Transforming Medicine
Company Description
Founded in March 2016 the company is headquartered at the Technology and Research Center in Krems, Austria. Central to the company’s technology is a patented collagen matrix and the know-how to produce it. Its strength and substance are highly biocompatible with the regenerative and integrative properties of the patient’s tissue. We seek to exploit the full potential of 3D-Bioprinting Technology in order to enhance production processes and also new applications in personalized medicine and medical grade collagen for R & D departments, tissue banks and cruelty-free test kits for the pharmaceutical industry. Bio
Inks
are the vital and basic building blocks of 3D bio printed constructs. Thus, bio inks play key roles in structural support, adhesion, and differentiation of incorporated cells. In this way we want to provide our clients with state-of-the-art highly bio functional bio inks.
Our Technology - Medical Grade Collagen
3D Spine Matrix's technology uses biological material that ensures structurally sound parts of the human body like spinal disc implants, menisci
and ligaments
and targets to support stem cells
and 3D bio printing
applications as well as bio inks. The company's first devolopment is a spinal disc nucleus replacement
"RESTORE" to
reconstruct herniated spinal discs. The disc height lost through nucleotomy is compensated by the implantation of “RESTORE”. The difference to artificial implants results in the ability to ingest and release fluid like the natural nucleus. In addition, a biological material is used that fulfills all requirements as a nucleus replacement. Due to the collagen's special consistency and its biological behavior, the matrix can also be used for/in bioprinting/plotting of tissue and organs (ECM). Consistent with this, the matrix can be used as stand-alone bio ink for almost all applications involving an extracellurar matrix in the human body. Our future is the leadership in biological treatment of herniated spinal discs and providing extracellurar matrices.