Cellular and/or tissue-based products (CTPs) are types of wound dressings or coverings that support wound healing. There are multiple options for these products, including: non-viable cells, tissue-based: animal; non-viable cells, tissue-based: human; viable human cells, cultured in vitro: animal substrate; viable human cells, cultured in vitro: synthetic substrate; and viable human cells, non-cultured: intact tissue.
GRAFIX* lyopreserved and cryopreserved placental membrane products and surgical applications retain all components of placental tissue, including native placental cells.
Leneva® Allograft Adipose Matrix is comprised of human adipose extracellular matrix and provides a safe, off-the-shelf solution for the replacement of damaged or inadequate adipose tissue.
Mirragen® Advanced Wound Matrix is a bioabsorbable borate-based glass fiber matrix. Intentionally engineered to be biocompatible and support the body's natural wound healing process. Safe, effective and efficient treatment for minor to complex wounds.
PuraPly® AM and PuraPly® XT are a unique combination of native, cross-linked ECM scaffold plus broad-spectrum PHMB antimicrobial. Intended for the management of acute and chronic wounds including partial- and full-thickness wounds, pressure ulcers, surgical wounds, trauma wounds and venous and diabetic ulcers.
SomaGen® Meshed is an acellular human reticular dermal allograft with a unique meshed design that provides a scaffold to support the treatment of a variety of complex wounds.
STRAVIX* Lyopreserved and Cryopreserved Umbilical Tissue Products are structural placental allografts for wound management and surgical applications that retain all the components of umbilical tissue including native placental cells, growth factors and a hyaluronic acid rich extracellular matrix.
Affinity® is the only fresh amniotic membrane wound covering, retaining viable cells, growth factors and cytokines in a native ECM structure. Aseptically processed and hypothermically preserved using the proprietary AlloFresh® method.