below are predictions only:
1999
2000
2004
2005
2012
2015
2025
We stand at the brink of a revolution in anti-aging therapy and technology. Within the next two decades many promising techniques will help us achieve an expanded quality of health and extension of longevity not previously thought possible. Already, breathtaking advances have given us the ability to take new anti-aging concepts and turn them into scientific reality. We now have sufficient knowledge to improve the function of our DNA. Anti-aging practice distinguishes itself from conventional medical treatment in that the anti-aging physician is concerned with biomarkers, rather than simply with alleviating specific symptoms of aging. Monitoring biomarkers enables us to evaluate the effects of an individuals anti-aging program. The technologies described here represent attempts to measure and improve the biomarkers of aging.
Gene Banking
Gene Chips and Genomics
Stem cells, therapeutic cloning and regenerative medicine
nanotechnology: molecules as machines
1999
- Initial stem cell therapy begins
- computerized measuring of biochemical biomarkers of aging
2000
- Telomerase trials begin in humans
- 100% of he human genome mapped and sequenced
- Legislation enacted to protect Americans against genetic discrimination
2004
- rudimentary gene chips available to measure changes in "gene expression" as biomarkers of aging
- naked DNA transplants begin
2005
- test for risk of cancer, diabetes, stroke
- gene therapy for hemophilia, heart disease, some cancers
- DNA chips that analyze a person's genetic makeup and compare it to optimal sequences of genes
- biomarkers of aging now based on gene expression directly
2012
- medicine tailored to an individual's genetic makeup available to treat disease, including cancer
2015
- nanotechnology therapy for aging disorders in humans
- doctors correct defective genes using combinations of DNA transplants, nanotechnology, and stem cell therapies
2025
- computer power exceeds human IQ and is used to direct future R&D therapy
We stand at the brink of a revolution in anti-aging therapy and technology. Within the next two decades many promising techniques will help us achieve an expanded quality of health and extension of longevity not previously thought possible. Already, breathtaking advances have given us the ability to take new anti-aging concepts and turn them into scientific reality. We now have sufficient knowledge to improve the function of our DNA. Anti-aging practice distinguishes itself from conventional medical treatment in that the anti-aging physician is concerned with biomarkers, rather than simply with alleviating specific symptoms of aging. Monitoring biomarkers enables us to evaluate the effects of an individuals anti-aging program. The technologies described here represent attempts to measure and improve the biomarkers of aging.
Gene Banking
Gene Chips and Genomics
Stem cells, therapeutic cloning and regenerative medicine
nanotechnology: molecules as machines
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