This site uses cookies to make your web experience a great one.Learn More

The cookie settings on this website are currently set to allow certain types of cookies. We do not use cookies for targeted or behavioral advertising on this website. Those cookies that we do use are designed to permit you to use the site functions and browse our site in the way that is favorable to you. If you continue without changing your cookie settings, you consent to that. However, you can change your cookie setting at any time.

HTR-PMMA Patient-Matched Implant

HTR-PMMA is a technology-driven, cranial patient-matched implant designed to achieve cosmesis of the skull resulting from tumor, trauma, or deformity.

The unique process of developing an HTR-PMMA implant converts patient CT-Scan data into 3-D images. These images are used to create anatomical models, which are then used to build the patient-matched implants.

HTR-PMMA is designed to provide:

  • Four fit options
  • Implant pre-plating
  • Simplified CT data Transfer through FTP and PACs
  • A porous implant that permits fibrovasacular ingrowth and potential for bony attachment1
  • Hydrophilic properties which allow for pre-operative antibiotic solution bath1


  • Patient Specific Anatomic Fit
  • HTR-PMMA is designed and manufactured based on uncompressed DICOM CT data.
  • Hydrophilic
  • Allows for placement of implant into antibiotic solution pre-operatively; enables vascular flow post-operatively.2
  • Porous
  • Pore diameter ranges from 150 - 350 microns supports possible connective tissue and bone ingrowth.1
  • Rigid and Strong
  • Implants have a rigidity similar to bone, with a compressive strength of 5,000 psi.1
  • Negative Surface Charge
  • May have minor positive effects on bony ingrowth and inhibition of bacterial adhesion.1
  • Radiopaque
  • Implants can be conveniently and accurately monitored post-operatively.3


HTR-PMMA (Hard Tissue Replacement) polymer implants are intended for reconstruction and augmentation in craniofacial procedures. They are intended to fill voids or defects in bone resulting from disease, traumatic injury or surgical trauma. These devices can be used in aesthetic reconstructive procedures where augmentation or change in bony contours is desired.

  1. Eppley, Barry L., Matthew Kilgo, and John J. Coleman. Cranial Reconstruction with Computer Generated Hard Tissue Replacement Patient-Matched Implants: Indications, Surgical Technique, and Long Term Follow Up. Plastic and Reconstructive Surgery (2001):109.3: 864-71. p. 869
  2. Eppley, Barry L., Michael Sadove, Hans Holmstrom, and Karl-Erik Kahnberg. HTR Polymer Facial Implants: A Five Year Clinical Experience. Aesthetic Plastic Surgery (1995): 445-50
  3. Kwan, JY, et al. Clinical and Histological Evaluations of Hard tissue Replacement Alloplastic Grafting Material, Case Reports. Abstract 89 46 02; Compendium of Dental Residents’ Research Projects and Literature Reviews, USAF School of Aerospace

Legal Manufacturer:                      

Biomet Microfixation
1520 Tradeport Drive 
Jacksonville, FL 32218

All content herein is protected by copyright, trademarks and other intellectual property rights, as applicable, owned by or licensed to Zimmer Biomet or its affiliates unless otherwise indicated, and must not be redistributed, duplicated or disclosed, in whole or in part, without the express written consent of Zimmer Biomet.  
This material is intended for health care professionals.  Distribution to any other recipient is prohibited.
For product information, including indications, contraindications, warnings, precautions, potential adverse effects and patient counseling information, see the package insert and information on this website.