Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-T
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-TCP size 1 to 2mm volume 3 cc suspended in a biocompatible hydrogel solution packed in a 14ml open bore syringe. They are packed in a vacuum sealed foil inner pouch within a Tyvek outer pouch and packed in a carton box
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-T
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-TCP size 1 to 2mm volume 2 cc suspended in a biocompatible hydrogel solution packed in a capped 10 cm cartridge with a sealed O-ring plunger. They are packed in a vacuum sealed foil inner pouch within a Tyvek outer pouch and packed in a carton box.
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-T
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-TCP size 1 to 2mm volume 1 cc suspended in a biocompatible hydrogel solution packed in a capped 10 cm cartridge with a sealed O-ring plunger. They are packed in a vacuum-sealed foil inner pouch within a Tyvek outer pouch and packed in a carton box.
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-T
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-TCP size 1 to 2mm volume 10cc suspended in a biocompatible hydrogel solution packed in two long cartridges ( 185 mm in length, inner diameter 6 mm, outer diameter 8 mm)sealed in a vacuum foil pouch. 185 mm long plunger & 100 mm short plunger sealed in a Tyvek pouch. Both foiled pouch & Tyvek pouch are sealed in an outer Tyvek pouch and then packed in a carton box.
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-T
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-TCP size 1 to 2mm volume 5cc suspended in a biocompatible hydrogel solution packed in one long cartridge ( 185 mm in length, inner diameter 6 mm, outer diameter 8 mm)sealed in a vacuum foil pouch. 185 mm long plunger & 100 mm short plunger sealed in a Tyvek pouch. Both foiled pouch & Tyvek pouch sealed in an outer Tyvek pouch. Then packed in a carton box.
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-T
Silica induced bi-phase calcium phosphate ceramic morsels, 80% HA and 20% beta-TCP size 1 to 2mm volume 2 cc suspended in a biocompatible hydrogel solution packed in a 14ml open bore syringe, They are packed in a vacuum sealed foil inner pouch within a Tyvek outer pouch and packed in a carton box.
Bioactive Bone Graft Substitute, Foam Pack; Beta-Tricalcium Phosphate, Type I Bo
Bioactive Bone Graft Substitute, Foam Pack; Beta-Tricalcium Phosphate, Type I Bovine Collagen, and Bioactive Glass
Bioactive Bone Graft Substitute, Foam Pack; Beta-Tricalcium Phosphate, Type I Bo
Bioactive Bone Graft Substitute, Foam Pack; Beta-Tricalcium Phosphate, Type I Bovine Collagen, and Bioactive Glass
Bioactive Bone Graft Substitue, Foam Pack; Beta-Tricalcium Phosphate, Type I Bov
Bioactive Bone Graft Substitue, Foam Pack; Beta-Tricalcium Phosphate, Type I Bovine Collagen, and Bioactive Glass
Bioactive Bone Graft Substitute, Foam Pack; Beta-Tricalcium Phosphate, Type I Bo
Bioactive Bone Graft Substitute, Foam Pack; Beta-Tricalcium Phosphate, Type I Bovine Collagen, and Bioactive Glass
OssDsign Catalyst is an osteoconductive, resorbable, porous, 100% nanosynthetic
OssDsign Catalyst is an osteoconductive, resorbable, porous, 100% nanosynthetic calcium phosphate bone void filler. OssDsign Catalyst contains 5.8 wt% silicon-substituted calcium phosphate granules suspended in a resorbable polymer gel. The final, finished OssDsign Catalyst is 30 wt% granules and 70 wt% polymer gel. The high surface area porous granules have been designed to deliver consistent and rapid bone ingrowth, remodeling and cell-mediated resorption during the bone healing process. The aqueous polymer gel phase binds the highly porous granules into a moldable, pliable formulation which enables OssDsign Catalyst to be implanted directly from the packaging without any further gelation, mixing or graft setting time. OssDsign Catalyst is provided sterile to the end user in 2.5 cc, 5 cc and 10 cc sizes. (510(k) no. K193075)
OssDsign Catalyst is an osteoconductive, resorbable, porous, 100% nanosynthetic
OssDsign Catalyst is an osteoconductive, resorbable, porous, 100% nanosynthetic calcium phosphate bone void filler. OssDsign Catalyst contains 5.8 wt% silicon-substituted calcium phosphate granules suspended in a resorbable polymer gel. The final, finished OssDsign Catalyst is 30 wt% granules and 70 wt% polymer gel. The high surface area porous granules have been designed to deliver consistent and rapid bone ingrowth, remodeling and cell-mediated resorption during the bone healing process. The aqueous polymer gel phase binds the highly porous granules into a moldable, pliable formulation which enables OssDsign Catalyst to be implanted directly from the packaging without any further gelation, mixing or graft setting time. OssDsign Catalyst is provided sterile to the end user in 2.5 cc, 5 cc and 10 cc sizes. (510(k) no. K193075)
OssDsign Catalyst is an osteoconductive, resorbable, porous, 100% nanosynthetic
OssDsign Catalyst is an osteoconductive, resorbable, porous, 100% nanosynthetic calcium phosphate bone void filler. OssDsign Catalyst contains 5.8 wt% silicon-substituted calcium phosphate granules suspended in a resorbable polymer gel. The final, finished OssDsign Catalyst is 30 wt% granules and 70 wt% polymer gel. The high surface area porous granules have been designed to deliver consistent and rapid bone ingrowth, remodeling and cell-mediated resorption during the bone healing process. The aqueous polymer gel phase binds the highly porous granules into a moldable, pliable formulation which enables OssDsign Catalyst to be implanted directly from the packaging without any further gelation, mixing or graft setting time. OssDsign Catalyst is provided sterile to the end user in 2.5 cc, 5 cc and 10 cc sizes. (510(k) no. K193075)