The number and therapeutic quality of our cells diminishes with age.
Storing your Cellular Therapy “Cell-Based” today preserves them for future therapies that combat age-related disease, and perhaps aging itself.
Cellular therapy has the potential to be used in rejuvenation therapies in development. Storing your young cells for future reintroduction may help you live a healthier, longer life.
Bone marrow is a wellspring for cell-based that replenish your blood, bone, immune system, and other vital tissues. Research suggests the decline in the number and viability of these cells plays a role in the physical decline associated with aging.
The clinical use of bone marrow Cellular Therapy “Cell-based” is fast expanding. Your young Cellular Therapy “Cell-based” may be used to fight dozens of age-related diseases including heart disease, osteoarthritis, multiple sclerosis, kidney failure, stroke, autoimmune diseases, Parkinson's, Alzheimer's, and many more.
Young bone marrow Cellular Therapy “Cell-based” transplantation has been used to extend lifespan in mice; a technology that may translate to humans. To have access to young, genetically-matched cell-based in the future, store yours today.
Benefits of Cellular Therapy “Cell-based” Storage
The use of a patient’s own Cellular Therapy “Cell-based” for the treatment of age-related disease is expanding. Cellular Therapy “Cell-based” treatments in animals suggest that they may have the potential to increase lifespan as well.
However, as we age, our Cellular Therapy “Cell-based” decline in number and quality. Preserving your own Cellular Therapy “Cell-based” today for future reintroduction may help you live a healthier, longer life.
How Do Cellular Therapy “Cell-based” Age?
Like the car you drive, your Cellular Therapy “Cell-based” accumulate wear and tear over time. Storing your young Cellular Therapy “Cell-based” now can ensure they remain undamaged even as the years pass.
Each time a cell divides, DNA may be damaged as it is replicated and split between the two new cells. Older cells have not only gone through more divisions, but they produce less helicase proteins that protect DNA from damage during the replication process.
Mitochondria produce ATP, which is used by the cell for energy. However, the process of producing ATP involves reactive oxygen species, that damage the mitochondria over time. Damaged mitochondria produce less ATP, and provide less energy to older cells.
The ends of DNA are capped with repeating regions called telomeres that protect the coding region of DNA from damage during division. Over time, the telomeres of cells grow shorter, and as a result, the risk of DNA damage with each cell division grows.
In response to accumulating damage to their DNA and organelles, cellular therapy produce tumor suppressor proteins that instruct the cell to cease dividing. This important safety mechanism, which prevents cells from becoming tumors, leads to the loss of cells with age.