Stem cell therapy is a regenerative treatment used in orthopedics to repair damaged tissues, reduce inflammation, and improve function. Stem cells can differentiate into various tissues, such as bone, cartilage, or muscle, promoting healing and regeneration.
We rely on our musculoskeletal system not only for our daily activities but also for enriching our quality of life through engagement in sports, working out and defying degeneration from age. Injuries to the musculoskeletal system can take many forms, ranging from minor repetitive damage to severe traumatic injuries. Many of these injuries lead to chronic inflammation and degeneration as well as the other orthopedic injuries including the loss of pain-free mobility.
Structural tissues are minimally manipulated, DMSO- free, cryogenically preserved human birth tissue allografts derived from the umbilical cord.
These Structural tissues contain both extracellular matrices, such as elastin, Hylauronan, collagen fibers, and fibronectin, and naturally occurring tissue components, such as growth factors, cytokines, and nanoparticles.
Structural tissue are processed from bio-ethically donated human birth tissue from healthy, consenting mothers in the United States who have passed a comprehensive medical background check, and blood screenings and had full-term, live C-Section births. Our products are processed in accordance with standards established by FDA and the American Association of Tissue Banks (AATB) to minimize potential risks of disease transmission to recipients. Infectious disease testing is performed at a certified laboratory in accordance with the Clinical Laboratory Improvement Amendments.
CONDITIONS TREATED WITH STEM CELLS.
- ACL Reconstruction
- Rotator Cuff Repair
- Acute Sports Injuries
- Osteoarthritis
- Knee Pain/Repair
- Tennis/Golfers Elbow
- Shoulder Pain/Repair
- Hip Pain/Degeneration
- Wrist Pain
- Ankle Sprain
- Plantar Fasciitis
- Fractures
- Low Back/Neck Pain.
Research Articles
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The Current Role of Stem Cells in Orthopaedic Surgery
Basic science and experimental research on stem cells has increased exponentially in the last decade. Our present knowledge about stem cell biology is better than ever before. This new paradigm shift in research has been reflected in the field of orthopaedic surgery. Various experimental models have suggested a potential application of stem cells for different orthopaedic conditions, and early clinical results of stem cell use have been encouraging. These cells can be easily isolated, processed and made available for clinical use.
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Efficacy of Stem Cell Therapy for Tendon Graft Ligamentization After Anterior Cruciate Ligament Reconstruction: A Systematic Review
Sufficient intra-articular graft ligamentization enhances the biomechanical and biological properties of the femur-graft-tibia complex to ensure knee stability after anterior cruciate ligament (ACL) reconstruction using a tendon graft. It remains unclear whether stem cell therapy promotes tendon graft ligamentization.
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Improving Biological Age, Telomere Length, and Cognition: A Case Report on the Use of Therapeutic Plasma Exchange, Peptides, Umbilical Cord Tissue Mesenchymal Stem Cells and Exosomes in a Patient with Cognitive Decline
This case study reports on the novel combination of three treatments for cognitive decline in a 79-year-old male: therapeutic plasma exchange (TPE), peptides, and human umbilical cord tissue mesenchymal stem cells and exosomes (UCT-MSC-EXs).