The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The nail is intended for use in the fixation of long bone fractures, including d
The nail is intended for use in the fixation of long bone fractures, including diaphyseal fractures. It is indicated for shaft fractures 5cm below the surgical neck, and 5cm proximal to the distal end of the medullary canal.Includes nail cap.
The interlocking intramedullary nail is intended for use in fixation of various
The interlocking intramedullary nail is intended for use in fixation of various types of fractures, including diaphyseal fractures and short distal or proximal fragments in the long bones.Includes nail cap.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
Hip pin used with the Fixion proximal femur intramedullary nail (intended for us
Hip pin used with the Fixion proximal femur intramedullary nail (intended for use in the fixation of proximal fractures in the femur).
Hip pin used with the Fixion proximal femur intramedullary nail (intended for us
Hip pin used with the Fixion proximal femur intramedullary nail (intended for use in the fixation of proximal fractures in the femur).
Hip pin used with the Fixion proximal femur intramedullary nail (intended for us
Hip pin used with the Fixion proximal femur intramedullary nail (intended for use in the fixation of proximal fractures in the femur).
Hip pin used with the Fixion proximal femur intramedullary nail (intended for us
Hip pin used with the Fixion proximal femur intramedullary nail (intended for use in the fixation of proximal fractures in the femur).
Hip pin used with the Fixion proximal femur intramedullary nail (intended for us
Hip pin used with the Fixion proximal femur intramedullary nail (intended for use in the fixation of proximal fractures in the femur).
Hip peg used with the Fixion proximal femur intramedullary nail (intended for us
Hip peg used with the Fixion proximal femur intramedullary nail (intended for use in the fixation of proximal fractures in the femur).
Hip peg used with the Fixion proximal femur intramedullary nail (intended for us
Hip peg used with the Fixion proximal femur intramedullary nail (intended for use in the fixation of proximal fractures in the femur).
Hip peg used with the Fixion proximal femur intramedullary nail (intended for us
Hip peg used with the Fixion proximal femur intramedullary nail (intended for use in the fixation of proximal fractures in the femur).
Hip peg used with the Fixion proximal femur intramedullary nail (intended for us
Hip peg used with the Fixion proximal femur intramedullary nail (intended for use in the fixation of proximal fractures in the femur).
Hip peg used with the Fixion proximal femur intramedullary nail (intended for us
Hip peg used with the Fixion proximal femur intramedullary nail (intended for use in the fixation of proximal fractures in the femur).
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The proximal femur intramedullary nail is intended for use in the fixation of pr
The proximal femur intramedullary nail is intended for use in the fixation of proximal fractures in the femur.
The Integra Titanium Bone Wedges are a series of wedge-shaped devices intended t
The Integra Titanium Bone Wedges are a series of wedge-shaped devices intended to be used for angular correction of small bones in the ankle and foot. The Integra Titanium Bone Wedges are constructed from commercially pure titanium formed into a cancellous-like structure. Trial Cotton 20 X 6.5
The Integra® Titanium Cotton Wedge Trials are inserted until the footprint is co
The Integra® Titanium Cotton Wedge Trials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Cotton Wedge Trials are inserted until the footprint is co
The Integra® Titanium Cotton Wedge Trials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Cotton Wedge Trials are inserted until the footprint is co
The Integra® Titanium Cotton Wedge Trials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Cotton Wedge Trials are inserted until the footprint is co
The Integra® Titanium Cotton Wedge Trials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Cotton Wedge Trials are inserted until the footprint is co
The Integra® Titanium Cotton Wedge Trials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congr
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congr
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congr
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congr
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congr
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congr
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congr
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congr
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congr
The Integra® Titanium Bone WedgeTrials are inserted until the footprint is congruent to the dimensions of the osteotomy surface, and the desired amount of correction is achieved. The trial is to confirm that the implanted wedge will be congruent with the osteotomy surface to provide the most optimal site for ingrowth of bone into the wedge.
The Integra Titanium Bone Wedge is intended to be used for internal bone fixatio
The Integra Titanium Bone Wedge is intended to be used for internal bone fixation for bone fractures or osteotomies in the ankle and foot. This set includes LCL trials and cotton trials to evaluate proper size and fit of the implants. A wedge inserter and tamp are also included for assistance.
The Integra External Fixation System set consists of rings and footplates. These
The Integra External Fixation System set consists of rings and footplates. These devices are used for stability and structure. The external fixation device is intended for use in the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of the external fixation modality.
The Integra External Fixation System set consists of rings, footplates, anterior
The Integra External Fixation System set consists of rings, footplates, anterior cross bars, and a rockerbottom. These devices are used for stability and structure. The external fixation device is intended for use in the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of the external fixation modality.
The Integra External Fixation System set consists of struts, rods, and hex posts
The Integra External Fixation System set consists of struts, rods, and hex posts. These devices are used for support in the construct. Plates and a universal joint are also included. The external fixation device is intended for use in the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of the external fixation modality.
The Integra External Fixation System set consists of wires, half-pins, nuts, and
The Integra External Fixation System set consists of wires, half-pins, nuts, and bolts. Instruments are also included to aid in assembly. The external fixation device is intended for use in the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of the external fixation modality.
The Integra External Fixation System two-post bridge is manufactured from stainl
The Integra External Fixation System two-post bridge is manufactured from stainless steel. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System half ring is used for stability and structu
The Integra External Fixation System half ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System 5/8 ring is used for stability and structur
The Integra External Fixation System 5/8 ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System half ring is used for stability and structu
The Integra External Fixation System half ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System full ring is used for stability and structu
The Integra External Fixation System full ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System 5/8 ring is used for stability and structur
The Integra External Fixation System 5/8 ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System anterior half ring is used for stability an
The Integra External Fixation System anterior half ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System half ring is used for stability and structu
The Integra External Fixation System half ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System full ring is used for stability and structu
The Integra External Fixation System full ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System 5/8 ring is used for stability and structur
The Integra External Fixation System 5/8 ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System footplate is used for stability and structu
The Integra External Fixation System footplate is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
A rockerbottom is attached to the bottom of the external device so that the pati
A rockerbottom is attached to the bottom of the external device so that the patient may stand on it if needed. It is manufactured from aluminum and silicone rubber.
A crossbar is manufactured from stainless steel and aluminum. It may be attached
A crossbar is manufactured from stainless steel and aluminum. It may be attached to the anterior ring for additional support.
A crossbar is manufactured from stainless steel and aluminum. It may be attached
A crossbar is manufactured from stainless steel and aluminum. It may be attached to the anterior ring for additional support.
The Integra External Fixation System anterior half ring is used for stability an
The Integra External Fixation System anterior half ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System half ring is used for stability and structu
The Integra External Fixation System half ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System full ring is used for stability and structu
The Integra External Fixation System full ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System 5/8 ring is used for stability and structur
The Integra External Fixation System 5/8 ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System footplate is used for stability and structu
The Integra External Fixation System footplate is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System anterior half ring is used for stability an
The Integra External Fixation System anterior half ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System half ring is used for stability and structu
The Integra External Fixation System half ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System full ring is used for stability and structu
The Integra External Fixation System full ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System 5/8 ring is used for stability and structur
The Integra External Fixation System 5/8 ring is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The Integra External Fixation System footplate is used for stability and structu
The Integra External Fixation System footplate is used for stability and structure. It is manufactured from aluminum. It is intended for the treatment of bone conditions including leg lengthening, osteotomies, arthrodesis, fracture fixation, and other bone conditions amenable to treatment by use of external fixation.
The universal joint is made from stainless steel. It is used to aid in the assem
The universal joint is made from stainless steel. It is used to aid in the assembly of the Integra External Fixation System.
The strut is an adjustable component designed to facilitate building and maintai
The strut is an adjustable component designed to facilitate building and maintaining frames, from initial surgery to follow-up care. This strut features an unlocked mode, where large adjustments may be made to the component’s vertical translation. It also features two distal ends which are designed to enable construction of frames with offset rings or different diameter rings. The tightened mode allows for fine adjustments in vertical translation; this enables surgeons to conveniently apply compression and distraction to the frame, both intra-operatively and post-operatively. The fully locked mode restricts translation and angular movement creating a rigid construct.
The strut is an adjustable component designed to facilitate building and maintai
The strut is an adjustable component designed to facilitate building and maintaining frames, from initial surgery to follow-up care. This strut features an unlocked mode, where large adjustments may be made to the component’s vertical translation. It also features one distal end which is designed to enable construction of frames with offset rings or different diameter rings. The tightened mode allows for fine adjustments in vertical translation; this enables surgeons to conveniently apply compression and distraction to the frame, both intra-operatively and post-operatively. The fully locked mode restricts translation and angular movement creating a rigid construct.
The strut is an adjustable component designed to facilitate building and maintai
The strut is an adjustable component designed to facilitate building and maintaining frames, from initial surgery to follow-up care. This strut features a tightened mode which allows for fine adjustments in vertical translation; this enables surgeons to conveniently apply compression and distraction to the frame, both intra-operatively and post-operatively. The fully locked mode restricts translation and angular movement creating a rigid construct.