• Standalone Cervical Spacer with integrated anchors
• Titanium BioBond® Porous Structure
• Footprints: 12mm x 14mm and 14mm x 16mm; 6-10mm heights
• Single Step Deployable Titanium Anchors
• Cam-Locking mechanism provides visual and tactile confirmation
• Lordosis: 6° and convex option

• Early bone apposition with PEEK-OPTIMA® HA Enhanced
• Simplified & modular instrumentation
• Self-locking retention clip
• Hybrid device offered to eliminate difficult screw trajectories
• Two Sizes: 14x12mm and 16x14mm
• Standard Heights: 6mm – 10mm
• Standard lordosis zero profile 4° & 8°
• Standard lordosis hybrid profile 4°

• 510(k) Cleared for Cervical Use
• Two-Screw Design
• Integrated Single-Step Screw Blocking Mechanism
• Stackable to Accommodate Multiple Adjacent Levels
• Simultaneous Insertion with Cervical Interbodies: Tiger Shark® C and Stealth™
•20° Maximum Cranial/Caudal Screw Angulation
• Anti-Migration Teeth
• Multiple Plate Sizes & Screw Lengths

• Continuous, open porosity
• Radiographic mesh windows
• Simple, one-step method using the threaded inserter
• Sterile-packaged for maximum patient safety
• 6° lordotic footprints available in 14 x 2mm,16 x 14mm, and 18 x 15mm* with a height range of 5-10mm in 1mm increments (*Available upon request.)

• Hinged Allograft Plate: 4-14 mm (2 mm inc)
• Hinged Hook and Kickstand Plate: 6-14 mm (2 mm inc)
• Hinged Plate: One Size
• Hinged Design to conform to exact anatomical geometry
• Hinge design fits range of laminar thicknesses
• Titanium Spacer: 4-14 mm (2 mm inc)
• Tapped thread on spacer provides better lock to plate than similar allograft
• Grit blasted for high performance grip

• Hybrid Anterior Cervical Plate allows for variable and fixed constructs
• Thin 1.9mm plate profile
• Plate curvature allows for a fit with the natural lordosis of the spine
• Large window for optimal visualization
• Optimized screw purchase
• Narrow plate profile – 16mm at widest point
• Cam is designed to control settling in the sagittal plane and reduce motion in all other planes

• Large visual access area for maximum allograft viewing both through and around the scalloped sides of the plate
• Simple one-step locking clip to ensure that the screws are secure
• Low-profile design (1.9mm) and narrow silhouette for placement on the spinal column
• Self-drilling and self-tapping, fixed and variable angle screws for maximum purchase
• Large assortment of plate lengths to accommodate a variety of patient anatomies
• Scalloped Sides for Lateral Visualization

• Non-biased 70° of conical angulation
• 3 diameters, fully threaded and smooth shank
• Minimizes head splaying and cross-threading
• Allows for variations in anatomy and technique

• Beveled nose for easy insertion
• Prominent teeth for optimizing endplate engagement
• Large graft window for more bone graft volume

• PEEK-OPTIMA® for radiolucency
• Two footprints: 12Dx14W & 14Dx16W
• Three sagittal profiles: 6° lordotic, parallel, and convex. Heights available in 5mm to 12mm in 6 degree lordotic, parallel and convex
• Large Graft Window
• Simple Instrumentation
• Angular teeth designed to prevent spacer migration

• Created with Biobond® 3D printed titanium porous structure
• Integrated Cam-Locking Mechanism
• Large graft window perfect for combining with with Stratofuse® Biologics
• Corticocancellous screws designed for lag purchase with up to 45° of angulation
• Seamless instrumentation

• BioBond® porous structure technology designed to promote bone growth
• Large open graft window to pack Statofuse® biologics
• Simple threaded inserter
• Various sizes to accommodate different patient anatomies

• Direct visualization of psoas and nerves before dissection
• Two-stage retraction: First stage retracts the body wall, second stage retracts the psoas muscle
• Limited muscle trauma through psoas splitting.
• Minimal tissue intrusion through the radiolucent tubular retractor
• Direct visualization of the operative site
• Unobstructed fluoroscopic views

• Self-distracting nose for ease of insertion
• Asymmetric teeth for optimizing endplate engagement
• Large graft window for bone graft volume

• Footprints: 34 x 25mm & 38 x 27mm
• Lordosis: 6°, 12°, and 20°
• Heights: 10 – 18mm in 2mm increments
• Provides three points of insertion to facilitate direct anterior, anterolateral, and direct lateral surgical approaches
• Manufactured of biocompatible PEEK Polymer
• Reinforced center strut increases strength of implant for impaction

• Self-distracting nose for ease of insertion
• Asymmetric teeth for optimizing endplate engagement
• Large graft window for more bone graft volume

• BioBond 3D printed titanium matrix
• Built-in 6° lordosis
• 9mm and 11mm wide implants footprints are available
• Various heights: 9-18mm in 1mm increments
• Large center opening for packing bone graft material
• Surgeon-friendly instrumentation to simplify the procedure

• Multiple footprints allow for different approach options to accommodate patient anatomies
• Titanium coating is designed to create a bone friendly environment
• Non-coated, bullet shaped nose designed to ease insertion
• Generous graft window
• Sterile packaged to ensure product quality
• Angular teeth designed to prevent spacer migration
• Threaded opening in the posterior section of the spacer allows for removal if necessary
• Available in 6° Lordosis*

• BioBond 3D printed titanium matrix
• Built in 0°, 6°, and 12° lordosis
• Large center opening for packing bone graft material
• Surgeon friendly instrumentation to simplify the procedure

• BioBond 3D printed titanium matrix
• Built in 0°, 6°, and 12° lordosis
• Large center opening for packing bone graft material
• Surgeon friendly instrumentation to simplify the procedure

• Insertion height of 7mm
• Height expansion from 9mm to 15mm in single interbody option
• Posterior opening and instrumentation allow for autogenous bone graft delivery
• Radiographic markers designed to aid in confirming final positioning and assembly • Multiple footprints enable surgeons more flexibility in sizing intraoperatively • Single step expansion • Angular teeth designed to prevent migration • Large graft area

• Built in lordosis: 8°
• 14-60mm implant sizes in 2mm increments
• Two footprint options: small (12mm × 14mm) and medium (14mm × 16mm) to treat various patient anatomies
• Large center opening for bone graft material
• Lateral and Anterior windows for implant positioning verification
• 510(k) cleared for cervical and lumbar use

• Small/sleek tulip design reduces the anatomical impact
• Dovetail set screws, and tulip threads help minimize head splay and cross-threading
• Dual-lead screw threads facilitate quick screw insertion
• THUNDERBOLT screws are also compatible with LANCER™ open instrumentation to meet the most challenging scenarios

• Comprehensive portfolio of screws, rods, hooks, and connectors address a wide variety of patient anatomies
• Simple and effective instrumentation helps create and streamlined procedure-
• Ti-6Al-4V and CoCr rod options available
• Implant and instrumentation designs allow for seamless conversion from THUNDERBOLT™ MIS+

• Compatibility with our VEO® Lateral Access Retractor System
• Integrated Cam Locking Mechanism that provides a visual, tactile, and audible confirmation of screw locking.
• 10 degrees of screw angulation
• Plate Heights: 15mm – 23mm in 2mm increments
• Screw Lengths: 35mm – 60mm in 5mm increments
• Screw Diameters: ø5.0mm & ø5.5mm
• Streamlined Instrumentation

• Combined insertion with HARRIER-SA lumbar interbody
• 4-Screw Anterior Plate
• Anterior Cortical Rim Fixation
• Variable Screw Angulation
• Simple Visual and Tactile Cam Locking Mechanism for final locking

• Specialized screw head provides fixation into cortical bone of superior facet
• Lag section is designed to facilitate compression of facet joint
• Sharp threads are designed to easily advance through three cortical bone interfaces while minimizing damage to superior facet
• Deformable washers mold to superior facet joint to provide additional fixation

• Dual lead threads allows for faster insertion
•Simple and effective instrumentation help create and streamlined procedure
• Comprehensive portfolio of screws, rod and connectors that address a wide variety of patient anatomies

• Direct visualization of psoas and nerves before dissection
• Two-stage retraction: First stage retracts the body wall, second stage retracts the psoas muscle
• Limited muscle trauma through psoas splitting.
• Minimal tissue intrusion through the radiolucent tubular retractor
• Direct visualization of the operative site
• Unobstructed fluoroscopic views

• Simple and easy to use instrumentation designed to reduce surgical steps in the operating room
• Three bone gathering channels
• Open and Porous graft windows including our proprietary BioBond® technology
• Sterilized 3D Printed Sacroiliac Joint Fixation Screws
• Cannulated to allow for in-site graft delivery and promote bone growth through the screw

• Osteoinductive: each lot is tested in-vivo
• Osteoconductive
• Ambient storage and shipping temperatures
• Resists migration
• Hydrates in minutes
• Five year shelf life
• Sterile: SAL 10-6

• 100% Demineralized allograft bone, no carrier
• Formable and irrigation resistant
• Osteoconductive
• Osteoinductive potential
• Sterile: SAL 10-6

• 100% Demineralized allograft bone, no carrier
• Formable and irrigation resistant
• Osteoconductive
• Osteoinductive potential
• Two year shelf life
• Sterile: SAL 10-6

• 100% Allograft Bone, No Carrier
• Shapeable, Moldable Fibers
• High-Wicking Capacity
• 3-D Scaffold Architecture
• Osteoconductive
• Osteoinductive—Every Lot Tested for Osteoinductivity

• Promotes regenerative healing
• Anti-scarring
• Anti-inflammation
• Anti-microbial
• Non-immunogenic

• Optimal Resorption & Remodeling
• Natural Mineral Structure Similar to Human Bone Mineral
• More Calcium Phosphate Deposition Than βTCP
• Half the crystallinity than HA, More Soluble
• Independent Studies have shown Higher Osteoclastic & Osteoblastic Activity than βTCP & HA

• Synthetic bone graft (60%HA / 40%ß-TCP and collagen)
• HA/ß-TCP ratio supports production of better fusion mass
• Collagen improves cellular attachment properties
• Moldable Putty and irrigation resistant
• Biocompatible and bioresorbable
• 3-year shelf life Strip; 2-year shelf life Putty
• Sterile: SAL 10-6

• Standalone Cervical Spacer with integrated anchors
• Titanium BioBond® Porous Structure
• Footprints: 12mm x 14mm and 14mm x 16mm; 6-10mm heights
• Single Step Deployable Titanium Anchors
• Cam-Locking mechanism provides visual and tactile confirmation
• Lordosis: 6° and convex option

• Early bone apposition with PEEK-OPTIMA® HA Enhanced
• Simplified & modular instrumentation
• Self-locking retention clip
• Hybrid device offered to eliminate difficult screw trajectories
• Two Sizes: 14x12mm and 16x14mm
• Standard Heights: 6mm – 10mm
• Standard lordosis zero profile 4° & 8°
• Standard lordosis hybrid profile 4°

• 510(k) Cleared for Cervical Use
• Two-Screw Design
• Integrated Single-Step Screw Blocking Mechanism
• Stackable to Accommodate Multiple Adjacent Levels
• Simultaneous Insertion with Cervical Interbodies: Tiger Shark® C and Stealth™
•20° Maximum Cranial/Caudal Screw Angulation
• Anti-Migration Teeth
• Multiple Plate Sizes & Screw Lengths

• Continuous, open porosity
• Radiographic mesh windows
• Simple, one-step method using the threaded inserter
• Sterile-packaged for maximum patient safety
• 6° lordotic footprints available in 14 x 2mm,16 x 14mm, and 18 x 15mm* with a height range of 5-10mm in 1mm increments (*Available upon request.)

• Hinged Allograft Plate: 4-14 mm (2 mm inc)
• Hinged Hook and Kickstand Plate: 6-14 mm (2 mm inc)
• Hinged Plate: One Size
• Hinged Design to conform to exact anatomical geometry
• Hinge design fits range of laminar thicknesses
• Titanium Spacer: 4-14 mm (2 mm inc)
• Tapped thread on spacer provides better lock to plate than similar allograft
• Grit blasted for high performance grip

• Hybrid Anterior Cervical Plate allows for variable and fixed constructs
• Thin 1.9mm plate profile
• Plate curvature allows for a fit with the natural lordosis of the spine
• Large window for optimal visualization
• Optimized screw purchase
• Narrow plate profile – 16mm at widest point
• Cam is designed to control settling in the sagittal plane and reduce motion in all other planes

• Large visual access area for maximum allograft viewing both through and around the scalloped sides of the plate
• Simple one-step locking clip to ensure that the screws are secure
• Low-profile design (1.9mm) and narrow silhouette for placement on the spinal column
• Self-drilling and self-tapping, fixed and variable angle screws for maximum purchase
• Large assortment of plate lengths to accommodate a variety of patient anatomies
• Scalloped Sides for Lateral Visualization

• Non-biased 70° of conical angulation
• 3 diameters, fully threaded and smooth shank
• Minimizes head splaying and cross-threading
• Allows for variations in anatomy and technique

• Beveled nose for easy insertion
• Prominent teeth for optimizing endplate engagement
• Large graft window for more bone graft volume

• PEEK-OPTIMA® for radiolucency
• Two footprints: 12Dx14W & 14Dx16W
• Three sagittal profiles: 6° lordotic, parallel, and convex. Heights available in 5mm to 12mm in 6 degree lordotic, parallel and convex
• Large Graft Window
• Simple Instrumentation
• Angular teeth designed to prevent spacer migration

• Created with Biobond® 3D printed titanium porous structure
• Integrated Cam-Locking Mechanism
• Large graft window perfect for combining with with Stratofuse® Biologics
• Corticocancellous screws designed for lag purchase with up to 45° of angulation
• Seamless instrumentation

• BioBond® porous structure technology designed to promote bone growth
• Large open graft window to pack Statofuse® biologics
• Simple threaded inserter
• Various sizes to accommodate different patient anatomies

• Direct visualization of psoas and nerves before dissection
• Two-stage retraction: First stage retracts the body wall, second stage retracts the psoas muscle
• Limited muscle trauma through psoas splitting.
• Minimal tissue intrusion through the radiolucent tubular retractor
• Direct visualization of the operative site
• Unobstructed fluoroscopic views

• Self-distracting nose for ease of insertion
• Asymmetric teeth for optimizing endplate engagement
• Large graft window for bone graft volume

• Footprints: 34 x 25mm & 38 x 27mm
• Lordosis: 6°, 12°, and 20°
• Heights: 10 – 18mm in 2mm increments
• Provides three points of insertion to facilitate direct anterior, anterolateral, and direct lateral surgical approaches
• Manufactured of biocompatible PEEK Polymer
• Reinforced center strut increases strength of implant for impaction

• Self-distracting nose for ease of insertion
• Asymmetric teeth for optimizing endplate engagement
• Large graft window for more bone graft volume

• Multiple footprints allow for different approach options to accommodate patient anatomies
• Titanium coating is designed to create a bone friendly environment
• Non-coated, bullet shaped nose designed to ease insertion
• Generous graft window
• Sterile packaged to ensure product quality
• Angular teeth designed to prevent spacer migration
• Threaded opening in the posterior section of the spacer allows for removal if necessary
• Available in 6° Lordosis*

• BioBond 3D printed titanium matrix
• Built in 0°, 6°, and 12° lordosis
• Large center opening for packing bone graft material
• Surgeon friendly instrumentation to simplify the procedure

• BioBond 3D printed titanium matrix
• Built in 0°, 6°, and 12° lordosis
• Large center opening for packing bone graft material
• Surgeon friendly instrumentation to simplify the procedure

• Insertion height of 7mm
• Height expansion from 9mm to 15mm in single interbody option
• Posterior opening and instrumentation allow for autogenous bone graft delivery
• Radiographic markers designed to aid in confirming final positioning and assembly • Multiple footprints enable surgeons more flexibility in sizing intraoperatively • Single step expansion • Angular teeth designed to prevent migration • Large graft area

• Built in lordosis: 8°
• 14-60mm implant sizes in 2mm increments
• Two footprint options: small (12mm × 14mm) and medium (14mm × 16mm) to treat various patient anatomies
• Large center opening for bone graft material
• Lateral and Anterior windows for implant positioning verification
• 510(k) cleared for cervical and lumbar use

• Small/sleek tulip design reduces the anatomical impact
• Dovetail set screws, and tulip threads help minimize head splay and cross-threading
• Dual-lead screw threads facilitate quick screw insertion
• THUNDERBOLT screws are also compatible with LANCER™ open instrumentation to meet the most challenging scenarios

• Comprehensive portfolio of screws, rods, hooks, and connectors address a wide variety of patient anatomies
• Simple and effective instrumentation helps create and streamlined procedure-
• Ti-6Al-4V and CoCr rod options available
• Implant and instrumentation designs allow for seamless conversion from THUNDERBOLT™ MIS+

• Compatibility with our VEO® Lateral Access Retractor System
• Integrated Cam Locking Mechanism that provides a visual, tactile, and audible confirmation of screw locking.
• 10 degrees of screw angulation
• Plate Heights: 15mm – 23mm in 2mm increments
• Screw Lengths: 35mm – 60mm in 5mm increments
• Screw Diameters: ø5.0mm & ø5.5mm
• Streamlined Instrumentation

• Combined insertion with HARRIER-SA lumbar interbody
• 4-Screw Anterior Plate
• Anterior Cortical Rim Fixation
• Variable Screw Angulation
• Simple Visual and Tactile Cam Locking Mechanism for final locking

• Specialized screw head provides fixation into cortical bone of superior facet
• Lag section is designed to facilitate compression of facet joint
• Sharp threads are designed to easily advance through three cortical bone interfaces while minimizing damage to superior facet
• Deformable washers mold to superior facet joint to provide additional fixation

• Dual lead threads allows for faster insertion
•Simple and effective instrumentation help create and streamlined procedure
• Comprehensive portfolio of screws, rod and connectors that address a wide variety of patient anatomies

• BioBond 3D printed titanium matrix
•Built-in 6° lordosis
• 9mm and 11mm wide implants footprints are available
• Various heights: 9-18mm in 1mm increments
• Large center opening for packing bone graft material
• Surgeon-friendly instrumentation to simplify the procedure

• Direct visualization of psoas and nerves before dissection
• Two-stage retraction: First stage retracts the body wall, second stage retracts the psoas muscle
• Limited muscle trauma through psoas splitting.
• Minimal tissue intrusion through the radiolucent tubular retractor
• Direct visualization of the operative site
• Unobstructed fluoroscopic views

• Simple and easy to use instrumentation designed to reduce surgical steps in the operating room
• Three bone gathering channels
• Open and Porous graft windows including our proprietary BioBond® technology
• Sterilized 3D Printed Sacroiliac Joint Fixation Screws
• Cannulated to allow for in-site graft delivery and promote bone growth through the screw

• Osteoinductive: each lot is tested in-vivo
• Osteoconductive
• Ambient storage and shipping temperatures
• Resists migration
• Hydrates in minutes
• Five year shelf life
• Sterile: SAL 10-6

• 100% Demineralized allograft bone, no carrier
• Formable and irrigation resistant
• Osteoconductive
• Osteoinductive potential
• Sterile: SAL 10-6

• 100% Demineralized allograft bone, no carrier
• Formable and irrigation resistant
• Osteoconductive
• Osteoinductive potential
• Two year shelf life
• Sterile: SAL 10-6

• 100% Allograft Bone, No Carrier
• Shapeable, Moldable Fibers
• High-Wicking Capacity
• 3-D Scaffold Architecture
• Osteoconductive
• Osteoinductive—Every Lot Tested for Osteoinductivity

• Promotes regenerative healing
• Anti-scarring
• Anti-inflammation
• Anti-microbial
• Non-immunogenic

• Optimal Resorption & Remodeling
• Natural Mineral Structure Similar to Human Bone Mineral
• More Calcium Phosphate Deposition Than βTCP
• Half the crystallinity than HA, More Soluble
• Independent Studies have shown Higher Osteoclastic & Osteoblastic Activity than βTCP & HA

• Synthetic bone graft (60%HA / 40%ß-TCP and collagen)
• HA/ß-TCP ratio supports production of better fusion mass
• Collagen improves cellular attachment properties
• Moldable Putty and irrigation resistant
• Biocompatible and bioresorbable
• 3-year shelf life Strip; 2-year shelf life Putty
• Sterile: SAL 10-6

• Standalone Cervical Spacer with integrated anchors
• Titanium BioBond® Porous Structure
• Footprints: 12mm x 14mm and 14mm x 16mm; 6-10mm heights
• Single Step Deployable Titanium Anchors
• Cam-Locking mechanism provides visual and tactile confirmation
• Lordosis: 6° and convex option

• Early bone apposition with PEEK-OPTIMA® HA Enhanced
• Simplified & modular instrumentation
• Self-locking retention clip
• Hybrid device offered to eliminate difficult screw trajectories
• Two Sizes: 14x12mm and 16x14mm
• Standard Heights: 6mm – 10mm
• Standard lordosis zero profile 4° & 8°
• Standard lordosis hybrid profile 4°

• 510(k) Cleared for Cervical Use
• Two-Screw Design
• Integrated Single-Step Screw Blocking Mechanism
• Stackable to Accommodate Multiple Adjacent Levels
• Simultaneous Insertion with Cervical Interbodies: Tiger Shark® C and Stealth™
•20° Maximum Cranial/Caudal Screw Angulation
• Anti-Migration Teeth
• Multiple Plate Sizes & Screw Lengths

• Continuous, open porosity
• Radiographic mesh windows
• Simple, one-step method using the threaded inserter
• Sterile-packaged for maximum patient safety
• 6° lordotic footprints available in 14 x 2mm,16 x 14mm, and 18 x 15mm* with a height range of 5-10mm in 1mm increments (*Available upon request.)

• Hinged Allograft Plate: 4-14 mm (2 mm inc)
• Hinged Hook and Kickstand Plate: 6-14 mm (2 mm inc)
• Hinged Plate: One Size
• Hinged Design to conform to exact anatomical geometry
• Hinge design fits range of laminar thicknesses
• Titanium Spacer: 4-14 mm (2 mm inc)
• Tapped thread on spacer provides better lock to plate than similar allograft
• Grit blasted for high performance grip

• Hybrid Anterior Cervical Plate allows for variable and fixed constructs
• Thin 1.9mm plate profile
• Plate curvature allows for a fit with the natural lordosis of the spine
• Large window for optimal visualization
• Optimized screw purchase
• Narrow plate profile – 16mm at widest point
• Cam is designed to control settling in the sagittal plane and reduce motion in all other planes

• Large visual access area for maximum allograft viewing both through and around the scalloped sides of the plate
• Simple one-step locking clip to ensure that the screws are secure
• Low-profile design (1.9mm) and narrow silhouette for placement on the spinal column
• Self-drilling and self-tapping, fixed and variable angle screws for maximum purchase
• Large assortment of plate lengths to accommodate a variety of patient anatomies
• Scalloped Sides for Lateral Visualization

• Non-biased 70° of conical angulation
• 3 diameters, fully threaded and smooth shank
• Minimizes head splaying and cross-threading
• Allows for variations in anatomy and technique

• Beveled nose for easy insertion
• Prominent teeth for optimizing endplate engagement
• Large graft window for more bone graft volume

• PEEK-OPTIMA® for radiolucency
• Two footprints: 12Dx14W & 14Dx16W
• Three sagittal profiles: 6° lordotic, parallel, and convex. Heights available in 5mm to 12mm in 6 degree lordotic, parallel and convex
• Large Graft Window
• Simple Instrumentation
• Angular teeth designed to prevent spacer migration

• Created with Biobond® 3D printed titanium porous structure
• Integrated Cam-Locking Mechanism
• Large graft window perfect for combining with with Stratofuse® Biologics
• Corticocancellous screws designed for lag purchase with up to 45° of angulation
• Seamless instrumentation

• BioBond® porous structure technology designed to promote bone growth
• Large open graft window to pack Statofuse® biologics
• Simple threaded inserter
• Various sizes to accommodate different patient anatomies

• Direct visualization of psoas and nerves before dissection
• Two-stage retraction: First stage retracts the body wall, second stage retracts the psoas muscle
• Limited muscle trauma through psoas splitting.
• Minimal tissue intrusion through the radiolucent tubular retractor
• Direct visualization of the operative site
• Unobstructed fluoroscopic views

• Self-distracting nose for ease of insertion
• Asymmetric teeth for optimizing endplate engagement
• Large graft window for bone graft volume

• Footprints: 34 x 25mm & 38 x 27mm
• Lordosis: 6°, 12°, and 20°
• Heights: 10 – 18mm in 2mm increments
• Provides three points of insertion to facilitate direct anterior, anterolateral, and direct lateral surgical approaches
• Manufactured of biocompatible PEEK Polymer
• Reinforced center strut increases strength of implant for impaction

• Self-distracting nose for ease of insertion
• Asymmetric teeth for optimizing endplate engagement
• Large graft window for more bone graft volume

• BioBond 3D printed titanium matrix
• Built-in 6° lordosis
• 9mm and 11mm wide implants footprints are available
• Various heights: 9-18mm in 1mm increments
• Large center opening for packing bone graft material
• Surgeon-friendly instrumentation to simplify the procedure

• Multiple footprints allow for different approach options to accommodate patient anatomies
• Titanium coating is designed to create a bone friendly environment
• Non-coated, bullet shaped nose designed to ease insertion
• Generous graft window
• Sterile packaged to ensure product quality
• Angular teeth designed to prevent spacer migration
• Threaded opening in the posterior section of the spacer allows for removal if necessary
• Available in 6° Lordosis*

• BioBond 3D printed titanium matrix
• Built in 0°, 6°, and 12° lordosis
• Large center opening for packing bone graft material
• Surgeon friendly instrumentation to simplify the procedure

• BioBond 3D printed titanium matrix
• Built in 0°, 6°, and 12° lordosis
• Large center opening for packing bone graft material
• Surgeon friendly instrumentation to simplify the procedure

• Insertion height of 7mm
• Height expansion from 9mm to 15mm in single interbody option
• Posterior opening and instrumentation allow for autogenous bone graft delivery
• Radiographic markers designed to aid in confirming final positioning and assembly • Multiple footprints enable surgeons more flexibility in sizing intraoperatively • Single step expansion • Angular teeth designed to prevent migration • Large graft area

• Built in lordosis: 8°
• 14-60mm implant sizes in 2mm increments
• Two footprint options: small (12mm × 14mm) and medium (14mm × 16mm) to treat various patient anatomies
• Large center opening for bone graft material
• Lateral and Anterior windows for implant positioning verification
• 510(k) cleared for cervical and lumbar use

• Small/sleek tulip design reduces the anatomical impact
• Dovetail set screws, and tulip threads help minimize head splay and cross-threading
• Dual-lead screw threads facilitate quick screw insertion
• THUNDERBOLT screws are also compatible with LANCER™ open instrumentation to meet the most challenging scenarios

• Comprehensive portfolio of screws, rods, hooks, and connectors address a wide variety of patient anatomies
• Simple and effective instrumentation helps create and streamlined procedure-
• Ti-6Al-4V and CoCr rod options available
• Implant and instrumentation designs allow for seamless conversion from THUNDERBOLT™ MIS+

• Compatibility with our VEO® Lateral Access Retractor System
• Integrated Cam Locking Mechanism that provides a visual, tactile, and audible confirmation of screw locking.
• 10 degrees of screw angulation
• Plate Heights: 15mm – 23mm in 2mm increments
• Screw Lengths: 35mm – 60mm in 5mm increments
• Screw Diameters: ø5.0mm & ø5.5mm
• Streamlined Instrumentation

• Combined insertion with HARRIER-SA lumbar interbody
• 4-Screw Anterior Plate
• Anterior Cortical Rim Fixation
• Variable Screw Angulation
• Simple Visual and Tactile Cam Locking Mechanism for final locking

• Specialized screw head provides fixation into cortical bone of superior facet
• Lag section is designed to facilitate compression of facet joint
• Sharp threads are designed to easily advance through three cortical bone interfaces while minimizing damage to superior facet
• Deformable washers mold to superior facet joint to provide additional fixation

• Dual lead threads allows for faster insertion
•Simple and effective instrumentation help create and streamlined procedure
• Comprehensive portfolio of screws, rod and connectors that address a wide variety of patient anatomies

• Direct visualization of psoas and nerves before dissection
• Two-stage retraction: First stage retracts the body wall, second stage retracts the psoas muscle
• Limited muscle trauma through psoas splitting.
• Minimal tissue intrusion through the radiolucent tubular retractor
• Direct visualization of the operative site
• Unobstructed fluoroscopic views

• Simple and easy to use instrumentation designed to reduce surgical steps in the operating room
• Three bone gathering channels
• Open and Porous graft windows including our proprietary BioBond® technology
• Sterilized 3D Printed Sacroiliac Joint Fixation Screws
• Cannulated to allow for in-site graft delivery and promote bone growth through the screw

• Osteoinductive: each lot is tested in-vivo
• Osteoconductive
• Ambient storage and shipping temperatures
• Resists migration
• Hydrates in minutes
• Five year shelf life
• Sterile: SAL 10-6

• 100% Demineralized allograft bone, no carrier
• Formable and irrigation resistant
• Osteoconductive
• Osteoinductive potential
• Sterile: SAL 10-6

• 100% Demineralized allograft bone, no carrier
• Formable and irrigation resistant
• Osteoconductive
• Osteoinductive potential
• Two year shelf life
• Sterile: SAL 10-6

• 100% Allograft Bone, No Carrier
• Shapeable, Moldable Fibers
• High-Wicking Capacity
• 3-D Scaffold Architecture
• Osteoconductive
• Osteoinductive—Every Lot Tested for Osteoinductivity

• Promotes regenerative healing
• Anti-scarring
• Anti-inflammation
• Anti-microbial
• Non-immunogenic

• Optimal Resorption & Remodeling
• Natural Mineral Structure Similar to Human Bone Mineral
• More Calcium Phosphate Deposition Than βTCP
• Half the crystallinity than HA, More Soluble
• Independent Studies have shown Higher Osteoclastic & Osteoblastic Activity than βTCP & HA

• Synthetic bone graft (60%HA / 40%ß-TCP and collagen)
• HA/ß-TCP ratio supports production of better fusion mass
• Collagen improves cellular attachment properties
• Moldable Putty and irrigation resistant
• Biocompatible and bioresorbable
• 3-year shelf life Strip; 2-year shelf life Putty
• Sterile: SAL 10-6