| No | Primary DI | Version or Model | Catalog Number | Device Description | Product Code | Product Code Name | Device Class | Brand Name |
|---|---|---|---|---|---|---|---|---|
| 1 | 00889929048528 | 10-68-6535 | EXT Pedicle Screw, Ø6.5 x 35 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 2 | 00889929048511 | 10-68-5535 | EXT Pedicle Screw, Ø5.5 x 35 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 3 | 00889929048504 | 10-68-4545 | EXT Pedicle Screw, Ø4.5 x 45 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 4 | 00889929048498 | 10-68-4540 | EXT Pedicle Screw, Ø4.5 x 40 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 5 | 00889929048481 | 10-68-4535 | EXT Pedicle Screw, Ø4.5 x 35 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 6 | 00889929047057 | I10-01-72 | Modular Dovetail Handle | LXH | Orthopedic Manual Surgical Instrument | 1 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 7 | 00889929045855 | I63-22-01 | Lumbar Straight Driver Sleeve | LXH | Orthopedic Manual Surgical Instrument | 1 | Struxxure® Plate System | |
| 8 | 00889929045787 | I63-20-06 | Struxxure, Guided Drill | LXH | Orthopedic Manual Surgical Instrument | 1 | Struxxure® Plate System | |
| 9 | 00889929045770 | I63-20-05 | Struxxure, Guided Angle Awl | LXH | Orthopedic Manual Surgical Instrument | 1 | Struxxure® Plate System | |
| 10 | 00889929045763 | I63-20-04 | Struxxure, Guided Straight Awl | LXH | Orthopedic Manual Surgical Instrument | 1 | Struxxure® Plate System | |
| 11 | 00889929044544 | C10-01-27 | Hybrid Rod Cutter Case | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 12 | 00889929044162 | 10-69-7550 | EXT Reduction Pedicle Screw, Ø7.5 x 50 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 13 | 00889929044155 | 10-69-8560 | EXT Reduction Pedicle Screw, Ø8.5 x 60 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 14 | 00889929044148 | 10-69-8555 | EXT Reduction Pedicle Screw, Ø8.5 x 55 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 15 | 00889929044131 | 10-69-8550 | EXT Reduction Pedicle Screw, Ø8.5 x 50 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 16 | 00889929044124 | 10-69-8545 | EXT Reduction Pedicle Screw, Ø8.5 x 45 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 17 | 00889929044117 | 10-69-8540 | EXT Reduction Pedicle Screw, Ø8.5 x 40 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 18 | 00889929044100 | 10-68-8560 | EXT Pedicle Screw, Ø8.5 x 60 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 19 | 00889929044094 | 10-68-8555 | EXT Pedicle Screw, Ø8.5 x 55 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 20 | 00889929044087 | 10-68-8550 | EXT Pedicle Screw, Ø8.5 x 50 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 21 | 00889929044070 | 10-68-8545 | EXT Pedicle Screw, Ø8.5 x 45 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 22 | 00889929044063 | 10-68-8540 | EXT Pedicle Screw, Ø8.5 x 40 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 23 | 00889929044001 | 10-69-7545 | EXT Reduction Pedicle Screw, Ø7.5 x 45 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 24 | 00889929043998 | 10-69-7540 | EXT Reduction Pedicle Screw, Ø7.5 x 40 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 25 | 00889929043981 | 10-69-7535 | EXT Reduction Pedicle Screw, Ø7.5 x 35 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 26 | 00889929043974 | 10-69-7530 | EXT Reduction Pedicle Screw, Ø7.5 x 30 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 27 | 00889929043967 | 10-69-6535 | EXT Reduction Pedicle Screw, Ø6.5 x 35 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 28 | 00889929043950 | 10-69-6530 | EXT Reduction Pedicle Screw, Ø6.5 x 30 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 29 | 00889929043943 | 10-69-5535 | EXT Reduction Pedicle Screw, Ø5.5 x 35 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 30 | 00889929043936 | 10-69-5530 | EXT Reduction Pedicle Screw, Ø5.5 x 30 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 31 | 00889929043240 | 10-69-6550 | EXT Reduction Pedicle Screw, Ø6.5 x 50 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 32 | 00889929043233 | 10-69-6545 | EXT Reduction Pedicle Screw, Ø6.5 x 45 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 33 | 00889929043226 | 10-69-6540 | EXT Reduction Pedicle Screw, Ø6.5 x 40 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 34 | 00889929043219 | 10-69-5545 | EXT Reduction Pedicle Screw, Ø5.5 x 45 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 35 | 00889929043202 | 10-69-5540 | EXT Reduction Pedicle Screw, Ø5.5 x 40 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 36 | 00889929043196 | 10-68-6550 | EXT Pedicle Screw, Ø6.5 x 50 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 37 | 00889929043189 | 10-68-6545 | EXT Pedicle Screw, Ø6.5 x 45 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 38 | 00889929043172 | 10-68-6540 | EXT Pedicle Screw, Ø6.5 x 40 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 39 | 00889929043165 | 10-68-5545 | EXT Pedicle Screw, Ø5.5 x 45 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 40 | 00889929043158 | 10-68-5540 | EXT Pedicle Screw, Ø5.5 x 40 | MNH,MNI,OSH,NKB | Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pe Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 41 | 00889929043066 | I63-20-03 | Plate, Guided Drill | LXH | Orthopedic Manual Surgical Instrument | 1 | Struxxure® Plate System | |
| 42 | 00889929043059 | C63-01-01 | Struxxure System Case | KWQ | Appliance, Fixation, Spinal Intervertebral Body | 2 | Struxxure® Plate System | |
| 43 | 00889929043004 | I63-32-03 | Inserter, Hex Inner Shaft | LXH | Orthopedic Manual Surgical Instrument | 1 | Struxxure® Plate System | |
| 44 | 00889929042991 | I63-02-04 | Lateral Plate Inserter | KWQ | Appliance, Fixation, Spinal Intervertebral Body | 2 | Struxxure® Plate System | |
| 45 | 00889929042984 | I63-02-03 | Lateral Construct Inserter | KWQ | Appliance, Fixation, Spinal Intervertebral Body | 2 | Struxxure® Plate System | |
| 46 | 00889929042977 | I63-01-04 | ALIF Plate Inserter | KWQ | Appliance, Fixation, Spinal Intervertebral Body | 2 | Struxxure® Plate System | |
| 47 | 00889929042960 | I63-01-03 | ALIF Construct Inserter | KWQ | Appliance, Fixation, Spinal Intervertebral Body | 2 | Struxxure® Plate System | |
| 48 | 00889929042847 | C10-02-27 | Inertia Double Pre-Bent Rod Caddy | KWP,MNH,MNI,OSH,NKB | Appliance, Fixation, Spinal Interlaminal,Orthosis, Spondylolisthesis Spinal Fixa Appliance, Fixation, Spinal Interlaminal,Orthosis, Spondylolisthesis Spinal Fixation,Orthosis, Spinal Pedicle Fixation,Pedicle Screw Spinal System, Adolescent Idiopathic Scoliosis,Thoracolumbosacral Pedicle Screw System | 2 | Inertia® Pedicle Screw and Deformity Correxxion® System | |
| 49 | 00889929042823 | I63-21-05 | Lumbar Straight Driver, T20 | LXH | Orthopedic Manual Surgical Instrument | 1 | Struxxure® Plate System | |
| 50 | 00889929042816 | I63-20-02 | Struxxure, Guided Angle Awl | LXH | Orthopedic Manual Surgical Instrument | 1 | Struxxure® Plate System |
| No | Primary DI | Version or Model | Catalog Number | Device Description | Brand Name | Organization Name |
|---|---|---|---|---|---|---|
| 1 | 04047844002414 | Connection screw | ATM309 | The ATHLET VBR System is a lordotic, modular vertebral body replacement system. The ATHLET VBR System is a lordotic, modular vertebral body replacement system. Caudal and cranial components are offered in a variety of heights and are assembled to create a device construct. An intermediate component is also available and is used between one caudal and one cranial component. The device construct comprises a central cannula for bone graft and lateral fenestrations for bony in-growth. | ATHLET | SIGNUS MEDIZINTECHNIK GMBH |
| 2 | 04047844002407 | Main body 9 | AT0942 | The ATHLET VBR System is a lordotic, modular vertebral body replacement system. The ATHLET VBR System is a lordotic, modular vertebral body replacement system. Caudal and cranial components are offered in a variety of heights and are assembled to create a device construct. An intermediate component is also available and is used between one caudal and one cranial component. The device construct comprises a central cannula for bone graft and lateral fenestrations for bony in-growth. | ATHLET | SIGNUS MEDIZINTECHNIK GMBH |
| 3 | 04047844002391 | Main body 8 | AT0836 | The ATHLET VBR System is a lordotic, modular vertebral body replacement system. The ATHLET VBR System is a lordotic, modular vertebral body replacement system. Caudal and cranial components are offered in a variety of heights and are assembled to create a device construct. An intermediate component is also available and is used between one caudal and one cranial component. The device construct comprises a central cannula for bone graft and lateral fenestrations for bony in-growth. | ATHLET | SIGNUS MEDIZINTECHNIK GMBH |
| 4 | 04047844002384 | Main body 7 | AT0730 | The ATHLET VBR System is a lordotic, modular vertebral body replacement system. The ATHLET VBR System is a lordotic, modular vertebral body replacement system. Caudal and cranial components are offered in a variety of heights and are assembled to create a device construct. An intermediate component is also available and is used between one caudal and one cranial component. The device construct comprises a central cannula for bone graft and lateral fenestrations for bony in-growth. | ATHLET | SIGNUS MEDIZINTECHNIK GMBH |
| 5 | 04047844002377 | Main body 6 | AT0624 | The ATHLET VBR System is a lordotic, modular vertebral body replacement system. The ATHLET VBR System is a lordotic, modular vertebral body replacement system. Caudal and cranial components are offered in a variety of heights and are assembled to create a device construct. An intermediate component is also available and is used between one caudal and one cranial component. The device construct comprises a central cannula for bone graft and lateral fenestrations for bony in-growth. | ATHLET | SIGNUS MEDIZINTECHNIK GMBH |
| 6 | 04047844002360 | Main body 5 | AT0518 | The ATHLET VBR System is a lordotic, modular vertebral body replacement system. The ATHLET VBR System is a lordotic, modular vertebral body replacement system. Caudal and cranial components are offered in a variety of heights and are assembled to create a device construct. An intermediate component is also available and is used between one caudal and one cranial component. The device construct comprises a central cannula for bone graft and lateral fenestrations for bony in-growth. | ATHLET | SIGNUS MEDIZINTECHNIK GMBH |
| 7 | 04047844002353 | Main body 4 | AT0412 | The ATHLET VBR System is a lordotic, modular vertebral body replacement system. The ATHLET VBR System is a lordotic, modular vertebral body replacement system. Caudal and cranial components are offered in a variety of heights and are assembled to create a device construct. An intermediate component is also available and is used between one caudal and one cranial component. The device construct comprises a central cannula for bone graft and lateral fenestrations for bony in-growth. | ATHLET | SIGNUS MEDIZINTECHNIK GMBH |
| 8 | 04047844002346 | End body 3 | AT0308 | The ATHLET VBR System is a lordotic, modular vertebral body replacement system. The ATHLET VBR System is a lordotic, modular vertebral body replacement system. Caudal and cranial components are offered in a variety of heights and are assembled to create a device construct. An intermediate component is also available and is used between one caudal and one cranial component. The device construct comprises a central cannula for bone graft and lateral fenestrations for bony in-growth. | ATHLET | SIGNUS MEDIZINTECHNIK GMBH |
| 9 | 04047844002339 | End body 2 | AT0206 | The ATHLET VBR System is a lordotic, modular vertebral body replacement system. The ATHLET VBR System is a lordotic, modular vertebral body replacement system. Caudal and cranial components are offered in a variety of heights and are assembled to create a device construct. An intermediate component is also available and is used between one caudal and one cranial component. The device construct comprises a central cannula for bone graft and lateral fenestrations for bony in-growth. | ATHLET | SIGNUS MEDIZINTECHNIK GMBH |
| 10 | 04047844002322 | End body 1 | AT0104 | The ATHLET VBR System is a lordotic, modular vertebral body replacement system. The ATHLET VBR System is a lordotic, modular vertebral body replacement system. Caudal and cranial components are offered in a variety of heights and are assembled to create a device construct. An intermediate component is also available and is used between one caudal and one cranial component. The device construct comprises a central cannula for bone graft and lateral fenestrations for bony in-growth. | ATHLET | SIGNUS MEDIZINTECHNIK GMBH |
| 11 | 04047844002315 | Lumbar cage, straight | TK070924 | The basic shape of the KIMBA®, KIMBA® mini, MOBIS®, NOVAL™, SEMIAL®, PEEK TETRIS The basic shape of the KIMBA®, KIMBA® mini, MOBIS®, NOVAL™, SEMIAL®, PEEK TETRIS™ and Titanium TETRIS™devices is a hollow structural frame. The upper and lower aspects of the implant are open. Surface spikes assist in the positive anchorage and seating of the implant between the vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition. | TETRIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 12 | 04047844002308 | Lumbar cage, straight | TK061120 | The basic shape of the KIMBA®, KIMBA® mini, MOBIS®, NOVAL™, SEMIAL®, PEEK TETRIS The basic shape of the KIMBA®, KIMBA® mini, MOBIS®, NOVAL™, SEMIAL®, PEEK TETRIS™ and Titanium TETRIS™devices is a hollow structural frame. The upper and lower aspects of the implant are open. Surface spikes assist in the positive anchorage and seating of the implant between the vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition. | TETRIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 13 | 04047844002292 | Lumbar cage, straight | BT060928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 14 | 04047844002285 | Lumbar cage, straight | TK241120 | The basic shape of the KIMBA®, KIMBA® mini, MOBIS®, NOVAL™, SEMIAL®, PEEK TETRIS The basic shape of the KIMBA®, KIMBA® mini, MOBIS®, NOVAL™, SEMIAL®, PEEK TETRIS™ and Titanium TETRIS™devices is a hollow structural frame. The upper and lower aspects of the implant are open. Surface spikes assist in the positive anchorage and seating of the implant between the vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition. | TETRIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 15 | 04047844002278 | Lumbar cage, straight | TK201120 | The basic shape of the KIMBA®, KIMBA® mini, MOBIS®, NOVAL™, SEMIAL®, PEEK TETRIS The basic shape of the KIMBA®, KIMBA® mini, MOBIS®, NOVAL™, SEMIAL®, PEEK TETRIS™ and Titanium TETRIS™devices is a hollow structural frame. The upper and lower aspects of the implant are open. Surface spikes assist in the positive anchorage and seating of the implant between the vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition. | TETRIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 16 | 04047844002186 | Lumbar cage, angled | SK151643 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | SEMIAL 15° | SIGNUS MEDIZINTECHNIK GMBH |
| 17 | 04047844002179 | Lumbar cage, angled | SK151443 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | SEMIAL 15° | SIGNUS MEDIZINTECHNIK GMBH |
| 18 | 04047844002117 | Cervical cage | NB091314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 19 | 04047844002100 | Cervical cage | NB081314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 20 | 04047844002094 | Cervical cage | NB071314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 21 | 04047844002087 | Cervical cage | NB061314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 22 | 04047844002070 | Cervical cage | NB051314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 23 | 04047844002063 | Cervical cage | NB041314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 24 | 04047844002056 | Cervical cage with strut | N081314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 25 | 04047844002049 | Cervical cage with strut | N071314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 26 | 04047844002032 | Cervical cage with strut | N061314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 27 | 04047844002025 | Cervical cage with strut | N051314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 28 | 04047844002018 | Cervical cage with strut | N041314 | The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper The basic shape of the NUBIC and RABEA devices is a rectangular frame. The upper and lower aspects of the implant are open with surface spikes which assist in the positive anchorage and seating between the superior and inferior vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anantomical condition. A connecting screw is available which permits attachment of the NUBIC (without strut) to the SIGNUS TOSCA II anterior cervical plate if the surgeon so chooses. | NUBIC | SIGNUS MEDIZINTECHNIK GMBH |
| 29 | 04047844002001 | Lumbar cage, straight | BT181132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 30 | 04047844001998 | Lumbar cage, straight | BT180928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 31 | 04047844001981 | Lumbar cage, straight | BT161132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 32 | 04047844001974 | Lumbar cage, straight | BT160928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 33 | 04047844001967 | Lumbar cage, straight | BT141132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 34 | 04047844001950 | Lumbar cage, straight | BT140928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 35 | 04047844001943 | Lumbar cage, straight | BT131132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 36 | 04047844001936 | Lumbar cage, straight | BT130928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 37 | 04047844001929 | Lumbar cage, straight | BT121132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 38 | 04047844001431 | Lumbar cage, straight | TK120924 | The basic shape of the KIMBA®, KIMBA® mini, MOBIS®, NOVAL™, SEMIAL®, PEEK TETRIS The basic shape of the KIMBA®, KIMBA® mini, MOBIS®, NOVAL™, SEMIAL®, PEEK TETRIS™ and Titanium TETRIS™devices is a hollow structural frame. The upper and lower aspects of the implant are open. Surface spikes assist in the positive anchorage and seating of the implant between the vertebral bodies. The device is available in a variety of sizes enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition. | TETRIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 39 | 04047844001912 | Lumbar cage, straight | BT120928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 40 | 04047844001905 | Lumbar cage, straight | BT111132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 41 | 04047844001899 | Lumbar cage, straight | BT110928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 42 | 04047844001882 | Lumbar cage, straight | BT101132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 43 | 04047844001875 | Lumbar cage, straight | BT100928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 44 | 04047844001868 | Lumbar cage, straight | BT091132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 45 | 04047844001851 | Lumbar cage, straight | BT090928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 46 | 04047844001844 | Lumbar cage, straight | BT081132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 47 | 04047844001837 | Lumbar cage, straight | BT080928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 48 | 04047844001820 | Lumbar cage, straight | BT071132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 49 | 04047844001813 | Lumbar cage, straight | BT070928 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS 0° | SIGNUS MEDIZINTECHNIK GMBH |
| 50 | 04047844001790 | Lumbar cage, straight | B181132 | The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curv The KIMBA®, KIMBA® mini, MOBIS® and NOVAL™ implants have a hollow, slightly curved frame with tapered edges. The frame is made from PEEK-OPTIMA®.SEMIAL® spinal implants have a semi-cylindrical form and are hollow. The implant is made from PEEK-OPTIMA®. The provision of varying heights, together with a wedge shaped option, allow better lordosis control.The TETRIS® implants (PEEK and Titanium) are hollow having a rectangular frame with lateral fenestrations.The upper and lower aspects of the implant are open and the walls feature spikes which assist in the positive anchorage and seating of the implant between the superior and inferior vertebral bodies. These implants are available in a variety of dimensional and angular sizes. This enables the surgeon to choose the size suited to the individual pathology and anatomy and condition.The MOBIS, NOVAL, SEMIAL and PEEK TETRIS devices are manufactured from polyetheretherketone (PEEK-OPTIMA® LT1, Invibio™) as described by ASTM F2026. Integral marker pins are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3 or tantalum as described by ASTM F560. The Titanium TETRIS devices are manufactured from titanium alloy (Ti-6Al-4V) as described by ASTM F136 / ISO 5832-3. The KIMBA® and KIMBA® mini devices are manufactured from ECF PEEK OPTIMA (Invibio™). | MOBIS XL 0° | SIGNUS MEDIZINTECHNIK GMBH |