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® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixa
The Integra® Titanium Bone Wedges are intended to be used for internal bone fixation for bone fracturesor osteotomies in the ankle and foot
The Integra Total Foot System interpositioning plate is used to space apart two
The Integra Total Foot System interpositioning plate is used to space apart two bones or a joint. The plate is anatomically T-shaped with increased width and stem depth for ease of insertion and less intraoperative contouring required.
The Integra Total Foot System interpositioning plate is used to space apart two
The Integra Total Foot System interpositioning plate is used to space apart two bones or a joint. The plate is anatomically T-shaped with increased width and stem depth for ease of insertion and less intraoperative contouring required.
The non-locking partial threaded screw is made from stainless steel and is used
The non-locking partial threaded screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The non-locking partial threaded screw is made from stainless steel and is used
The non-locking partial threaded screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The non-locking partial threaded screw is made from stainless steel and is used
The non-locking partial threaded screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The non-locking partial threaded screw is made from stainless steel and is used
The non-locking partial threaded screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The non-locking partial threaded screw is made from stainless steel and is used
The non-locking partial threaded screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The non-locking partial threaded screw is made from stainless steel and is used
The non-locking partial threaded screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The non-locking partial threaded screw is made from stainless steel and is used
The non-locking partial threaded screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The non-locking partial threaded screw is made from stainless steel and is used
The non-locking partial threaded screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The locking screw is made from stainless steel and is used in conjunction with t
The locking screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The locking screw is made from stainless steel and is used in conjunction with t
The locking screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The locking screw is made from stainless steel and is used in conjunction with t
The locking screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The locking screw is made from stainless steel and is used in conjunction with t
The locking screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The locking screw is made from stainless steel and is used in conjunction with t
The locking screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The locking screw is made from stainless steel and is used in conjunction with t
The locking screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The locking screw is made from stainless steel and is used in conjunction with t
The locking screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.
The locking screw is made from stainless steel and is used in conjunction with t
The locking screw is made from stainless steel and is used in conjunction with the Integra Proximal Humeral Fracture Plate System.