Technology

Backed by science, driven by outcomes

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.

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Proprietary saddle shape design offers enhanced stability in the coronal plane, while providing all the benefits of a more congruent design.

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Robust bone fixation features improve stability in three ways:

  • Fixation perpendicular to the predominant loading vector
  • Asymmetry to resist torsional loading
  • Increased surface area for maximum osseointegration
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Development based on Foundational Biomechanics Research

TIDALTM Technology

An optimized porous architecture, designed for osseointegration.

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  • Sheet-based architecture maximizing surface area and porosity, with 100% interconnectivity
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  • Mesoscale pores for graft retention and supporting bony ingrowth
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  • High strength and fatigue resistance compared to strut- based architectures of the same porosity

Additively Manufactured via Laser Powder Bed Fusion of Medical Grade Titanium (Ti6Al4V ELI) or Cobalt Chrome (CoCr) Alloys

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

High surface area and microscopic surface roughness encourages wicking across the surface of the TIDAL lattice
TIDAL lattice based on repeating periodic functions which generate the gyroid-sheet minimal surface

X-Ray Microscopy

NOVOTM Technology

Streamlined single-use sterile instrumentation

Strong, single-use instrumentation fabricated using Stereolithography 3D printing technology

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  • High strength light cured polymer
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  • Single packed pre-sterile or sterilize at point of care
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  • Radiodense for clear visibility intraoperatively

Scan to Surgery in as little as 14 days

01

Patient scan securely uploaded to Rx Studio and de-identified of PHI

02

Design meeting

03

Design proposal uploaded to Rx Studio for surgeon review

04

Surgeon approval of design

05

In house additive manufacturing by restor3d

06

Surgery