown to maintain their regenerative capabilities.
Ready to preserve your future?
Join thousands who have already taken the first step toward a healthier, longer life through stem cell preservation.