品牌
代理商厂商性质
北京市所在地
瑞士regenHU厂家的EMC-Bioink™系列生物墨水现成的有五种,但可以针对特定应用进行定制。
系列被描述为“非牛顿流体材料,有剪切稀化性质,能根据需要和要求提供促进细胞扩增、细胞生长和迁移的三维肽纳米纤维支架。”
将使研究人员更容易地增材制造出复杂的、与真实有机组织的结构和功能极其相似的结构。通过提供对机械强度和细胞支架的相互作用的控制,EMC-Bioink系列材料可以充当独立的基质,如果需要,也可以整合到一个结构系统中。
EMC-Bioink有着广泛的应用,可用于各种目的,如研究组织或疾病、药物发现、毒性、功效、创造再生植入物等
Our 3DDiscovery™ and BioFactory™ bioprinters offer a broad portfolio of biomaterials for both soft and hard tissue engineering and drug discovery.
This portfolio is comprised of natural and synthetic hydrogels acting as extracellular-matrix environments to support cell growth (ECM-BioInk™), biomaterials for scaffolding to mimic hard tissues (OsteoInk™) and support materials (STARK™).
| Biomaterials | Application | Characteristics |
| HYDROGELS | ECM-a BioInk™ | 3D Cell culture, migration and proliferation assay | Biosynthetic extracellular matrix with Low net charge |
| ECM-b BioInk™ | Biosynthetic extracellular matrix with Mid net charge | ||
| ECM-c BioInk™ | Biosynthetic charge extracellular matrix with High net charge | ||
| ECM-f BioInk™ | Biosynthetic extracellular matrix with Low net charge Functionalized | ||
| ECM-p BioInk™ | Biosynthetic extracellular matrix with Low net charge Functionalized |
| SCAFFOLDING | OsteoInk™ | Calcium Phosphate biomaterial for hard tissue engineering | Calcium phospahte formulation |
| SUPPORT | STARK™ | Support material for Freeform Fabrication | Silicon-based polymer |
ECM-BioInk™, is a peptide nanofiber 3-dimensional scaffold that promotes cell growth and migration.
It utilizes specific peptides that self-assemble from ECM-BioInk™ fluid precursors into highly intertwined hydrated peptide hydrogel fibres when presented with ionic strengths. By inducing a rapid transformation from solution to gel, a peptide nanofiber scaffold is generated.
The ECM-BioInk™ portfolio contains 5 formulations that differ from each other in the electrical net charge which impacts the matrix stiffness and consequently cell proliferation capacity.
BioInk Datasheet
By adjusting the concentration of the ECM-BioInk™ solution, users can control the flexibility of the 3D architecture to meet their application′s specific needs. ECM-BioInk™ is a unique human relevant, synthetic extracellular matrix in which scaffold interaction with cells and small molecules are driven by hydrogen and hydrophobic interactions.
BioInk Datasheet
| Cell type | ECM- a BioInk™ | ECM- b BioInk™ | ECM-c BioInk™ | ECM-f BioInk™ | ECM-f BioInk™ | Experiment |
|---|---|---|---|---|---|---|
| FIBROBLASTS | • | • | • | • | • | Proliferation, Migration |
| Human Embryonic Stem Cells | • | • | • | • | • | Proliferation, Differentiation |
| Human Induced Pluripotent Stem Cells | • | • | • | • | • | Proliferation, Differentiation |
| Human Mesenchemical Stem Cells | • | • | • | • | • | Proliferation, Differentiation |
| Bone Marrow Derived Mesenchemial Stem Cells | • | • | • | • | Proliferation, Differentiation | |
| Adipose Tissue Derived Mesenchemical Stem Cells | • | • | • | • | Proliferation, Differentiation | |
| Human Haemopoetic Stem Cells | • | • | • | • | Proliferation, Differentiation | |
| Human Neuronal Stem Cells | • | • | • | Proliferation, Differentiation | ||
| Cardiac Progenitor Cells | • | • | • | • | • | Proliferation, Differentiation |
| Human Endothelial Cells | • | • | • | Proliferation, Migration | ||
| Primary Neurons | • | • | • | • | Proliferation, Migration | |
| Cardiomyocytes | • | • | • | Proliferation, Migration | ||
| Nucleus Pulposus Cells | • | • | • | Proliferation, Migration | ||
| Hepatocytes | • | • | • | • | Proliferation, Migration | |
| Chrondrocytes | • | • | • | Proliferation, Migration | ||
| Myocytes | • | • | • | • | Proliferation, Migration | |
| Order | Order | Order | Order | Order |
OsteoInk™ is a ready-to-use calcium phosphate paste for scaffolding and structural engineering. OsteoInk™ is a highly osteoconductive biomaterial close to the chemical composition of human bone. Dedicated to hard tissue engineering such as bone, cartilage or structural scaffold manufacturing, OsteoInk™ can be combined during the printing process with our biomaterial product portfolio (e.g ECM-BioInk™) to create complex 3D tissue models.
The uniqueness of BioFactory™ and 3DDiscovery™ printers enables freeform fabrication of tissue models with controlled layers, pore structure and biological composition. It enables scientists to mimic nature by combining OsteoInk™ with hydrogels (natural or synthetic), bioactives, scaffolding or support materials.
BioInk™ is a chemically-defined hydrogel to support growth of different cell types. It allows cell adhesion, mimics the natural extracellular matrix and is biodegradable. BioInk™ is provided as a ready-to-use chemically-defined hydrogel to print 3D tissue models. Exclusively designed for regenHU’s BioFactory™ and 3DDiscovery™ tissue and bio-printers.
A versatile, chemically-defined hydrogel, supporting cell attachment, growth, differentiation and migration. The BioInk™ is suitable for long-term tissue c*tion (in vitro human dermis for up to 7 weeks).
Modular Matrix Tailored to the needs of your cells
Combined with BioFactory™ or 3DDiscovery™ tissue printers, you will be able to create composite tissue models in a layer-by-layer fashioning with spatial control of bioactive components (matrix, cells, proteins) and biomaterials.
BioInk Datasheet
Creation of tissue models of complex bioarchitectures and overhanging structures, in single or composite materials, may require fugitive support materials that act as a temporary scaffold for the structure.
Especially in 3D cell culture & LifeScience applications where extracellular matrix materials (ECM) such as low-viscose hydrogels, collagens or similar are used to encapsulate and deliver bioactives, STARK™ biopolymer enables 3D shape fidelity and bioarchitecture control of cell-laden conceptions.
STARK™ is a biocompatible biopolymer dedicated to hard & soft tissue engineering with either a 3DDiscovery™ or BioFactory™ bioprinting platform. It can be used during the construction process in combination with BioInk™ or OsteoInk™ or any natural or synthetic printable biomaterials.
