KinosTM Kinematics
Replicating the kinematic profile of the natural joint
Countless studies demonstrate the tri-planar ROM at the tibio-talar joint during gait of healthy subjects.
Axiom's articulating surfaces offer tri-planar motion to replicate ROM of healthy gait.
Proprietary saddle shape design offers enhanced stability in the coronal plane, while providing all the benefits of a more congruent design.
Robust bone fixation features improve stability in three ways:
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Fixation perpendicular to the predominant loading vector
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Asymmetry to resist torsional loading
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Increased surface area for maximum osseointegration
Development based on Foundational Biomechanics Research
TIDAL Technology
An optimized porous architecture, designed for osseointegration.
- Sheet-based architecture maximizing surface area and porosity, with 100% interconnectivity
- Mesoscale pores for graft retention and supporting bony ingrowth
- High strength and fatigue resistance compared to strut- based architectures of the same porosity
Direct bony apposition driven by surface topography demonstrated in a preclinical model
SEM 150x
Scale bar = 100 μm
Bone ongrowth to TIDAL surface
Scale bar = 100 μm, B=Bone, I=Implant
Continuous curvature of TIDAL architecture demonstrated to facilitate fusion in preclinical critical-sized bone defect
SEM 100x
Scale bar = 500 μm
Bone bridging at 12-weeks
Scale bar = 1 mm
- A. Pham, C.N. Kelly, K. Gall, Journal of Materials Research (2020).
- C.N. Kelly, J. Francovich, S. Julmi, D.L. Safranski, R.E. Guldberg, H.J. Maier, K. Gall, Acta Biomaterialia (2019).
- C.N. Kelly, N.T. Evans, C.W. Irvin, S.C. Chapman, K. Gall, D.L. Safranski, Materials Science and Engineering: C (2019).
- C.N. Kelly, A.T. Miller, S.J. Hollister, R.E. Guldberg, K. Gall, Advanced Healthcare Materials (2017).
