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Viable  bone matrices

VIA® Graft allografts contain key elements ideal for bone formation and offer a variety of potential clinical applications, including the spine, upper extremity, foot and ankle, oral and maxillofacial, and orthopedic oncology.

VIA® Graft allografts feature a proprietary optimized bone microparticulate size range of 100-300µm, which has been shown to support direct ossification, with defect healing rates comparable to autograft.1

Osteoconductive
An osteoconductive three-dimensional scaffold with cortical and cancellous components that provide a scaffold for bone issue growth that integrates with patient
Osteoinductive
A demineralized bone scaffold with osteoinductive potential that provides exposure of signaling molecules and bone morphogenetic proteins2
Osteogenic
Viable bone-derived cells that support the osteogenic healing processes

VIA® Graft and VIA® Graft Moldable are comprised of a proprietary mixture of 100-300µm demineralized cortical bone and mineralized cortical & cancellous bone.

PRODUCT INFORMATION
Preparation Time
< 20 minutes
DMSO-free Cryoprotectant
Yes
Shelf life at -65°C or colder
Up to 3 years
Product Composition
Proprietary mixture of 100-300µm demineralized cortical bone, mineralized cortical and cancellous bone.
Final Preparation
Allows for tight packing of a defect with a cohesive wet sand consistency.
ORDERING INFORMATION
SIZE
CODE
1.0cc
VCAX-010000
2.5cc
VCAX-025000
5.0cc
VCAX-050000
10.0cc
VCAX-100000
PRODUCT INFORMATION
Preparation Time
< 20 minutes
DMSO-free Cryoprotectant
Yes
Shelf life at -65°C or colder
Up to 3 years
Product Composition
Proprietary mixture of 100-300µm demineralized cortical bone, mineralized cortical and cancellous bone.
Final Preparation
A cohesive allograft that is resistant to lavage.
ORDERING INFORMATION
SIZE
CODE
2.5cc
VCAMX-025000
5.0cc
VCAMX-050000
10.0cc
VCAMX-100000
REFERENCES

1Malinin, T.I., et. al., Particulate bone allograft incorporation in regeneration of osseous defects; importance of particle sizes. The Open Orthopaedics Journal, 2007. 1:19-24.
2 Gruskin, E. et.al., Demineralized bone matrix in bone repair: history and use. Advanced Drug Delivery Reviews, 2012. 64:1063-1077.