Orthopedics This Month: Spine - Fall 2024 | Page 37

[ NEWS - FEATURE ]
early results have demonstrated more reliable and quicker fusion rates using 3D custom interbody devices .” [ i ]
In a recent Orthopedics This Week Master Class , Bill Walsh , Ph . D ., Professor at the University of New South Wales and head of one of the most active bioengineering and testing labs in the world , said : “ The geometry of the implant dictates or drives the biomechanics ” and biomechanics drives osseointegration and fusion .
Dr . Walsh has been doing osseointegration studies in his lab since the late 1990s and has looked at the osseointegration capabilities of more implants and materials than most surgeons see in their lifetime . Furthermore , Dr . Walsh ’ s model for testing implants and materials has been validated repeatedly over the years .
The New Geometries OVER Chemistry for Osseointegration
Dr . Walsh has looked at the chemistry and coatings of implants as well as the mechanical geometries of the implants . “ We ’ ve looked at the mechanical properties , adding hydroxyapatite ,” explained Dr . Walsh , “ different coating thicknesses , traditional manufactured implants , additive manufactured implants from different groups , different companies over those years and we tested them all with the exact same model .”
“ What we see is that the geometry of the implant dictates or drives the biomechanics .”
It ’ s the Macro Topography , Stupid .
“ Bone will grow into the available geometry of the implant . I think it is important to realize that macro features can often achieve stability independent of the material . Geometry of the implant is a very , very important component . The porosity and macro topography almost makes the material irrelevant for osseointegration .”
“ Macro topography is an important component for osseointegration .”
Dr . Walsh continued , “ Once you achieve some level of biomechanical stability at the implant interface be it at the aperture or at the porous walls , the biomechanics of the whole environment changes . We ’ re not just talking about how strong a cage is , we ’ re talking about a motion segment that you want to stabilize and as soon as you start to fuse especially in the aperture , the stresses go off the implant and down the aperture .”
“ The cages companies are now designing have elegant features that will hopefully provide better ways for the body to integrate into and facilitate the clinical outcome . The opportunity to make complex shapes with titanium is there . Surface roughness or macro topography ? I ’ ll take macro topography any day .”
Using Arches , Expanding the Space for Bone Graft and Changing the Macro , Micro and Nano topography
One spinal implant manufacturer that has won Orthopedics This Week ’ s Best Technology in Spine award did so by creatively changing the design of interbody implants to drive improved biomechanics ( along with other attributes )
The company , Camber Spine , has combined design , surface macro , micro and nano topography and more space for bone graft into a truly one-of-a-kind implant .
Here are its key features : ( Please see table on page 38 .)
All images courtesy of Camber Spine Technologies , LLC .
For more information about Camber Spine ’ s bone graft , here ’ s a link : https :// www . cambermedtech . com / spira-technology ♦
[ i ]
Spinal Implant Osseointegration and the Role of 3D Printing : An Analysis and Review of the Literature Cameron Kia 1 ,*, Christopher L . Antonacci 1 1 , Ian Wellington 1 , Heeren S . Makanji 2 and Sean M . Esmende 2
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