NeoGen® PTFE Membrane, Ti-Reinforced - S I

NeoGen® PTFE Membrane, Ti-Reinforced - M I

NeoGen® PTFE Membrane, Ti-Reinforced - L I

NeoGen® PTFE Membrane, Ti-Reinforced - M

NeoGen® PTFE Membrane, Ti-Reinforced - L

NeoGen® PTFE Membrane, Ti-Reinforced - XL

NeoGen® PTFE Membrane, Non-Reinforced 18 x 12 mm

NeoGen PTFE Membrane, Non-Reinforced 29 x 14 mm

NeoGen® PTFE Membrane, Non-Reinforced 34 x 25 mm

NeoGen Cape PTFE Membrane - M

NeoGen Cape PTFE Membrane - L

creos syntoprotect Ti-250 No1

creos syntoprotect Ti-250 No2

creos syntoprotect Ti-250 No3

GUIDOR® Bioresorbable Matrix Barrier

GUIDOR® Bioresorbable Matrix Barrier

GUIDOR® Bioresorbable Matrix Barrier

GUIDOR® Bioresorbable Matrix Barrier

GUIDOR® Bioresorbable Matrix Barrier

GUIDOR® Bioresorbable Matrix Barrier

Syringe Covers 300pk

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Ti-Enforced® ePTFE membranes are a multi-layer, non-resorbable membrane intended to be surgically placed under the muco-periosteum to aid in tissue regeneration in accordance with the guided tissue regeneration principle. It is a barrier material with a titanium frame enclosed within two layers of ePTFE material. The titanium reinforcement is intended for space and shape maintenance to contain bone grafting material and to minimize graft movement during wound healing. The membranes are designed to block bacteria penetration, and impede the migration and establishment of gingival tissue derived cells into bony defects. This provides a more favorable environment for neovascularization and for bone derived cells to repopulate and repair the defect. The Ti-Enforced® membranes are textured on both surfaces to improve handling and adhesion between tissue and membrane.

Perforated Ti-Enforced® membranes are made of the same materials and features as Cytoflex® Ti-Enforced® membranes with the exception of perforation. The perforated macro holes allow for direct vascularization across the membrane. Both the Ti-Enforced® and perforated Ti-Enforced® membranes are designed to achieve predictable outcomes for GBR procedures.

Perforated Ti-Enforced® membranes are made of the same materials and features as Cytoflex® Ti-Enforced® membranes with the exception of perforation. The perforated macro holes allow for direct vascularization across the membrane. Both the Ti-Enforced® and perforated Ti-Enforced® membranes are designed to achieve predictable outcomes for GBR procedures.

Perforated Ti-Enforced® membranes are made of the same materials and features as Cytoflex® Ti-Enforced® membranes with the exception of perforation. The perforated macro holes allow for direct vascularization across the membrane. Both the Ti-Enforced® and perforated Ti-Enforced® membranes are designed to achieve predictable outcomes for GBR procedures.

Perforated Ti-Enforced® membranes are made of the same materials and features as Cytoflex® Ti-Enforced® membranes with the exception of perforation. The perforated macro holes allow for direct vascularization across the membrane. Both the Ti-Enforced® and perforated Ti-Enforced® membranes are designed to achieve predictable outcomes for GBR procedures.

Perforated Ti-Enforced® membranes are made of the same materials and features as Cytoflex® Ti-Enforced® membranes with the exception of perforation. The perforated macro holes allow for direct vascularization across the membrane. Both the Ti-Enforced® and perforated Ti-Enforced® membranes are designed to achieve predictable outcomes for GBR procedures.

Perforated Ti-Enforced® membranes are made of the same materials and features as Cytoflex® Ti-Enforced® membranes with the exception of perforation. The perforated macro holes allow for direct vascularization across the membrane. Both the Ti-Enforced® and perforated Ti-Enforced® membranes are designed to achieve predictable outcomes for GBR procedures.