Regenerative medicine represents an exciting, rapidly evolving field within the healthcare industry. At the forefront of medical technology, this medical field aims to restore the structure and function of damaged tissues and organs. Rather than masking symptoms, Dr. Michael Poss believes that it offers a promising solution by healing or replacing your damaged cells.
What Regenerative Medicine Can Do To The Skin
In the world of dermatology, regenerative medicine has an impressive potential to restore vibrant, resilient, and youthful skin naturally. Here are some ways it can contribute to healthier-looking skin:
• Rejuvenates Damaged Skin – The unique cell regeneration techniques employed in this field can stimulate the repair and growth of skin cells, effectively rejuvenating the skin damaged by sun exposure, aging, acne, and more.
• Empowers Anti-Aging Effects – Aging skin predominantly results from the loss of collagen and elastin. Regenerative medicine focuses on stimulating the body to produce these essential proteins naturally.
• Reduces Scarring and Inflammation – Finally, through the renewal of skin cells, regenerative medicine can also help reduce the appearance of scars and calm inflammation, often outperforming traditional treatments.
How Does Regenerative Medicine Work?
Dr. Michael Poss Regenerative medicine uses a variety of highly innovative and intricate medical techniques. First of all, Stem Cell Therapy is using multipotent cells that can divide and change into the various cell types which make up the skin, effectively promoting the growth of healthier, younger-looking skin.
The second medical technique in regenerative medicine is known as Platelet-Rich Plasma (PRP). This treatment procedure uses the patient’s blood, which is processed to separate platelets that are rich in growth factors. When these are re-injected into the skin, they start a natural healing process in the area.
And the last medical technique employed in regenerative medicine is known as Tissue Engineering. This treatment process mainly involves combining cells, growth factors, and biomaterials. These treatments are done to construct realistic imitations of human tissue, which are used to rejuvenate and replace damaged areas.
