Skip to main content

Intended for Healthcare Professionals

Johnson and Johnson logo graphic link
/en-US
  • acclarent logo
  • biosense webster logo
  • cerenovus jjmdc logo
  • DePuy Synthes
  • Ethicon Logo
  • Mentor Logo

Intended for HCPs

Intended for Healthcare Professionals

Secondary nav block

DePuy Synthes Logo
  • Specialties
    • All Specialties
    • Craniomaxillofacial (CMF)
    • Foot & Ankle
    • Hip
    • Knee
    • Shoulder
    • Spine
    • Sports Medicine
    • Trauma & Extremities
    • Veterinary
  • Procedures
    • All Procedures
    • Hip
      • Hip Arthroplasty
    • Knee
      • Anterior Cruciate Ligament Reconstruction (ACL) Soft Tissue
      • Knee Replacement
      • Sports Medicine
        • BTB ACL Reconstruction
    • Sports Medicine
      • Arthroscopic Anatomic Glenoid Reconstruction
      • BTB ACL Reconstruction
      • Lower Trapezius Transfer
  • Product Hub
  • Services
    • All Services
      • Investigator-Initiated Studies
      • J&J Innovation
    • ASC Capabilities
    • Advance Case Management
    • Loaner Program
    • MatrixRIB Care Program
    • Service Care
  • News
  • Patients
    • Knee Replacement
    • Patient Home
    • VELYS Patient Home
  1. Home
  2. Products
  3. ATTUNE™ AFFIXIUM™ Cementless FB Knee

3D-PRINTED TITANIUM TECHNOLOGY

ATTUNE™ AFFIXIUM™ Cementless FB Knee

3D-PRINTED TITANIUM TECHNOLOGY

ATTUNE™ AFFIXIUM™ Cementless FB Knee

Designed for better patient outcomes, the ATTUNE™ Cementless Fixed Bearing Knee with AFFIXIUM™ 3D Printed Technology provides better kinematics1-3, enhanced initial stability4, and advanced biologic fixation5 for total knee arthroplasty.

Get in Touch With a Sales Consultant
ATTUNE AFFIXIUM Cementless FB Knee with 3D-Printed Technology CR construct

IMAGES

ATTUNE AFFIXIUM Cementless FB Knee with 3D-Printed Technology CR construct

Key Resources

scalpel icon

Surgical Technique Guide

View Guide PDF

paper with exclamation mark icon

Instructions for Use

View Instructions PDF

brochure icon

Overviews

Product Overview

Technology Overview

ATTUNE™ AFFIXIUM Implant Features

EXPANDING IMPLANT OPTIONS

ATTUNE™ AFFIXIUM Cementless FB Knee

The ATTUNE™ Knee System continues to grow its portfolio through technologies like 3D-Printed Titanium technologies to provide a broad range of solutions for patients.

Download Full Product Specs
attune knee replacement

CEMENTLESS STRUCTURES

AFFIXIUM™ 3D Printed Technology

The AFFIXIUM™ 3D Printed Technology is an engineered 3D printing porous structure designed for cementless implants to promote bone ingrowth. The technology is designed to create a three-dimensional lattice structure resembling trabecula of cancellous bone. AFFIXIUM 3DP Technology utilizes a stronger titanium alloy material (ASTM F3001) (versus commercially pure Ti per ASTM F67). It is then purposefully designed and manufactured to maintain structure strength and finished with Hot Isostatic Pressing (HIP) to completely close internal pore defects, achieving the highest quality 3D printed material in orthopedics.

Download AFFIXIUM™ Brochure

Features and Benefits

Like every ATTUNE™ Knee technology, the ATTUNE™ Cementless FB Knee has been designed based on the latest available insights in knee replacement technology.

Initial stability diamond tread surface

Initial Stability

Initial stability is critical to biologic fixation. We designed AFFIXIUM™ with several key elements to increase initial stability, including four optimally located pegs with scallops and a cruciform keel.

Bone in-growth with ATTUNE™ AFFIXIUM study

Biologic Fixation

Made possible via the advanced 3D printed porous Titanium structure using AFFIXIUM™ 3DP Technology. The porous technology coats the tibial substrate, the proximal cruciform keel and the scalloped pegs.

attune performance

Kinematic Performance

The design and development of the ATTUNE™ Knee System resulted in over 200 patents. Some of these technologies, like ATTUNE™ GRADIUS Curve, GLIDERIGHT Articulation and LOGICLOCK are incorporated within the femoral component and help elevate patient performance in a cementless implant.

ATTUNE™ AFFIXIUM Professional Education

Scientific Posters on ATTUNE™ AFFIXIUM Knee System

You are entering a rotating card carousel. Navigate the items by using the previous/next buttons.

Designed For Initial Stability in a Cementless Construct

Review the scientific poster on the combined effect of tibiofemoral conformity & tibial base design on initial stability of cementless TKA

View Poster

Tibial Peg Placement

Review the scientific poster on the computational design of fixation peg placement envelopes for a cementless tibia tray system

View Poster

Engineered Porosity for Bone Ingrowth

Review the scientific poster on AFFIXIUM™ 3DP Technology- The Science of Bone Ingrowth with Engineered Porosity: A summary of work published at ORS 2021

View Poster

Ti Alloy Selection and Heat Treatment for Durability

Review the scientific poster about designing the ATTUNE™ AFFXIUM™ Cementless FB Tibial Base for Durability –Ti Alloy Selection and HIP Heat Treatment.

View Poster

Bone Ingrowth of AFFIXIUM Porous Structure Variants

Review the scientific poster about AFFIXIUM 3D Printed Technology –Bone Ingrowth of AFFIXIUM Porous Structure Variants

View Poster

Related Links

knee illustration
DePuy Synthes Knee Solutions
A knee that can help patients get back sooner. 1-2
ATTUNE™ Knee System
Three surgeons midway through a total knee replacement operation
VELYS™ Digital Surgery – Knee
ATTUNE® Cementless Knee System
ATTUNE™ Cementless RP System

References

  1. Takagi, H., et al., Case series report of navigation-based in vivo knee kinematics in total knee arthroplasty with a gradually reducing femoral radius design. Ann Med Surg (Lond), 2017. 17: p. 33-37.
  2. Pfitzner T, Moewis P, Stein P, et al. Modifications of femoral component design in multi-radius total knee arthroplasty lead to higher lateral posterior femoro-tibial translation. Knee Surg Sports Traumatol Arthrosc. 2017. doi: 10.1007/s00167-017-4622 Epub ahead of print].
  3. Ranawat CS, White PB, West S, Ranawat AS. Clinical and Radiographic Results of Attune and PFC Sigma Knee Designs at 2-Year Follow-Up: A Prospective Matched-Pair Analysis.
  4. DePuy Synthes TR-000002196 report, Adaptiv, 2018.
  5. W. Tong, B. Smith, et al 2020 ORS paper No 337. 6. Buechel SR FFF, Buechel JR FF, Pappas MJ, D’Alessio, “Twenty Year Evaluation of Meniscal Bearing and Rotating Platform Knee Replacements” Clinical Orthopaedics and Related Research, Vol. 388, 2001: 41-50.

EOS # 168930-220722 DSUS/EMEA © DePuy Synthes 2022.

All rights reserved. Please refer to the instructions for use for a complete list of indications, contraindications, warnings and precautions.

© DePuy Synthes 2022. All Rights Reserved. This site is published by the DePuy Synthes Companies, which are solely responsible for its content. This site is governed solely by applicable U.S. laws and governmental regulations. This site is for visitors from the United States. The third party trademarks used herein are the trademarks of their respective owners.

DePuy Synthes Logo

About

-

  • About Us
  • Our History
  • News & Media
  • Grants & Giving
  • Innovation Center

Useful Links

-

  • Instructions for Use (IFU)
  • Johnson & Johnson Institute
  • Reimbursement Resources
  • Investigator Initiated Studies

Legal

-

  • CA Compliance
  • ASR Recall

Connect

-

  • . . . .
  • Contact Us
  • Online Ordering
  • Inventory Management (eSIMS)
  • Careers
Johnson and Johnson logo
Johnson & Johnson
  • Privacy Policy
  • Legal Notice
  • Do Not Sell or Share My Personal Information
  • Contact Us
  • J&J Institute
  • Accessibility Statement
  • Cookie Policy
English (United States)

© Medical Device Business Services, Inc. 2021-2023. All rights reserved.

This information is intended for use by customers, patients, and healthcare professionals in the United States only. We recognize that the Internet is a global communications medium; however, laws, regulatory requirements, and product information for medical products can vary from country to country. The product information included here may not be appropriate for use outside the United States, and the information from other sites you visit may not be appropriate for use in the United States.

You are about to leave jnjmedtech.com. By clicking to continue, you will be taken to a web site governed by their own Legal and Privacy Policies.

Yes, Continue to External Site No, Stay Here