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.
Kerecis® Omega3 MariGen is a fish-skin graft that is homologous to human skin and is used for tissue regeneration. The fish skin is a natural microbial barrier.
Keroxx® Flowable Wound Matrix is an advanced wound care matrix comprised of Replicine™ Functional Keratin® in an injectable gel. Provides a dermal scaffold for cellular migration and capillary growth, while promoting cellular proliferation and the formation of a healthy granulation bed.
Matrix™ HD is an acellular human dermis graft that is provided sterile with room temperature storage and a five year shelf life. Matrix™ HD is available in standard and pre-fenestrated configurations.
MicroMatrix® is a sterile, porcine-derived, naturally-occurring lyophilized extracellular matrix in particle form that maintains and supports a healing environment for wound management.
Miro3D® Fibers is a three-dimensional wound matrix derived from the highly vascularized porcine liver. It is perfusion decellularized and dried. The resulting porous material is milled to create Miro3D® Fibers.
Miro3D® Wound Matrix is a three-dimensional, hepatic-derived, and porous wound care matrix. It is 2cm thick and designed to fill deep, tunneling, and irregular wound beds. Supplied sterile.
MiroDerm® Biologic Wound Matrix is a unique hepatic-derived acellular wound matrix that provides an open collagen matrix with natural vascular pathways to assist in cellular infiltration and integration.
mVASC® is a sterile, off-the-shelf human microvascular tissue allograft consisting of microvessel extracellular matrix intended to repair deficient microvascular tissue, improve blood flow, and support the healing of full-thickness wounds.