Will Matristem Particles Help Improve The Results From My Scalp Scar Revision?

Q: I am inquiring about fixing a scar on the back of my head. I had hair transplantation done on three separate occasions with the typical taking of the grafts from the back of my head. Unfortunately, the transplants did not take very well or look very good after (worse decision I have ever made in my life) and now I just shave my head. But the harvest scar looks terrible and is very wide. My hair doctor said it could not be made to look better but I am thinking (based on the way my transplants turned out) that he is not a very good doctor. I have about some material called Matristem that supposedly can heal wounds so there is no scar. Do you think this will work for my scalp scar revision? Is this a procedure that you do? Also, how does this material work, from a scientific standpoint?

A: The use of MatriStem from the Acell corporation to heal wounds and make incisions and scar revisions look better is a really intriguing concept. The material is novel and one of its preparations is in a powder form, which is a perfect way to incorporate it as part of any wound closure including scar revisions. My ear experience with it is very encouraging and I continue to use it for more and diverse applications in plastic surgery.

From a scientific standpoint, let me provide you with this explanation. The ACell MatriStem bioscaffold appears to provide signals to the host immune system that stimulate an adaptive or accommodative response that is ideal for both wound healing and three-dimensional growth of various cell types. The ACell MatriStem bioscaffold is distinguished from other ECM scaffold technology by its unique bimodal surface characteristics. One surface consists of an intact basement membrane which is especially conducive to epithelial and endothelial cell attachment, proliferation, and differentiation. (a key advantage in applications such as plastic surgery) The opposite surface consists of organized connective tissue comprised of the urinary bladder lamina propria. This surface is ideal for integration into wound bed and host connective tissues, and supports vascular ingrowth. MatriStem implants consist of a collection of both structural and functional proteins (such as Laminin, Collagen type IV and VII) that are arranged in a three-dimensional ultrastructure that is virtually impossible to reproduce in the laboratory. Growth factors native to the tissue layers comprising MatriStem implants, such as vascular endothelial growth factor (VEGF), transforming growth factor beta (TGFβ), platelet derived growth factor (PDGF), bone morphogenic protein 4 (BMP4), and basic fibroblast growth factor (BFGF), are present as the matrix resorbs, and support the growth of new blood vessels and the proliferation of connective tissue cells to facilitate the healing and tissue remodeling process. In the end, the wound or incision heals by making more natural tissue to knit it together rather than a jumbled bunch of scar tissue.

Dr. Barry Eppley

Indianapolis Indiana