AlloPatch® Pliable is donated human allograft dermis minimally processed to remove dermal cells and is packaged in an ethanol solution. AlloPatch Pliable tissue is processed from deep cut tissue from which the epidermal layer has been physically removed. The process utilized preserves the extracellular matrix of the dermis. The resulting allograft serves as a framework to support cellular repopulation and vascularization at the surgical site.
Open tissue architecture optimal for cell infiltration and host tissue remodeling
• Aseptic processing preserves tissue's natural structure
• Ready, right out of the package
• Does not require rehydration
• Available in multiple sizes
• Shelf life of three years at ambient temperature
• Flexible, thin sheet conforms to anatomy and maintains surface contact
Tissue Code | Product Specifications | UPC |
---|
WC1515 | AlloPatch Pliable, Thin: 1.5cm (W) x 1.5cm (L) x 0.4-1.0mm thickness | 840045711833 |
WC0202 | AlloPatch Pliable, Thin: 2.0cm (W) x 2.0cm (L) x 0.4-1.0mm thickness | 840045711802 |
WC0404 | AlloPatch Pliable, Thin: 4.0cm (W) x 4.0cm (L) x 0.4-1.0mm thickness | 840045711819 |
WC0418 | AlloPatch Pliable, Thin: 4.0cm (W) x 8.0cm (L) x 0.4-1.0mm thickness | 840045711826 |
HCPCS Code | Product Description |
---|
Q4128 | AlloPatch, per cm2 |
AlloPatch® Pliable Meshed
AlloPatch® Pliable Meshed is an acellular human reticular dermal allograft with a unique meshed design that allows for optimal drainage and incorporation. It is processed from a deeper layer of the tissue to isolate the reticular dermis. The resulting allograft serves as a framework to support cellular repopulation and vascularization.
Order No. | Size | Area Without Expansion | Predicted Expanded Area* | UPC |
---|
WC0222 | 2cm x 2cm | 4 sq. cm
| 6.7 sq. cm | 840045720507 |
WC0424 | 4cm x 4cm | 16 sq. cm | 27 sq. cm | 840045720514 |
WC0448 | 4cm x 8cm | 32 sq. cm | 54 sq. cm | 840045720521 |
HCPCS Code | Product Description |
---|
Q4128 | AlloPatch, per cm2 |
*MTF Biologics data on file. Dimensions are based on MTF Biologics R&D data on file and may slightly differ
due to natural graft-to-graft variability.