BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure t
BEE®PLIF cages have been specially adapted to suit the local anatomy to ensure the operative outcome to the greatest extent possible. BEE®PLIF cages are made of titanium alloy in accordance with ASTM F3001 and are produced in an additive manufacturing process. The implants are available in various heights, lengths and lordosis angles. The cranial and caudal side of the implant is rough to achieve a good degree of anchoring of the implant.
MAX
Intervertebral Fusion Device With Bone Graft, Lumbar
Gliding Hole Drill 3.1 x 90 mm WL 40 mm AO cannulated 1 x yellow 1 x grey
Gliding Hole Drill 3.1 x 90 mm WL 40 mm AO cannulated 1 x yellow 1 x grey for 3.0 mm screws
Gliding Hole Drill 6.6 x 220 mm WL 40 mmAO cannulated 1 x red 1 x grey
Gliding Hole Drill 6.6 x 220 mm WL 40 mmAO cannulated 1 x red 1 x grey for 6.5 mm screws
Gliding Hole Drill 4.6 x 98 mm WL 50 mm AO cannulated 1 x green 1 x grey
Gliding Hole Drill 4.6 x 98 mm WL 50 mm AO cannulated 1 x green 1 x grey for 4.5 mm screws
Gliding Hole Drill 4.1 x 98 mm WL 50 mm AO cannulated 1 x green 1 x blue
Gliding Hole Drill 4.1 x 98 mm WL 50 mm AO cannulated 1 x green 1 x blue for 4.0 mm screws
Pilot Drill 3.3 x 124 mm WL 75 mm AO cannulated 1 x green 1 x grey
Pilot Drill 3.3 x 124 mm WL 75 mm AO cannulated 1 x green 1 x grey for 4.5 mm screws
Pilot Drill 2.8 x 124 mm WL 75 mm AO cannulated 1 x green 1 x blue
Pilot Drill 2.8 x 124 mm WL 75 mm AO cannulated 1 x green 1 x blue for 4.0 mm screws
Pilot Drill 2.1 x 110 mm WL 60 mm AO cannulated 1 x yellow 1 x grey
Pilot Drill 2.1 x 110 mm WL 60 mm AO cannulated 1 x yellow 1 x grey for 3.0 mm screws
Gliding Hole Drill 2.5 x 77 mm WL 27 mm AO cannulated 1 x blue 1 x red
Gliding Hole Drill 2.5 x 77 mm WL 27 mm AO cannulated 1 x blue 1 x red for 2.3 mm screws