7 mm–16 mm.
TrellOss®-TS Porous Ti Interbody System
A new foundation of growth.
Product Features
A 3D printed titanium interbody platform featuring a scaffold structure with 70% porosity and a 7 micron roughened surface topography to foster a cellular relevant environment for adhesion and bone ingrowth.1
Specifications
Heights
Depth
22 mm, 26 mm, 30 mm.
Lordosis
0˚, 6˚.
Benefits
Porosity
- Open architecture with 70% porosity including varying pore sizes of 300, 500, and 700 microns that mimic cancellous bone allowing for a conducive environment for cellular activity.1,5,6,7
Structure
- Scaffolding structure provides additional surface area. 2,3
Texture
- 7 micron surface texturing enhances the wicking nature9 and creates an environment for potential cellular adhesion.2,3,4
Resources
Brochure & Surgical Technique
TrellOss™-TS Porous Ti Interbody System IFU
The TrellOss Porous Ti Interbody System is a collection of additively manufactured spacers for cervical, lumbar/lumbosacral and thoracolumbar implantation.Download PDFTrellOss™-TS Porous Ti Interbody System Surgical Technique Guide
TrellOss-TS (TLIF Straight) interbodies may be used in various posterior approaches to the anterior spine, and is intended for use with autograft and/or allograft comprised of cancellous and/or corticocancellous bone graft and with supplemental fixation.Download PDFTrellOss™-TS Porous Ti Interbody System Product Brochure
A 3D printed titanium interbody platform featuring a scaffold structure with 70% porosity and a 7 micron roughened surface topography to foster a cellular relevant environment for adhesion and bone ingrowth.1Download PDFAdditional Information
Contact Us
USA: 720-894-9016
To submit a complaint, please email SpineComplaints@zimvie.com
10225 Westmoor Dr. Westminster, CO 80021 USA
To obtain a copy of the current Instructions for Use (IFU) for full prescribing and risk information, please call 720-894-9016.
References
- McGilvray KC, Easley J, Seim HB, et al. Bony ingrowth potential of 3D-printed porous titanium alloy: a direct comparison of interbody cage materials in an in vivo ovine lumbar fusion model. Spine J 2018;18(7):1250-1260.
- Olivares-Navarrete R, Hyzy SL, Slosar PJ et al. Implant materials generate different peri-implant inflammatory factors: poly-ether-ether-ketone promotes fibrosis and microtextured titanium promotes osteogenic factors. Spine 2015;40(6):399 -404.
- Olivares-Navarrete R, Hyzy SL, Gittens RA, et al. Rough titanium alloys regulate osteoblast production of angiogenic factors. Spine J 2013;13(11):1563 -70.
- Rao PJ, Pelletier MH, Walsh WR, et al. Spine Interbody Implants: Material Selection and Modification, Functionalization and Bioactivation of Surfaces to Improve Osseointegration. Orthop Surg 2014;6:81 -89.
- Ponader S, von Wilmowsky C, Widenmayer M, et al. In vivo performance of selective electron beam-melted ti-6al-4v structures. J Biomed Mater Res A 2010;92A:56 -62.
- Li JP, Habibovic P, et al.: Bone ingrowth in porous titanium implants produced by 3D fiber deposition. Biomaterials 2007;28:2810.
- Karageorgiou V, Kaplan D. Porosity of 3D biomaterial scaffolds and osteogenesis. Biomaterials 2005;26(27):5474 -91.
Legal Manufacturer
Nexxt Spine, LLC
14425 Bergen Blvd, Suite B
Noblesville, IN 46060