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IMPROVED SURGICAL CARE WITH OUR BIO-ACTIVE MATERIALS

Based on our design philosophy of “More open, less materials….” and made from PEEK-Optima™ HA Enhanced material, the EVOL®ha-D Direct lateral bioactive interbody system provides maximum bone/bone interface, stability, and enhanced loading; respecting the 3 major premises to bone healing.

Fully integrated with hydroxyapatite(HA) on all surfaces, this osteoconductive material has demonstrated early onset bony apposition, and robust fusion results, in addition to offering radiolucency and an elastic modulus similar to that of cortical bone.

Providing the most comprehensive array of footprints, arguably, in the industry relative to direct competition, the system affords the Surgeon optimal ‘anatomic fit’ for patients.

EVOL®HA-D DIRECT LATERAL BIOACTIVE INTERBODY SYSTEM

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CUTTING EDGE SPINE & EVOSHA LUMBAR INTERBODY SYSTEM

Providing the most comprehensive array of footprints, arguably, in the industry relative to direct competition, the system affords the Surgeon optimal ‘anatomic fit’ for patients.

NOTHING LESS THAN

The 3D printed T-FIX™ 3DSI Joint Fusion System, intended to reat dysfunction of the sacroiliac joint, is a patented ‘passively smart’ SI Joint Fustion System designed with an emphasis on optimal osseointegration as supported by solid science.
This technology improves osseointegration through the combination of high wettability and optimal surface chemistry (with optimized nano-roughness) that mediates bioactivity and specific protein adsorption to the implant.
Invibio™ Biomaterial Solutions’ PEEK-OPTIMA® HA Enhanced is a material enhancement in spinal device technology. Hydroxyapatite (HA), a well-known osteoconductive material, is fully integrated with PEEK-OPTIMA® Natural, making it available on all surfaces of a device.
EVOSha is the first HA enhanced PEEK Lumbar Interbody system to be FDA cleared (i.e. 510k) in the United States.
This technology improves osseointegration through the combination of high wettability and optimal surface chemistry (with optimized nano-roughness) that mediates bioactivity and specific protein adsorption to the implant.