What are stem cell activation Patches and how do they work?
Regenerative Medicine
In contrast to current clinical strategies, which are primarily concerned with treating symptoms, regenerative medicine is focused on replacing tissues, cells or organs that have been compromised by disease or trauma. The methods used to achieve these results include tissue engineering, cellular therapies, medical devices, and artificial organs.
When we are injured or infected with disease, our bodies are designed to respond, heal and defend. But what if we can improve our bodies own healing ability and speed up the process?
Regenerative treatments aim to repair damaged tissues and organs. Researchers are also working on treatments for organs that have been permanently damaged. The goal of this methodology is to find a way to treat injuries and diseases that were previously considered incurable.
Stem cell therapies treat the underlying cause of pain rather than relieving it with medication or surgery, resulting in increased function and mobility with a shorter recovery time than surgical options. The health benefits of this therapy can cover various conditions; to promote healing in the body, stem cells can differentiate into various types of cells to replace damaged cells.
Stem Cell Patches vs Stem Cell Therapy
Stem cell treatments have been used for years in various medical practices. Hematopoietic stem cell transplant, or bone marrow transplant, is used to treat blood cell disorders such as leukemia and lymphoma. Stem cell patches are a new technology based on stem cell therapy.
Pluripotent stem cells can communicate with all cells in your body in order to regenerate the designated target.
Our pluripotent stem cells, unlike adult stem cells, can express the DNA of all 220+ types of cells in the body. As a result, they have an unrivaled ability to heal and restore youth in all organs.
Pluripotent stem cells can be delivered through the bloodstream or directly to the organ in need of repair, depending on the circumstances.
Pluripotent exosomes also function in ways other than releasing the recipient's adult stem cells. They include anti-inflammatory, anti-fibrotic, and growth factors, as well as senolytic agents. Pluripotent stem cells and their exosomes have the most potent effects for treating degenerative conditions.
Injections Phototherapy patches
Injections are shown to help treat various medical conditions such as heart disease or MS, and are also used for general promoted health including:
Phototherapy patches
Phototherapy patches are a product that has been developed in attempt to increase stem cell production. The patches are usually made of organic amino acid crystals that are activated by the heat of the skin producing infrared light. This light wave reflects back and is thought to stimulate peptides that in turn activate body's stem cell activity and promote cellular repair in the area. Some phototherapy patches have been clinically proven to support wound healing, reduce minor aches and pains, promote a healthy inflammatory response, boost energy, and improve sleep.
These patches are considered an adjunctive therapy for people receiving stem cell injections or undergoing stem cell activation. Photolight therapy and photobiomodulation are techniques for promoting regeneration and supporting the body's natural healing processes.
It's important to note that these patches do not contain stem cells, there are no single cells involved. It's strictly light based activation. Light therapy differs from stem cell therapy. Manufacturers note that by reflecting particular wavelengths of light these patches can promote health and treat chronic neurological problems, improve fatigue, and aid in depression.
Naturally occurring adult stem cells are "activated" in case of trauma, cell death or a need for new cells. It's important to note that other than stem cell injections or transfusions, there is no clinically proven way to stimulate stem cells. More studies are needed.
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