In the past few decades, advancements in stem cell research have led the medical community to find possible treatment solutions for many chronic health conditions, from autoimmune diseases to knee cartilage repair. Stem cells offer an innovative regenerative medicine to heal damaged cartilage through healthy tissue regeneration.
This article focuses on the potential of stem cell therapy to treat Osteoarthritis of the knee, a condition that damages the cartilage in the knee and impacts mobility. Read further to learn how stem cells heal damaged tissues and improve the quality of life of patients.
Table of contents:
Why does knee cartilage get damaged?
Knee osteoarthritis damages the cartilage covering the bone ends. Living with Osteoarthritis is painful and difficult as the cartilage deteriorates and the bones start rubbing against each other, resulting in consistent pain, stiffness, and inflammation.
Patients with knee osteoarthritis cannot walk, bend, or sit appropriately as the knee joints lose mobility and function. Total knee replacement is a recommended treatment option for severe symptoms. However, the introduction of stem cell therapy has given millions of people new hope to avoid surgical procedures and get sustainable cartilage repair solutions.
What is stem cell treatment?
Stem cells are immature and undifferentiated cells that the body constantly manufactures in the bone marrow and other specific tissues, such as fatty or human umbilical cord tissue. These primary and unspecialized cells can form and multiply into any cell type to repair the damaged areas.
There is growing evidence that stem cell treatment functions by activating the healing mechanism of the newly-introduced cells, often termed “regenerative” medicine therapy.
Stem Cell Injections For Knee Cartilage Repair
The cartilage is the cushion-like covering surrounding the ends of the bones, allowing the bones to glide smoothly against each other without any friction or corrosion. When this cartilage wears and tears away, the bone ends collide against each other, leading to increased friction. Stem cell therapy for knee pain due to Osteoarthritis has shown promising results in reducing pain and inflammation, preventing further damage to the cartilage.
Stem cells are directly injected into the affected knee to prevent deterioration of the tissues in the cartilage. Cellular therapy utilizes the regenerative potential to regrow healthy and repair damaged tissues. With time, patients can expect joint function and mobility improvement, reducing pain and inflammation. Furthermore, it prevents the need for invasive, complicated, and expensive knee replacement surgery.
Is stem cell therapy for knee pain effective?
Several clinical investigations and studies demonstrate that stem cell therapy effectively manages knee pain and arthritis symptoms. While overall results look promising, more research is ongoing to discover stem cells’ more therapeutic potential.
The timeline for positive therapy outcomes may vary from patient to patient, depending on the patient’s condition and the severity of the knee damage. The results are lasting because stem cells aid in the slow repair of the damaged tissues and healthy cartilage regeneration to prevent the progression of Osteoarthritis.
Success Rates For Stem Cell Therapy
A study on 54 patients for stem cell therapy for knee osteoarthritis using human umbilical cord tissue-derived mesenchymal stem cells showed significant improvements in functionality while reducing pain. The results of stem cell administration in damaged knees with arthritis are optimal, and the cells utilize the natural healing capacity to prevent further cartilage deterioration.
The study also indicates that stem cells halt the progression of cartilage defects through healthy cartilage regeneration, improving joint flexibility and function. Patients can expect long-term outcomes with a significant reduction in knee pain and inflammation.
Critical Benefits of Stem Cell Therapy For Knee Osteoarthritis
Mesenchymal stem cell therapy using human umbilical cord tissue exhibits several advantages over traditional treatments like pain medications or knee replacement surgery in repairing damaged knee cartilage.
- Ease of isolation – Stem cells originating in the umbilical cord tissue or Wharton’s Jelly can be easily isolated and collected after healthy births. Hence, MSCs need not be obtained from the patient’s own bone marrow or subcutaneous adipose tissue.
- Multipotent differentiation potential – Mesenchymal stem cells have the power to differentiate into any cell type, including cartilage, bone, nerve, skin, or blood cells, making them valuable assets for treatment.
- High immunomodulatory properties – Mesenchymal stem cells regulate the immune system and lower inflammation and pain in the affected knees.
- Less invasive process – Stem cell injections for knee pain are minimally invasive and are completed in one or two hours.
- Quick recovery period – Unlike knee replacement surgeries, patients who receive stem cells recover quickly, restoring joint function and mobility.
Where to get stem cell therapy for knee cartilage repair?
Life Altering Stem Cell Therapy Institute is a renowned stem cell therapy institute in Mexico. It is known for its top-notch quality of treatment and care for a wide range of medical conditions, including knee cartilage repair. Our highly advanced treatment facility and experienced team of stem cell specialists ensure that every patient has a safe stem cell therapy experience without complications.
Conclusion
The emergence of stem cell-based regenerative medicine has brought pathbreaking approaches to addressing various degenerative conditions, including knee osteoarthritis. The multipotency of mesenchymal stem cells (MSCs), self-renewal, anti-inflammatory, and immunomodulatory properties, and ease of isolation highlight the potential of MSCs for cellular-based therapeutic approaches.
In various clinical and preclinical trials, promising results demonstrated the potential of stem cells in healthy cartilage regeneration. They help promote faster healing and improve joint mobility with enhanced balance and stability.