If you’ve been reading up on recent health discoveries or breakthrough medical advancements, you have probably came across the term regenerative cell therapy. Regenerative cell therapy is a kind of treatment that promises to heal different chronic pain, injuries, and other diseases. After all, regenerative cells are the only cells from which all other cells are generated. In the right conditions, regenerative cells divide to form specialized cells in the brain, heart, muscle or bone.
Due to their natural ability to generate a new kind of cell, regenerative cells make the ideal treatment to repair damaged tissues and injuries in the body.
How Regenerative Cell Therapy Works
In a laboratory setting, regenerative cells are taken out from either the bone marrow or the fat tissue in a person’s abdomen. Then, these cells are manipulated to grow to a specific kind of cell: brain, muscle, tissue, and the like. Then, depending on the kind of disease or injury, these cells are injected into the affected area, which would then regenerate to form new cells and tissue that speed up the healing.
If you have heart disease, for instance, these cells will grow and divide to repair the damaged heart muscles. Usually, after one to two treatments, patients will experience a marked improvement.
The Benefits of Regenerative Cell Therapy
As regenerative cells promise to help treat different injuries and chronic diseases, you may wonder, what are the specific conditions that regenerative cells therapy can address? Here are the five benefits of regenerative cell therapy that may be beneficial for you or your loved one’s health.
Helps with Pain and Injuries of The Muscles and Bones
For starters, regenerative cells are most commonly used to treat orthopedic injuries. In fact, they have been found to reduce chronic pain, heal injuries, improve and increase the body’s functionality and mobility.
Apart from sourcing cells from the bone marrow, another kind of cell, called the Mesenchymal cell, is used. This particular cell can develop into the specific cells and tissues that make up the bone, ligaments, and muscles. For instance, once a mesenchymal cell is injected into a wounded muscle, this cell will divide and grow to muscle cells that will aid in its healing and repair.
Deals with Heart Problems
Regenerative cells have the ability to develop into more specialized cells that can stimulate the repair and growth of tissues of blood vessels, generate muscle cells of the heart, and decrease the formation of scar tissue. Better yet, they also prevent coronary heart disease and the formation of new capillaries.
Speeds Up Wound Treatment
While regenerative cells can divide and form into a new cell, they can also help promote the growth of skin tissues, which is vital in wound healing. Moreover, regenerative cells improve collagen production, which is not important in wound recovery, but also in the healing of injuries related to cartilage and collagen loss.
Improves the Health of Patients With Neurodegenerative Disease
While Parkinson’s Diseases, Alzheimer’s diseases, and other neurodegenerative diseases still have no definitive cure, research shows that regenerative cells can be used to form new brain cells and neurons in the brain. It has been found that regenerative cells can slow down the progress of the disease, help in functional recovery, and improve cognitive functions.
While there are proven benefits of regenerative cell therapy in Atlanta and different clinics worldwide, further research is still being conducted to explore the other diseases that regenerative cells could treat. In fact, did you know that recent research has shown that regenerative cells can provide promising treatment to autoimmune diseases, including type I diabetes? Consult with regenerative cell therapy professionals, such as Superior Healthcare Group, to learn more about how this can benefit you.
5 Regenerative Cell Therapy Benefits — for Joint Pain, Heart Disease & Even Alzheimer’s, DrAxe.com
Regenerative cells: What they are and what they do, MayoClinic.org
What is Neurodegenerative Disease?, NeurodegenerationResearch.eu