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Age Management

Age Management. Relative Impact of Curing Diseases and Slowing Aging. Calorie Restriction and Life Extension. CR Longevity Biomarkers. Decreased insulin level. Improved insulin sensitivity. Reduced body fat. Reduced blood pressure. Reduction of hardening of arteries.

neil-alston
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Age Management

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  1. Age Management

  2. Relative Impact of Curing Diseases and Slowing Aging

  3. Calorie Restriction and Life Extension

  4. CR Longevity Biomarkers • Decreased insulin level. • Improved insulin sensitivity. • Reduced body fat. • Reduced blood pressure. • Reduction of hardening of arteries. • Less clogging of arteries. • Decreased inflammation. • Reduction in body temperature. • Reduced energy production.

  5. Fat Cells

  6. Calorie Restrictionthe proof is present The only proven way documented by science to slow the aging process and increase the health-span in mammals and primates. The genes involved, documented by gene chip analysis can be grouped into 5 main categories: • Insulin sensitivity & Blood sugar control • Inflammation • Anti-oxidant production • DNA Repair • Gene Expression

  7. Our genes, and the environment in which they exist, dictate our health and longevity. Positive Environment+ Optimal Gene Function = Improved Aging plus Optimal Health and Quality of Life

  8. Genes +Environment = Longevity GENES 25% ENVIRONMENT LIFESTYLE STRESS 75%

  9. Human Cell

  10. Chromosomes

  11. DNA

  12. DNA Nucleotides

  13. SNP

  14. Types Of Mutations

  15. Genes

  16. Genes & Protein Production

  17. I AM HEALTHY I AM HEALTTY I AM HEELTTY Effects of DNA Damage

  18. Positive Aging Active Genes Inactive Genes Inactive Fetal Genes Childhood Profile A S A A A A +S +S Developmental Status Developmental Status OPTIMAL DNA REPAIR Changing Gene Expression During Aging

  19. After Age 30 Active Genes Inactive Genes Adult Profile Damage Damage S S A A A S +S +S Stable Health Stable Health DNA DAMAGE ACCELERATES FASTER THAN DNA REPAIR Changing Gene Expression During Aging

  20. Old Age Active Genes Inactive Genes Active Oncogene Old Age Profile Damage Damage Damage S S S A S +S +S Cancer+Disease RAPID ACCELERATION OF DNA DAMAGE AND DECREASING REPAIR CAPACITY Changing Gene Expression During Aging

  21. Why Do We Age? Aging is the result of genetic inheritance and the body reproducing DNA that has been damaged by environmental pollution, harmful lifestyle choices and the overall stress of life in the 21st century.

  22. What is Age Management? Age Management is the science of utilizing the genes we have inherited at their most optimal potential, in order to improve our health and quality of life. It is Biological Age, not Chronological Age, that determines the rate of deterioration of the body and its ability to maintain and repair itself.

  23. Age Management Therapy Goals • 1) Improve Environmental EffectsEnvironment defined as diet, exercise, mind state, toxic elements, pollution, local radiation. • 2) Improve the Function of the Aging EquationControl Glycation, Inflammation, Oxidation/Free Radical Levels and Methylation at the cellular level. • 3) Improve DNA Replication and Gene Expression –Improve the ratio of DNA repair over DNA damage therefore resulting in less cell mutations and more accurate cell copies during cell replication. This preserves adult stem cell pools. • 4) Utilize Personally Directed Genetic NutrientsOptimize genetic expression and health-span.

  24. 5 Steps to Looking and Feeling Younger Reduce stress Nourish the genes Exercise the genes Supplement the genes Optimize skin renewal

  25. Age Management Food Pyramid

  26. Aerobic Exercise

  27. Resistive Exercise

  28. Personalized Genetic Health & Age Management starts with a Personal Genetic Profile 1.A cheek swab SNPs test to identify genetic weakness How we go from a cheek sample to your genetic profile:

  29. Personalized Genetic Health & Age Management starts with a Personal DNA Analysis. A home-based urine test to measure DNA damage and free radical level at the start of the program and to monitor ongoing progress 3. A scientific analysis to develop a personalized program to optimize inherited genetic function for optimal health

  30. CORE THERAPEUTIC APPROACH FOR AGE MANAGEMENT PROGRAMS URINE SAMPLE 8 Hydroxy Guanosine = DNA Damage 8 EpiPGF-2alpha = Oxidative Stress

  31. Heart and Vascular Health(Methylation Management) Bone and Joint Health(Inflammation Management) Blood Sugar and Body Fat Control(Glycation Management) Detoxification and Free Radical Control(Oxidation Management) Optimal Cell Function Formula(DNA Repair) Personal DNA Analysis

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