The umbilical cord contains stem cells that are found in the umbilicus of healthy, born babies. The cells are harvested, replicated, and stored then released to patients as needed. Since these cells are undifferentiated there is no risk for human cell to cell interaction. They contain thousands of Cytokines and growth factors to help regenerate damaged tissues. Umbilical stem cells are safe, and studies show that they are not rejected by your body.
Wharton’s Jelly in San Jose
Wharton’s Jelly is the main connective tissue found within the umbilical cord – the narrow, tubelike structure that connects a developing fetus with its mother’s placenta.
A thick, gelatinous substance made primarily of collagen, its main job is to provide cushioning and protection for the umbilical cord blood vessels by preventing the cord from becoming compressed or bent. Wharton’s Jelly also supports the umbilical vessels’ ability to deliver oxygen, blood sugar, and amino acids to a developing fetus.
Where is Wharton’s Jelly Found?
Wharton’s Jelly is found in the umbilical cord, between the inner membrane of the placenta and the umbilical vessels.
This is significant since research suggests that MSCs (Mesenchymal Stem Cells) obtained from Wharton’s Jelly may be more effective than MSCs taken from adult tissues as a potential health treatment. What’s more, they can be obtained both easily and non-invasively after giving birth.
These factors are two reasons why many experts consider MSCs derived from Wharton’s jelly to be the gold standard for MSC-based therapies.
These are some applications where Wharton’s Jelly Stem cells are used:
- Alzheimer’s disease
- Cerebral palsy
- Heart disease
- Parkinson’s disease
- Rheumatoid arthritis
- Traumatic brain injury
- Ulcerative colitis
Common treatment areas for injections:
- Large joints (Knee, Hip, Shoulder & Ankle)
- Chronic partial rotator cuff tears
- Persistent partial tendon tears (Tennis Elbow)
- Plantar fasciitis / Bone Spurs
- Quadriceps and patellar tendon tears
- Muscular tears
- Meniscus and cartilage tears
- Intervertebral disc and spinal facet joints
- Radicular and Sacroiliac nerves
These stem cells are thought to be most beneficial because they can heal, also regenerate the body’s cells, organs, tissues, ligaments, reduce inflammation, and alleviate pain in a wide range of damaged tissues.
Wharton’s Jelly administered via IV
Through a process known as differentiation, Wharton’s Jelly injections can grow into many kinds of cells, such as cartilage, tendons, ligaments, and so on. Wharton’s Jelly opens new clinical applications, making it an essential component of regenerative medicine.
The Jelly treatment developed by Wharton makes use of the body’s capacity for self-healing. Wharton’s Jelly injections are like cortisone and steroid shots in that they have anti-inflammatory properties. However, the advantages of this treatment go far beyond those of conventional injection therapy. A specialized, minimally processed product derived from the Wharton’s Jelly is injected into the injured site.
While numbing is not always needed, at times lidocaine will be used for particularly sensitive areas. This process is a relatively painless pinch of a needle. Once the Wharton’s Jelly substance is injected, the cells get to work. The mesenchymal stem cells begin to transform into the cells that are needed to regenerate damaged tissue. This in turn reduces inflammation and pain and returns functionality to the body.
Wharton’s Jelly injections restore degenerated tissue while providing pain relief; whereas cortisone and other medications only provide short-term pain relief and, over time, can lead to the degeneration of soft tissues. Hyaluronic acid in injections also helps lubricate joints and tendons, reducing pain and restoring mobility.
What are the advantages of Wharton’s Jelly Injection therapy?
- There are no steroids in Wharton’s Jelly injections. The injections, on the other hand, rely on naturally occurring anti-inflammatory substances like cytokines.
- Hyaluronic acid, which lubricates cartilage and encourages the growth of new cartilage, is present in Wharton’s Jelly injections.
- Growth factors in Wharton’s Jelly injections encourage tissue growth.
- There is no risk of patient rejection with Wharton’s Jelly injections.
- Stem cells derived from Wharton’s Jelly have less non-stem cell contaminants
- They can be generated in large numbers with very minimal culture avoiding changes in the phenotype
- Their derivation is fast and easy to standardize
- They are rich in stemness characteristics
- They have high differentiation potential
Are Wharton’s Jelly stem cells injections or IV treatment safe?
Because stem cells come from immuno-purified locations, Wharton’s Jelly injections are a preferred treatment option because rejection by the body is extremely rare.
Wharton’s Jelly injections are safe, effective, and well-researched.
Is Inflammation Reduced by MSCs?
Inflammation is a protective response mediated by immune cells and molecular mediators toward invasive pathogens that cause infection and tissue damage. However, inflammation is also related to many pathophysiological processes. Some diseases, such as osteoarthritis, rheumatoid arthritis, inflammatory bowel disease, diabetes, and acute lung injury have been reported to be related to inflammation induced by immune cells and molecular mediators.
The use of stem cells might offer the most promising cell therapy strategy for the biological treatment of inflammation. Mesenchymal stem cells (MSCs) currently represent an important immunotherapeutic cell group, and there are several possible applications of MSCs in the treatment of immune function-related diseases. Mesenchymal stem cell conditioned media inhibited the LPS-induced expression of pro-inflammatory enzymes. MSCs play a critical role in the two phases of inflammation essential for an effective healing process: the early acute phase that initiates inflammation and its subsequent resolution necessary to achieve the repair process. This initial phase is required to further promote tissue recovery and repair. MSCs also have decisive effects on the switch from this inflammatory phase to its resolution necessary to initiate tissue reconstruction.
Is Stem Cell Therapy Effective in Alleviating Inflammation?
Stem cells target inflammation. Studies have shown that stem cells can regenerate diseased or damaged tissues, reduce inflammation, and control the immune system, all of which contribute to improved health and quality of life.