Demineralized Allograft Bone with Osteoinductive Potential
Demineralized Bone Matrix
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Osteoconductive
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Fully Resorbable
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Resists Irrigation
SXDBM™ is an advanced healing technology that is revolutionizing the way doctors approach bone defects. This unique graft material is derived from human bone which has undergone a specialized demineralization process that maintains the bone’s natural growth factors. When implanted into a bone void or gap, SXDBM™ has the potential to induce the full developmental cascade of endochondral bone formation including vascularization, mineralization, and bone marrow differentiation.
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100% Human Allograft Bone
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4 Easy to Use Formats
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Osteoinductive Potential
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Osteoconductive
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Fully Resorbable
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Resists Irrigation
available in 4 formats
Compressible and elastic, with the open, porous structure of cancellous bone Can be compressed to 1/3 of their original size, to fill the gap or void without losing their original strength or shape Derived from demineralized trabecular bone
Compressible and elastic, with the open, porous structure of cancellous bone Can be compressed to 1/3 of their original size, to fill the gap or void without losing their original strength or shape Derived from demineralized trabecular bone
Derived from demineralized cortical bone Flowable or can be formed into various shapes and sizes and packed into bone voids or gaps Osteogenic when mixed with fresh bone marrow aspirate or autograft
100% demineralized cortical bone When hydrated with any bioactive agent, it becomes a malleable fibrous structure that provides an excellent osteoconductive scaffold and increased osteoinductive potential
Filling Bone Voids & Defects
ASGDBM™ (demineralized bone matrix) is a graft that can be used to fill voids or gaps in a variety of bones, including the extremities, spine and pelvis. ASGDBM™ aides in the healing process by filling defects that occurred during surgery or as a result of a traumatic injury.
At the locus of the implant, ASGDBM™ has the potential to induce vascularization, mineralization, and bone marrow differentiation. After a period of time, the DBM may be resorbed and replaced by growth of new bone. It should be used in bone defects that are not essential for stability of the bony structure.
A unique processing technique ensures that 100% of the DBM is derived from human allograft bone tissue. This eliminates the need for extrinsic organic carriers. All DBM materials are retrieved and processed according to the FDA and AATB guidelines, are tested for viruses and terminally sterilized by validated e-beam irradiation.
Featured Uses
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Spinal fusion
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Cranio-facial surgery
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Hand and foot surgery
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Fracture repair
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Cyst treatment
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Limb salvage
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Dental
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Oncology