InRoad® Dental Synthetic Bone Graft (SBG) is a synthetic, semi-dense multi-porou
InRoad® Dental Synthetic Bone Graft (SBG) is a synthetic, semi-dense multi-porous bioceramic for bone regeneration. It is comprised of 90% ± 5% hydroxyapatite (HA) and 10% ± 5% Beta-Tricalcium Phosphate. The granules are provided sterile (gamma irradiated) in a capped vial packaged in a lid sealed tray. InRoad® Dental SBG granules are designed to resemble trabecular bone structure. The granule structure consists of interconnected primary open pores, secondary channel-like structure, and tertiary small holes on the surface in a biocompatible and osteoconductive biomaterial. The multi-porous structure of InRoad® Dental SBG makes it possible for the bone cells to migrate into the matrices and for new bone to grow. InRoad® Dental SBG is available in granule form in sizes of 0.3 – 1.0 mm (Small) and 0.8 – 1.8 mm (Large).
InRoad® Dental Synthetic Bone Graft (SBG) is a synthetic, semi-dense multi-porou
InRoad® Dental Synthetic Bone Graft (SBG) is a synthetic, semi-dense multi-porous bioceramic for bone regeneration. It is comprised of 90% ± 5% hydroxyapatite (HA) and 10% ± 5% Beta-Tricalcium Phosphate. The granules are provided sterile (gamma irradiated) in a capped vial packaged in a lid sealed tray. InRoad® Dental SBG granules are designed to resemble trabecular bone structure. The granule structure consists of interconnected primary open pores, secondary channel-like structure, and tertiary small holes on the surface in a biocompatible and osteoconductive biomaterial. The multi-porous structure of InRoad® Dental SBG makes it possible for the bone cells to migrate into the matrices and for new bone to grow. InRoad® Dental SBG is available in granule form in sizes of 0.3 – 1.0 mm (Small) and 0.8 – 1.8 mm (Large).
InRoad® Dental Synthetic Bone Graft (SBG) is a synthetic, semi-dense multi-porou
InRoad® Dental Synthetic Bone Graft (SBG) is a synthetic, semi-dense multi-porous bioceramic for bone regeneration. It is comprised of 90% ± 5% hydroxyapatite (HA) and 10% ± 5% Beta-Tricalcium Phosphate. The granules are provided sterile (gamma irradiated) in a capped vial packaged in a lid sealed tray. InRoad® Dental SBG granules are designed to resemble trabecular bone structure. The granule structure consists of interconnected primary open pores, secondary channel-like structure, and tertiary small holes on the surface in a biocompatible and osteoconductive biomaterial. The multi-porous structure of InRoad® Dental SBG makes it possible for the bone cells to migrate into the matrices and for new bone to grow. InRoad® Dental SBG is available in granule form in sizes of 0.3 – 1.0 mm (Small) and 0.8 – 1.8 mm (Large).
InRoad® Dental Synthetic Bone Graft (SBG) is a synthetic, semi-dense multi-porou
InRoad® Dental Synthetic Bone Graft (SBG) is a synthetic, semi-dense multi-porous bioceramic for bone regeneration. It is comprised of 90% ± 5% hydroxyapatite (HA) and 10% ± 5% Beta-Tricalcium Phosphate. The granules are provided sterile (gamma irradiated) in a capped vial packaged in a lid sealed tray. InRoad® Dental SBG granules are designed to resemble trabecular bone structure. The granule structure consists of interconnected primary open pores, secondary channel-like structure, and tertiary small holes on the surface in a biocompatible and osteoconductive biomaterial. The multi-porous structure of InRoad® Dental SBG makes it possible for the bone cells to migrate into the matrices and for new bone to grow. InRoad® Dental SBG is available in granule form in sizes of 0.3 – 1.0 mm (Small) and 0.8 – 1.8 mm (Large).
InRoad® Dental Synthetic Bone Graft (SBG) is a synthetic, semi-dense multi-porou
InRoad® Dental Synthetic Bone Graft (SBG) is a synthetic, semi-dense multi-porous bioceramic for bone regeneration. It is comprised of 90% ± 5% hydroxyapatite (HA) and 10% ± 5% Beta-Tricalcium Phosphate. The granules are provided sterile (gamma irradiated) in a capped vial packaged in a lid sealed tray. InRoad® Dental SBG granules are designed to resemble trabecular bone structure. The granule structure consists of interconnected primary open pores, secondary channel-like structure, and tertiary small holes on the surface in a biocompatible and osteoconductive biomaterial. The multi-porous structure of InRoad® Dental SBG makes it possible for the bone cells to migrate into the matrices and for new bone to grow. InRoad® Dental SBG is available in granule form in sizes of 0.3 – 1.0 mm (Small) and 0.8 – 1.8 mm (Large).
creos™ syntoprotect PTFE membrane 200 12 x 24 mm. Also available in a pack of 10
creos™ syntoprotect PTFE membrane 200 12 x 24 mm. Also available in a pack of 10 with catalog number N161224-10, as creos™ syntoprotect PTFE membrane 200 12 x 24 mm 10x.
creos™ syntoprotect PTFE membrane 200 25 x 30 mm. Also available in a pack of 4
creos™ syntoprotect PTFE membrane 200 25 x 30 mm. Also available in a pack of 4 with catalog number N162530-4, as creos™ syntoprotect PTFE membrane 200 25 x 30 mm 4x.
Bond Apatite® is a synthetic, osteoconductive, composite graft cement composed
Bond Apatite® is a synthetic, osteoconductive, composite graft cement composed of biphasic calcium sulfate and hydroxyapatite granules. Bond Apatite® functions as a scaffold for bone regeneration in dental procedures, and is intended to fill, augment or reconstruct bony defects in the oral and maxillofacial region.
3D Bond is a synthetic, osteoconductive, bioresorbable graft binder cement co
3D Bond is a synthetic, osteoconductive, bioresorbable graft binder cement composed of biphasic Calcium Sulfate in a granulated powder form. 3D Bond functions as a scaffold for bone regeneration in dental procedures, and is intended to fill, augment or reconstruct bony defects in the oral and maxillofacial region.
3D Bond is a synthetic, osteoconductive, bioresorbable graft binder cement co
3D Bond is a synthetic, osteoconductive, bioresorbable graft binder cement composed of biphasic Calcium Sulfate in a granulated powder form. 3D Bond functions as a scaffold for bone regeneration in dental procedures, and is intended to fill, augment or reconstruct bony defects in the oral and maxillofacial region.
Silica-Calcium Phosphate Composite (SCPC) is a synthetic resorbable osteoconduct
Silica-Calcium Phosphate Composite (SCPC) is a synthetic resorbable osteoconductive bone graft substitute composed of two phases: sodium calcium phosphate (NaCaPO4) and silica (SiO2). The two phases are sintered together in the form of solid solutions.The SCPC is in the form of porous particles in the size range 90-710 micron.The device is sterlized by Gama radiation.