How Stem Cells Heal
These adult stem cells are known as “progenitor” cells. This means they remain dormant (do nothing) unless they witness some level of tissue injury. It’s the tissue injury that turns them on. So, when a person has a degenerative type problem, the stem cells tend to go to that area of need and stimulate the healing process. We’re still not sure if they simply change into the type of injured tissue needed for repair or if they send out signals that induces the repair by some other mechanism. Suffice it to say that there are multiple animal models and a plethora of human evidence that indicates these are significant reparative cells.
LA Stem Cell Institute patients have their fat (usually abdominal) harvested in our special sterile treatment facility under a local anesthetic. The fat removal procedure lasts approximately twenty minutes. Specially designed equipment is used to harvest the fat cells and less than 100cc of fat is required. Post operative discomfort is minimal and there is minimal restriction on activity.
Stem cells are harvested under sterile conditions using a special “closed system” technology so that the cells never come into contact with the environment throughout the entire process from removal to deployment. Sterile technique and antibiotics are also used to prevent infection.
Depending on the type of treatment required, stem cells can be injected through veins, arteries, into spinal fluid, subcutaneously, or directly into joints or organs. All of these are considered minimally invasive methods of introducing the stem cells. Stem cells injected intravenously are known to “seek out and find” (see photo) areas of tissue damage and migrate to that location thus potentially providing regenerative healing. Intravenously injected stem cells have been shown to have the capability of crossing the “blood-brain barrier” to enter the central nervous system and they can be identified in the patient’s body many months after deployment. Note yellow arrow showing the stem cells concentrated in the patient’s hand where he had a Dupytren’s contracture (Dupuytren’s contracture is a hand deformity that causes the tissue beneath the surface of the hand to thicken and contract).
Most patients, especially those with orthopedic conditions, require only one deployment. Certain types of degenerative conditions, particularly auto-immune disease, may respond best to a series of stem cell deployments. The number and necessity of any additional treatments would be decided on a case by case basis. Financial consideration is given in these instances.
Stem cell therapy relies on the body’s own regenerative healing to occur. The regenerative process may take time, particularly with orthopedic patients, who may not see results for several months. In some diseases, more immediate responses are possible.