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The Science Behind Regeneration
The therapeutic power of stem cells lies in their ability to communicate and repair.
Rather than simply replacing damaged tissue, stem cells release vital biological signals — cytokines, growth factors, and other molecules — that guide the body’s natural healing response.
These signals activate surrounding cells, stimulate tissue regeneration, reduce inflammation, and support the recovery of normal function.
What Happens After Stem Cells Are Introduced into the Body
Once mesenchymal stem cells (MSCs) are administered — typically through intravenous infusion or local injection — they enter the bloodstream and begin circulating throughout the body.
They are naturally drawn to areas of injury or inflammation, guided by specific proteins that act as homing signals.
When MSCs reach the affected tissues, they start releasing a complex mix of regenerative substances, including:
Cytokines, which regulate immune activity and reduce inflammation.
Chemokines, which attract other healing cells to the site of injury.
Growth factors, which stimulate cell repair, regeneration, and blood vessel formation.
Adhesion molecules, which help cells interact and anchor at the molecular level, ensuring proper tissue reconstruction.
Through these mechanisms, stem cells don’t just repair tissue — they create a healing environment that helps the body restore itself safely and naturally.
A Natural Healing Process Guided by Science
At Stem Cell in Turkey, we focus on harnessing this biological intelligence.
Each treatment is designed to help the patient’s own body regain balance — improving cellular communication, reducing chronic inflammation, and enhancing regeneration in a targeted, natural way.
Stem cell therapy is not artificial repair — it’s healing through the body’s own design, guided by science and clinical precision.