Sustains long-term self-renewal, ensuring a consistent and reliable source of healthy cells.
Stem cells represent one of the most promising frontiers in modern medicine. Recognized by institutions such as the World Health Organization and the U.S. Food and Drug Administration for their potential in regenerative therapies, these unique cells have the remarkable ability to repair, replace, and restore damaged tissues.
From supporting recovery to opening new possibilities in personalized treatments, STEM Cell science is redefining how we approach long-term health and healing.
STEM Cells are undifferentiated biological cells distinguished by their capacity for self-renewal and their ability to differentiate into multiple specialized cell types. These properties allow them to contribute to the formation, maintenance, and repair of tissues throughout the body.
In current medical research and clinical applications, stem cells are evaluated for their role in modulating inflammatory responses, supporting structural tissue regeneration, and promoting functional recovery in areas affected by injury, degenerative conditions, or cellular dysfunction.
Their therapeutic potential continues to be a central focus in regenerative medicine and advanced biomedical interventions.
Supports structural tissue repair and functional recovery through targeted cellular restoration.
Differentiates into multiple specialized cell types essential for advanced therapeutic applications.
Sustains long-term self-renewal, ensuring a consistent and reliable source of healthy cells.
Autologous STEM Cell Therapy utilizes STEM Cells derived from the patient’s own body.
Typically, bone marrow is harvested via puncture from the iliac crest. The collected STEM Cells are then concentrated and reinjected to promote tissue regeneration and support recovery in a variety of conditions.
Because the cells originate from the patient, the risk of immune rejection or adverse reactions is minimal, making this approach both safe and highly effective.
Allogeneic MSC Treamtent involves the use of mesenchymal STEM Cells sourced from the blood vessels of donated umbilical cords, collected before antibody formation, ensuring broad immunological compatibility.
These cells exhibit strong anti-inflammatory and regenerative properties, making them valuable in the management of genetic disorders, autoimmune conditions, orthopedic injuries, and various degenerative diseases.
Their universal compatibility and therapeutic potential position MSC treatments as a key component in advanced regenerative medicine.
Autologous Bone-Marrow STEM Cell Transplantation is an advanced regenerative therapy that harnesses the body’s own healing potential. STEM Cells are collected, concentrated, and reintroduced intravenously or intrathecally in a single session, eliminating the risk of immune rejection.
The procedure is minimally invasive, performed in a sterile outpatient setting, and requires no hospitalization, delivering safe, efficient support for tissue repair and regeneration.
The patient is administered a tailored combination of sedatives and analgesics (Dormicum, Ketanest, Propofol) via oral, intravenous, and local routes, ensuring optimal comfort and safety throughout the procedure under continuous medical supervision and monitoring.
Bone Marrow Harvesting is carried out through precise puncture of the anterior and posterior iliac crest (hip bone).
These specific anatomical sites are carefully selected and targeted to ensure a safe, controlled, and effective collection of cells.
The Harvested Bone Marrow is processed and concentrated through centrifugation to isolate stem cells, producing a high-quality therapeutic concentrate ready for clinical use.
STEM Cells are administered intravenously, allowing them to circulate freely through the bloodstream and reach tissues and organs throughout the body. areas simultaneously.
STEM Cells are delivered directly into the cerebrospinal fluid via lumbar puncture, allowing targeted transport of cells and cytokines to the brain.
During the procedure, cerebrospinal fluid (CSF) samples are also routinely collected for analysis.
After the procedure, the patient is monitored in the recovery room and typically awakens from anesthesia within about two hours.
They can go home the same day, as overnight hospitalization is not required, and are provided with preventive medication to ensure comfort and smooth recovery.
Puncture sites are inspected 24 hours post-procedure, after which any local patches or bandages are removed.
