PRINTING THE FUTURE OF ORTHOPAEDICS

PRINTING THE FUTURE OF ORTHOPAEDICS

There is only one company in the Global Spine Market that 3D-Prints commercially available PEEK implants for spinal applications.

Curiteva designs, develops, manufactures, and commercializes surgical instruments and implants focusing on delivering true innovation to the market in addition to core spine products surgeons use every day.

Thoracolumbar

Thoracolumbar

Curiteva offers an extensive range of instruments and implants offered for percutaneous and open fixation techniques. Offering PEEK, titanium and plasma coated interbody options offers a variety of implants to address surgeon preference.

Sacroiliac Joint

Sacroiliac Joint

Curiteva’s SI-LUTION implant system is a minimally invasive surgical system designed to optimize the treatment of patients with SI joint pain.

Cervical

Cervical

Curiteva’s straightforward cervical stabilization product offerings include interbodies (3D printed porous PEEK technology, PEEK, titanium, and plasma coated) and two different plate systems.

The All New INSPIRE©

NOW AVAILABLE

Inspire Trabecular PEEK Interbody System

The Inspire HAFUSE interbody platform is manufactured with a proprietary, patented 3D printer utilizing novel equipment, electronics, software, firmware, and slicing algorithms developed by the company. This advancement positions Curiteva to control product development of 3D printed PEEK devices from inception to commercialization.

ACDF

Now Available

TLIF

Coming Soon

PLIF

Coming Soon

ALIF

Coming Soon

“The Inspire Trabecular PEEK technology checks all the boxes for an ideal interbody implant: fully interconnected porosity, modulus of elasticity equivalent to cancellous bone, strong biomechanical properties, radiolucency, and a bioactive surface for osseointegration.”
Kevin Foley, M.D.
CHAIRMAN, Semmes Murphey Neurologic and Spine Institute

Structure Driven Technology

The Inspire Porous PEEK HAFUSE platform represents a revolution in biomaterials by delivering an interconnected porous, engineered structure designed for Osseointegration, radiographic assessment, and improved patient outcomes