| No | Primary DI | Version or Model | Catalog Number | Device Description | Product Code | Product Code Name | Device Class | Brand Name |
|---|---|---|---|---|---|---|---|---|
| 1 | 90814008025315 | PLE-015-S | PLIF Encoded 10x22 15mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 2 | 90814008024974 | PLE-010-L | PLIF Encoded 10x30 10mm 0 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 3 | 90814008024967 | PLE-009-L | PLIF Encoded 10x30 9mm 0 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 4 | 90814008024950 | PLE-008-L | PLIF Encoded 10x30 8mm 0 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 5 | 90814008024943 | PLE-007-L | PLIF Encoded 10x30 7mm 0 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 6 | 90814008024936 | PLE-006-L | PLIF Encoded 10x30 6mm 0 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 7 | 90814008024929 | PLE-615-M | PLIF Encoded 10x26 15mm 6 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 8 | 90814008024912 | PLE-614-M | PLIF Encoded 10x26 14mm 6 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 9 | 90814008024905 | PLE-613-M | PLIF Encoded 10x26 13mm 6 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 10 | 90814008024899 | PLE-612-M | PLIF Encoded 10x26 12mm 6 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 11 | 90814008024882 | PLE-611-M | PLIF Encoded 10x26 11mm 6 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 12 | 90814008024875 | PLE-610-M | PLIF Encoded 10x26 10mm 6 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 13 | 90814008024868 | PLE-609-M | PLIF Encoded 10x26 9mm 6 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 14 | 90814008024851 | PLE-608-M | PLIF Encoded 10x26 8mm 6 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 15 | 90814008024844 | PLE-607-M | PLIF Encoded 10x26 7mm 6 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 16 | 90814008024837 | PLE-015-M | PLIF Encoded 10x26 15mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 17 | 90814008024820 | PLE-014-M | PLIF Encoded 10x26 14mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 18 | 90814008024813 | PLE-013-M | PLIF Encoded 10x26 13mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 19 | 90814008024806 | PLE-012-M | PLIF Encoded 10x26 12mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 20 | 90814008024790 | PLE-011-M | PLIF Encoded 10x26 11mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 21 | 90814008024783 | PLE-010-M | PLIF Encoded 10x26 10mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 22 | 90814008024776 | PLE-009-M | PLIF Encoded 10x26 9mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 23 | 90814008024769 | PLE-008-M | PLIF Encoded 10x26 8mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 24 | 90814008024752 | PLE-007-M | PLIF Encoded 10x26 7mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 25 | 90814008024745 | PLE-006-M | PLIF Encoded 10x26 6mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 26 | 90814008024738 | PLE-014-S | PLIF Encoded 10x22 14mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 27 | 90814008024721 | PLE-013-S | PLIF Encoded 10x22 13mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 28 | 90814008024714 | PLE-012-S | PLIF Encoded 10x22 12mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 29 | 90814008024707 | PLE-011-S | PLIF Encoded 10x22 11mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 30 | 90814008024691 | PLE-010-S | PLIF Encoded 10x22 10mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 31 | 90814008024684 | PLE-009-S | PLIF Encoded 10x22 9mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 32 | 90814008024677 | PLE-008-S | PLIF Encoded 10x22 8mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 33 | 90814008024660 | PLE-007-S | PLIF Encoded 10x22 7mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 34 | 90814008024653 | PLE-006-S | PLIF Encoded 10x22 6mm 0 Degrees | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 35 | 00810005664905 | PD-1000C-750 | Caddy 7.5 Screws. The FOCUS Pedicle Screw System is intended for use in the non Caddy 7.5 Screws. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 36 | 00810005664899 | PD-1000C-650 | Caddy 6.5 Screws. The FOCUS Pedicle Screw System is intended for use in the non Caddy 6.5 Screws. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 37 | 00810005662253 | PD-1000C-475 | Caddy 4.75 Screws. The FOCUS Pedicle Screw System is intended for use in the no Caddy 4.75 Screws. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 38 | 00810005662246 | PD-1000C-SS | Caddy Set Screws. The FOCUS Pedicle Screw System is intended for use in the non Caddy Set Screws. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 39 | 00810005662239 | PD-1000C-CC | Caddy CrossLinks. The FOCUS Pedicle Screw System is intended for use in the non Caddy CrossLinks. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 40 | 00810005662222 | PD-1000C-LR | Caddy Lordotic Rods. The FOCUS Pedicle Screw System is intended for use in the Caddy Lordotic Rods. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 41 | 00810005662215 | PD-1000C-SR | Caddy Straight Rods. The FOCUS Pedicle Screw System is intended for use in the Caddy Straight Rods. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 42 | 90814008024981 | PLE-011-L | PLIF Encoded 10x30 11mm 0 Degree | MAX | Intervertebral Fusion Device With Bone Graft, Lumbar | 2 | nvp | |
| 43 | 00810005662208 | PD-1000C-106 | Pedicle Screw Case 4 INSERT 4 Instruments. The FOCUS Pedicle Screw System is in Pedicle Screw Case 4 INSERT 4 Instruments. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 44 | 00810005662192 | PD-1000C-105 | Pedicle Screw Case 4 INSERT 3 Instruments. The FOCUS Pedicle Screw System is in Pedicle Screw Case 4 INSERT 3 Instruments. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 45 | 00810005662185 | PD-1000C-104 | Pedicle Screw Case 3 INSERT 2 Instruments. The FOCUS Pedicle Screw System is in Pedicle Screw Case 3 INSERT 2 Instruments. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 46 | 00810005662178 | PD-1000C-103 | Pedicle Screw Case 3 INSERT 1 Instruments. The FOCUS Pedicle Screw System is in Pedicle Screw Case 3 INSERT 1 Instruments. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 47 | 00810005662161 | PD-1000C-102 | Pedicle Screw Case, Instruments. The FOCUS Pedicle Screw System is intended for Pedicle Screw Case, Instruments. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 48 | 00810005662154 | PD-1000C-204 | Pedicle Screw Case 2 INSERT 3. The FOCUS Pedicle Screw System is intended for u Pedicle Screw Case 2 INSERT 3. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 49 | 00810005662147 | PD-1000C-211 | Pedicle Screw Case 2 Base, Implants. The FOCUS Pedicle Screw System is intended Pedicle Screw Case 2 Base, Implants. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus | |
| 50 | 00810005662130 | PD-1000C-202 | Pedicle Screw Case 1 INSERT 2. The FOCUS Pedicle Screw System is intended for u Pedicle Screw Case 1 INSERT 2. The FOCUS Pedicle Screw System is intended for use in the non-cervical posterior spine (T1-S1) to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of the following acute and chronic instabilities or deformities: degenerative disc disease (defined as back pain of discogenic origin with degeneration of the disc confirmed by history and radiographic studies), spondylolisthesis, fracture, dislocation, deformities or curvatures (i.e., scoliosis, kyphosis, and/or lordosis), spinal stenosis, tumor, pseudarthrosis, and failed previous fusion. | LRP | Tray, Surgical | 1 | Focus |
| No | Primary DI | Version or Model | Catalog Number | Device Description | Brand Name | Organization Name |
|---|---|---|---|---|---|---|
| 1 | 04260397082829 | CET30131 | Slender Inserter | EIT CIF Inserter | EIT EMERGING IMPLANT TECHNOLOGIES GMBH | |
| 2 | 04260397081433 | CET30121 | Inserter with adjustable depth stop | EIT CIF Inserter | EIT EMERGING IMPLANT TECHNOLOGIES GMBH | |
| 3 | 04260397081044 | CET30211 | Impactor without depth stop | EIT CIF Impactor | EIT EMERGING IMPLANT TECHNOLOGIES GMBH | |
| 4 | 04260397081037 | CET30111 | Inserter without depth stop | EIT CIF Inserter | EIT EMERGING IMPLANT TECHNOLOGIES GMBH | |
| 5 | 04260397080238 | CET60100 | Removal forceps | EIT CIF Removal forceps | EIT EMERGING IMPLANT TECHNOLOGIES GMBH | |
| 6 | 04260397080221 | CET30201 | Impactor | EIT CIF Impactor | EIT EMERGING IMPLANT TECHNOLOGIES GMBH | |
| 7 | 04260397080214 | CET30101 | Inserter | EIT CIF Inserter | EIT EMERGING IMPLANT TECHNOLOGIES GMBH | |
| 8 | 04251631404200 | Cervical 4x18 mm 12° | BHA418L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 9 | 04251631404194 | Cervical 4x18 mm 8° | BHA418L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 10 | 04251631404187 | Cervical 4x16 mm 12° | BHA416L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 11 | 04251631404170 | Cervical 4x16 mm 8° | BHA416L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 12 | 04251631404163 | Cervical 10x18 mm 8° | BHA1018L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 13 | 04251631404156 | Cervical 10x18 mm 12° | BHA1018L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 14 | 04251631404149 | Cervical 10x18 mm 4° | BHA1018L4 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 15 | 04251631404132 | Cervical 10x16 mm 8° | BHA1016L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 16 | 04251631404125 | Cervical 10x16mm 4° | BHA1016L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 17 | 04251631404118 | Cervical 10x16 mm 4° | BHA1016L4 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 18 | 04251631404101 | Cervical 9x18 mm 8° | BHA918L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 19 | 04251631404095 | Cervical 9x18 mm 12° | BHA918L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 20 | 04251631404088 | Cervical 9x18 mm 4° | BHA918L4 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 21 | 04251631404071 | Cervical 9x16 mm 8° | BHA916L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 22 | 04251631404064 | Cervical 9x16 mm 12° | BHA916L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 23 | 04251631404057 | Cervical 9x16 mm 4° | BHA916L4 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 24 | 04251631404040 | Cervical 8x18 mm 8° | BHA818L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 25 | 04251631404033 | Cervical 8x18 mm 12° | BHA818L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 26 | 04251631404026 | Cervical 8x16 mm 8° | BHA816L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 27 | 04251631404019 | Cervical 8x16 mm 12° | BHA816L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 28 | 04251631404002 | Cervical 7x18 mm 8° | BHA718L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 29 | 04251631403999 | Cervical 7x18 mm 12° | BHA718L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 30 | 04251631403982 | Cervical 7x16 mm 8° | BHA716L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 31 | 04251631403975 | Cervical 7x16 mm 12° | BHA716L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 32 | 04251631403968 | Cervical 6x18 mm 8° | BHA618L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 33 | 04251631403951 | Cervical 6x18 mm 12° | BHA618L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 34 | 04251631403944 | Cervical 6x16 mm 8° | BHA616L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 35 | 04251631403937 | Cervical 6x16 mm 12° | BHA616L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 36 | 04251631403920 | Cervical 5x18 mm 8° | BHA518L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 37 | 04251631403913 | Cervical 5x18 mm 12° | BHA518L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 38 | 04251631403906 | Cervical 5x16 mm 8° | BHA516L8 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 39 | 04251631403890 | Cervical 5x16 mm 12° | BHA516L12 | BEE HA Cages were especially adapted to the local anatomy to secure the surgical BEE HA Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implants formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces. BEE HA implants are made of PEEK-OPTIMA HA ENHANCED and pins made out of titanium alloy (Ti6Al4V) according to ASTM F136. It is not allowed to use BEE HA implants in contact with components of other manufacturers. | BEE HA Cage | NGMEDICAL GMBH |
| 40 | 04251631403883 | Cervical 4x18 mm 12° | B418L12 | BEE Cages were especially adapted to the local anatomy to secure the surgical ou BEE Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001. BEE Cages are produced with selective laser melting (SLM) technique. It is not allowed to use BEE implants in contact with components of other manufacturers with the exception of bone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |
| 41 | 04251631403876 | Cervical 4x18 mm 8° | B418L8 | BEE Cages were especially adapted to the local anatomy to secure the surgical ou BEE Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001. BEE Cages are produced with selective laser melting (SLM) technique. It is not allowed to use BEE implants in contact with components of other manufacturers with the exception of bone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |
| 42 | 04251631403869 | Cervical 4x16 mm 12° | B416L12 | BEE Cages were especially adapted to the local anatomy to secure the surgical ou BEE Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001. BEE Cages are produced with selective laser melting (SLM) technique. It is not allowed to use BEE implants in contact with components of other manufacturers with the exception of bone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |
| 43 | 04251631403852 | Cervical 4x16 mm 8° | B416L8 | BEE Cages were especially adapted to the local anatomy to secure the surgical ou BEE Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001. BEE Cages are produced with selective laser melting (SLM) technique. It is not allowed to use BEE implants in contact with components of other manufacturers with the exception of bone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |
| 44 | 04251631403616 | Cervical 10x18 mm 8° | B1018L8 | BEE Cages were especially adapted to the local anatomy to secure the surgical ou BEE Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001. BEE Cages are produced with selective laser melting (SLM) technique. It is not allowed to use BEE implants in contact with components of other manufacturers with the exception of bone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |
| 45 | 04251631403609 | Cervical 10x18 mm 12° | B1018L12 | BEE Cages were especially adapted to the local anatomy to secure the surgical ou BEE Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001. BEE Cages are produced with selective laser melting (SLM) technique. It is not allowed to use BEE implants in contact with components of other manufacturers with the exception of bone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |
| 46 | 04251631403593 | Cervical 10x18 mm 4° | B1018 | BEE Cages were especially adapted to the local anatomy to secure the surgical ou BEE Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001. BEE Cages are produced with selective laser melting (SLM) technique. It is not allowed to use BEE implants in contact with components of other manufacturers with the exception of bone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |
| 47 | 04251631403586 | Cervical 10x16 mm 8° | B1016L8 | BEE Cages were especially adapted to the local anatomy to secure the surgical ou BEE Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001. BEE Cages are produced with selective laser melting (SLM) technique. It is not allowed to use BEE implants in contact with components of other manufacturers with the exception of bone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |
| 48 | 04251631403579 | Cervical 10x16 mm 12° | B1016L12 | BEE Cages were especially adapted to the local anatomy to secure the surgical ou BEE Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001. BEE Cages are produced with selective laser melting (SLM) technique. It is not allowed to use BEE implants in contact with components of other manufacturers with the exception of bone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |
| 49 | 04251631403562 | Cervical 10x16 mm 4° | B1016 | BEE Cages wereespecially adapted to the local anatomy to secure the surgical out BEE Cages wereespecially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001.BEE Cages are producedwithselective laser melting (SLM) technique.It is not allowed to use BEE implants in contactwith components of other manufacturers with the exception ofbone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |
| 50 | 04251631403555 | Cervical 9x18 mm 8° | B918L8 | BEE Cages were especially adapted to the local anatomy to secure the surgical ou BEE Cages were especially adapted to the local anatomy to secure the surgical outcome at the best. The caudal side is flat, the cranial side is domed and the implant is formed conically from anterior to posterior. In the lateral view, the implant has a slightly lordotic form. The cage disposes of 4 pins on both bone facing surfaces, which serve the primary fixation. BEE implants are made of titanium alloy (Ti6Al4V) according to ASTM F 3001. BEE Cages are produced with selective laser melting (SLM) technique. It is not allowed to use BEE implants in contact with components of other manufacturers with the exception of bone graft substitutes or fillers. | BEE Cage | NGMEDICAL GMBH |