The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The Cadence™ Insert components are made out of highly cross-linked polyethylene UHMWPE, rigidly fixed to the Tibial Tray intra-operatively. In conjunction with the Talar Dome and Tibial Tray, the system is intended for both primary surgery and revision surgery applications which are designed to treat ankle arthritis through replacement of the ankle joint with a prosthesis, thereby reducing pain, restoring alignment, and allowing for movement at the replaced joint. These components are available in a variety of sizes and design configurations.

The drill is used in conjunction with the half pins for the Integra External Fixation System.

The drill is used in conjunction with the half pins for the Integra External Fixation System.

The drill is used in conjunction with the half pins for the Integra External Fixation System.

The Integra® Titanium Bone Wedge Inserter is attached to the selected wedge implant and inserted into the osteotomy and impact until fully seated.

The Titan Modular Total Shoulder system is indicated for painful and/or disabled joints, fracture-dislocations, and other difficult clinical problems where shoulder arthrodesis or resection arthroplasty are not acceptable. The Glenoid 2.5 set includes keeled and pegged glenoid trials to evaluate the size and fit of the implants. Glenoid sizers are included to visualize the implant size and anticipate the amount of bone resections. Instruments are provided for assistance.

The Titan Modular Total Shoulder system is indicated for painful and/or disabled joints, fracture-dislocations, and other difficult clinical problems where shoulder arthrodesis or resection arthroplasty are not acceptable. The Humeral 2.5 set includes centric and eccentric humeral head trials to evaluate the size and fit of the appropriate implants. Head sizing plates are included to find the base width, as well as determine the need for concentric or eccentric, prior to trialing the humeral head. Instruments to assist with the trials and sizing are also included in the set.

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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 Titan Modular Total Shoulder system is indicated for painful and/or disabled joints, fracture-dislocations, and other difficult clinical problems where shoulder arthrodesis or resection arthroplasty are not acceptable. The glenoid tray includes keeled and pegged glenoid trials to evaluate the size and fit of the implant. Round and oval glenoid trials are also included for evaluation. . Glenoid sizers are included to visualize the implant size and anticipate the amount of bone resections. Various instruments are provided to assist with the procedure.

The Titan Reverse Shoulder system is indicated for use in a grossly deficient rotator cuff joint with severe arthropathy or a previously failed joint replacement with a grossly deficient rotator cuff joint. This set includes humeral body trials, standard poly liner trials, retentive poly liner trials, and glenosphere trials to evaluate the proper size and fit of the implants. Various instruments are included to assist with the procedure.