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.