Book Consultation

Cellular Reprogramming

IV Treatment
  • IV Treatment
  • Allogeneic Stem Cell Applications
  • Personalized Bioengineered Approach
  • Personalized Reprogramed Exosome Supplement (Oral)
  • Exosome Desenescence
  • Stem Cell Fibroblast Isolation & Banking

IV Treatment:Cord-Blood Plasma-Derived Exosome Therapy

This therapy is designed to enhance cellular metabolism and extend the gap between your intrinsic and chronological age by over 7 years. By modifying intercellular communication with embryonic signals, the treatment aims to reduce your intrinsic age while boosting cell metabolism and mitochondrial activity.

Allogeneic Stem Cell Applications

This treatment introduces allogeneic cells with a biological age of 3-5 months into your body. The dosage is precisely calibrated based on in vitro regeneration tests, aiming to enhance your immune function and reduce metabolic rates by aligning your cells with a younger biological age.

Personalized Bioengineered Approach

After the initial treatments, a customized regimen is created based on in vitro tests of your cells. This approach involves reverse-engineering stem and body cells to decrease cellular age with the gradual reduction of methylation networks aimed at lowering your chronological age over time by resupplying your younger cells.

Personalized Exo Reprogrammed Supplement

This supplement is designed to lower biological age by regulating intrinsic cellular pathways. By isolating and culturing the patient's cells, the treatment minimizes the impact of epigenetic factors, ultimately reducing the rate of biological aging.

Exosome Desenescence

This therapy targets the removal of molecules that transmit aging signals, with dosages tailored through in vitro testing. The treatment replaces these molecules with ones that promote youthful, embryonic-like growth, helping to align your intrinsic age with the average population age.

Stem Cell Fibroblast Isolation & Banking

This innovative process involves isolating and banking stem cell fibroblasts, which are crucial for maintaining and repairing tissues. By preserving these cells at their optimal regenerative potential, we ensure they can be utilized in future therapeutic applications, such as advanced regenerative treatments. This approach not only safeguards the body's natural healing abilities but also provides a valuable resource for personalized medical interventions in the years to come.