Implementation of 3D printing technology using biomaterials for implantology applications.
We develop and implement innovative technological solutions based on biomaterials for the pharmaceutical, medical, and cosmetics industries.
We specialize in chitosan and microcrystalline chitosan.
We cooperate with scientists who have studied chitosan and its processing technologies in detail for many years.
Implementation of 3D printing technology using biomaterials for implantology applications.
Development of a complete series of medical devices and regenerative dermocosmetics with chitosan for the effective treatment of civilization diseases such as androgenetic alopecia.
Implementation of technology for the processing of chitosan into multifunctional hydrogels of high purity (including thermosensitive), which are used in medicine (implants, dressings, drug carriers) and in specialized microbiological applications.
Chitosan is a biopolymer with unique properties, whose potential for specialized applications is very broad.
This biopolymer exhibits antibacterial activity against gram-positive and gram-negative bacterial strains, which has been proven in studies on many strains of bacteria, fungi and yeast.
In addition, it has the following properties: biocompatibility, ability to activate macrophages and neutrophils, stimulation of cellular activity, uptake of growth factors, stimulation of cytokine production, promotion of angiogenesis processes and hydrophilicity.
Chitosan exhibits biocompatibility, has been approved by the Food and Drug Administration (FDA) for use in dressings for hard-to-heal wounds, and is a suitable material for constructing bioscaffolds used for the reconstruction of human organs and tissues.
Cyberbone
Personalized, bioresorbable implants 3D printed with bone-forming biomaterials for solid bone tissue regeneration.
NovaOss
Thermosensitive chitosan matrix hydrogel with biomaterials for cancellous bone tissue regeneration.
Implants4Kids
Adaptive, bioresorbable, personalized 3D printed implant with bone-forming biomaterials for regeneration of cranial defects in children.
HybridOss
Personalized, bioresorbable 3D printed implants from bone-forming biomaterials with thermosensitive chitosan hydrogel content for complex bone regeneration in the most demanding surgical procedures and with metal components (e.g. dental implant screws) for procedures in maxillofacial surgery.
StrongOss
Personalized, bioresorbable implants 3D printed from bone-forming biomaterials for solid bone tissue regeneration with enhanced strength (CFF printing technology).
RegCare
Regenerative dermocosmetics based on chitosan.
An excellent team of competent scientists constantly improving the technology of chitosan production and its industrial applications.
High quality and purity of raw material and products.
Low cost of producing microcrystalline chitosan as raw material and first lines of final products using it.
Mobility of the production line.