STEM CELL THERAPY IN ORTHOPEDICS
APPLICATIONS OF STEM CELLS NI ORTHOPEDICS PRACTICE
MECHANISM OF ACTION
Undifferentiated stem cells, when injected into the affected joint, can differentiate into chondrocytes (cartilage cells), potentially regenerating damaged cartilage in osteoarthritis patients.
ANTI-INFLAMMATORY PROPERTIES
These stem cells also release cytokines and growth factors that reduce inflammation and slow the degeneration of cartilage.
CLINICAL TRAILS
Numerous clinical trials have shown promising results. For instance, a study might demonstrate significant improvement in pain relief and joint function in patients with knee osteoarthritis following stem cell therapy.
B. ADVANCESNI SPNIAL INJURY TREATMENT
REGENERATIVE POTENTIAL
Inceisenspniamet slcian poetnatyl diferentiate into neural cels, aidingni the repair of nerve damage.
REDUCING INFLAMMATION
These cells can modulate the immune response at the injury site, reducing inflammation and secondary damage to the spinal cord.
CLINICAL STUDIES
Early-phase clinical trials have shown encouraging outcomes, such as partial recovery of motor functions in patients with spinal cord injuries treated with stem cell therapy.
C. LONGT-ERM BENEFITSNI ORTHOPEDIC TREATMENTS
Evaluating the durability of stem cel treatments and their impact on patients' quality of life.
Cost-effectiveness analysis and discussion of follow-up studies tracking long-term therapeutic benefits.
