“This is arguably our biggest innovation breakthrough in recent years: a fermentation-based collagen platform that can effectively substitute the use of animal-derived collagen in pharmaceutical, medical and cell culture markets.” said Dr. Thomas Riermeier, SVP and general manager for the Health Care business line of Evonik. “We look forward to working with customers to develop the next-generation collagen products with an improved safety profile.”
The new collagen platform complements other recent fermentation-driven biotech breakthroughs that have been pioneered by Evonik, including biosurfactants for household and cosmetic applications (rhamnolipids) and omega-3 fatty acids from natural marine algae for animal nutrition (Veramaris).
Evonik’s proprietary collagen platform features a triple helix structure and other biological properties that mimic many of the attributes of natural collagen so it can reliably interact with cells and tissues and be readily absorbed or remodeled by the body.
Animal-sourced collagen, currently the main source of collagen for use in life sciences, can be associated with batch-to-batch variability, potential transmission of diseases or pathogens, adverse immunogenic or allergic reactions, and non-sustainable sourcing methods. Evonik’s collagen is produced under controlled conditions via a fermentation-based process. In addition to being sustainable and suitable for vegan use, this process delivers an ultra-high level of purity that is easily reproducible at any commercial scale.
Evonik will utilize its established fermentation process technologies and global manufacturing network to commercialize the collagen platform for worldwide use. The company’s application, formulation and manufacturing competencies will also be used to help customers develop and commercialize their own biofabricated products.
The new collagen platform will also support Evonik’s Tissue Engineering Project House, which was launched in Singapore in 2018 by the company’s strategic innovation unit Creavis, to develop advanced biomaterial solutions in regenerative medicine.