An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in apr
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in aprepared intervertebral disc space of the lumbar spine. Its design offers stable contactsurfaces, toothed implant/bone surfaces and large cage windows. The open implant design supports a bony construction of the intervertebral disc space. The implants consist of a cage and a pre-assembled expansion element.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in apr
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in aprepared intervertebral disc space of the lumbar spine. Its design offers stable contactsurfaces, toothed implant/bone surfaces and large cage windows. The open implant design supports a bony construction of the intervertebral disc space. The implants consist of a cage and a pre-assembled expansion element.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in apr
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in aprepared intervertebral disc space of the lumbar spine. Its design offers stable contactsurfaces, toothed implant/bone surfaces and large cage windows. The open implant design supports a bony construction of the intervertebral disc space. The implants consist of a cage and a pre-assembled expansion element.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in apr
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in aprepared intervertebral disc space of the lumbar spine. Its design offers stable contactsurfaces, toothed implant/bone surfaces and large cage windows. The open implant design supports a bony construction of the intervertebral disc space. The implants consist of a cage and a pre-assembled expansion element.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in apr
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in aprepared intervertebral disc space of the lumbar spine. Its design offers stable contactsurfaces, toothed implant/bone surfaces and large cage windows. The open implant design supports a bony construction of the intervertebral disc space. The implants consist of a cage and a pre-assembled expansion element.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in apr
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in aprepared intervertebral disc space of the lumbar spine. Its design offers stable contactsurfaces, toothed implant/bone surfaces and large cage windows. The open implant design supports a bony construction of the intervertebral disc space. The implants consist of a cage and a pre-assembled expansion element.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in apr
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in aprepared intervertebral disc space of the lumbar spine. Its design offers stable contactsurfaces, toothed implant/bone surfaces and large cage windows. The open implant design supports a bony construction of the intervertebral disc space. The implants consist of a cage and a pre-assembled expansion element.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in apr
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in aprepared intervertebral disc space of the lumbar spine. Its design offers stable contactsurfaces, toothed implant/bone surfaces and large cage windows. The open implant design supports a bony construction of the intervertebral disc space. The implants consist of a cage and a pre-assembled expansion element.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in apr
The VERTACONNECT TLIF Spreadable Lumbar Cage is a spacer for implantation in aprepared intervertebral disc space of the lumbar spine. Its design offers stable contactsurfaces, toothed implant/bone surfaces and large cage windows. The open implant design supports a bony construction of the intervertebral disc space. The implants consist of a cage and a pre-assembled expansion element.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
An orthopedic manual surgical instrument is a nonpowered hand-held device intend
An orthopedic manual surgical instrument is a nonpowered hand-held device intended for medical purposes to manipulate tissue, or for use with other devices in orthopedic surgery.
LXH
Orthopedic Manual Surgical Instrument
1
DIPLOMAT MIS
Other products with the same Product Codes"MAX, MQP"
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.
The basic shape of the TASMIN R devices is a hollow structural frame having a ro
The basic shape of the TASMIN R devices is a hollow structural frame having a rounded, tapered leading face. The upper and lower aspects of the implant are open with peaked teeth that assist in anchoring and seating the implant between the vertebral bodies. There are lateral fenestrations for bony in-growth. the device is avaible in a variety of sizes and angulations thereby enabling the surgeon to choose the size best suited to the individual pathology and anatomical condition.