Bioinks
Ready-to-use specialized bioinks and hydrogels, compatible with any 3D printer, enable precise layer-by-layer bioprinting of complex biological structures. These biomaterials create an optimized microenvironment that supports cell growth, proliferation, and maturation in 3D tissue models. Additionally, they provide essential biomechanical cues such as shear stress, stretching, compression, elasticity, and stiffness, enhancing the functionality and realism of printed tissues.
Pioneer in producing innovative bio-inks for science and industry
As the first Iranian company in the field of bioprinting, OmidAfarinan brings together experts from various scientific disciplines with the goal of producing innovative bioinks. OmidAfarinan's bioinks are cost-effective, highly printable, and capable of mimicking the extracellular matrix (ECM), providing an optimal environment for cell proliferation, growth, and differentiation. In addition to offering a wide range of bioinks—from thermoplastic polymers to hydrogels—the company also develops customized bioinks tailored for specific applications.
Meet the OmidAfarinan's Bioinks family
Support©
The main challenge in bioprinting soft materials (with an elastic modulus below 100 kPa) is the deformation of the material during printing. For example, collagen, as one of the key components of the extracellular matrix, is highly important for bioprinting. However, printing collagen comes with significant limitations. Omidafarinan has addressed these limitations with its new product, Support© bio-ink. Support© enables 3D bioprinting of low-viscosity bio-materials (such as collagen, alginate, fibrin, dECM, gelatin methacrylate, hyaluronic acid, etc.) in complex geometries without the need for sacrificial inks or mechanical reinforcement using other materials (like gelatin methacrylate, cellulose alginate, etc.). Additionally, to support various cell types and specialized bio-inks, this product can be prepared in a wide range of buffers and cell culture media.. .. امکان پرینت زیستی سه بعدی مواد زیستی با ویسکوزیته پایین (مانند کلاژن، آلژینات، فیبرین، dECM، ژلاتین متاکریلات، اسید هیالورونیک و ...) در هندسههای پیچیده را بدون نیاز به جوهرهای سکریفیشیال یا اصلاح مقاومت مکانیکی جوهر با سایر مواد (مانند ژلاتین متاکریلات، سلولز آلژینات و ...) را فراهم میکند. همچنین به منظور حمایت از انواع سلولها و جوهرهای زیستی خاص میتوان این محصول را در طیف وسیعی از بافرها و محیطهای کشت سلولی نیز آماده کرد.
technichal informations:
| title | Description |
|---|---|
| Name | Support© |
| Appearance | Powder |
| Packaging | Vial |
| Storage conditions | Room temperature |
| Shelf life | Six months |
| Sterility | Non-sterile |
| Application | Supports the printing of other low-viscosity bio-inks |
Mineral©
Bone tissue consists of two phases: mineral and organic. The mineral phase accounts for 60–70% of the total dry weight of bone. Calcium phosphate bioceramics are particularly important for bone repair due to their structural similarity to the mineral phase of bone. Mineral© bio-ink is a specialized product developed by Omidafarinan, designed with minerals similar to natural bone tissue to promote early-stage osteogenesis. Scaffolds printed with this bio-ink are 100% ceramic and gradually degrade during bone regeneration, eventually being replaced by new bone.. .
technichal informations:
| title | Description |
|---|---|
| Name | Mineral© |
| Appearance | White paste |
| Packaging | 10 mL cartridge |
| Storage conditions | Completely sealed and protected from air |
| Shelf life | 1 week |
| Sterility | Printed scaffolds can be sterilized using various methods |
| Application | جوهر پرینتر سه بعدی زیستی، علوم مواد، مهندسی بافت و دارورسانی به ویژه بافت سخت و... |
AllGBone©
.. AllGBone© bio-ink is a unique commercial product from Omidafarinan, derived from the extracellular matrix (ECM) of human bone tissue combined with natural, biocompatible, and biodegradable polymers. This bone allograft exhibits high osteoinductive and osteoconductive properties and, due to its content of bone-specific proteins and growth factors, plays a crucial role in repairing damaged bone tissue by supporting cell proliferation, differentiation, and new tissue growth.
technichal informations:
| Name | AllGBone© |
|---|---|
| Appearance | Opaque white gel |
| Packaging | 10 mL cartridge |
| Storage conditions | 2–8 °C |
| Shelf life | Six months |
| Sterility | Sterility |
| Viscosity (Pa·s) | 1-2200 |
| Application | Bio-ink for 3D bioprinting, materials science, tissue engineering, and drug delivery |
| Description | Comes with a crosslinker provided alongside the product |
PCL©
Polycaprolactone (PCL) is a biocompatible thermoplastic polymer with suitable mechanical properties for producing various tissues, particularly bone and dental tissues, via 3D printing. Its slow degradation rate makes it a strong candidate for long-term implants. Omidafarinan Mohandesi Ayandeh offers medical-grade PCL-based bio-inks of the highest quality for use in bioprinters. This product is provided ready-to-use and is compatible with this company’s printers as well as other printers equipped with a high-temperature module.
technichal informations:
| title | Description |
|---|---|
| Name | PCL© |
| Appearance | White granules |
| Packaging | Custom |
| Storage conditions | Cool, dry environment |
| Shelf life | 18 months |
| Sterility | Printed scaffolds can be sterilized using various methods |
| Application | جوهر پرینتر سه بعدی زیستی، علوم مواد، مهندسی بافت و دارورسانی به ویژه بافت سخت و... |
| Description | Provided ready-to-use and compatible with this company’s printers as well as other printers with a thermal module |
Alginate©
..Alginate© bio-ink is a specialized bio-ink developed by Omidafarinan, based on the polymer alginate, providing an ideal environment for cell viability and bioprinting. Alginate© bio-ink crosslinks in the presence of calcium ions. To create a composition capable of ionic crosslinking, it can be combined with other bio-inks. For printing complex structures with Alginate© bio-ink, it is recommended to use Support© bio-ink from Omidafarinan.. .... .
technichal informations:
| title | Description |
|---|---|
| Name | Alginate© |
| Appearance | Viscous, pale yellow liquid |
| Packaging | 10 mL cartridge |
| Storage conditions | 2–8 °C |
| Shelf life | Six months |
| Sterility | Sterility |
| Application | Bio-ink for 3D bioprinting, materials science, tissue engineering, and drug delivery |
| Description | Comes with a crosslinker solution provided alongside the product |
ColGel©
ColGel© bio-ink is a unique collagen-based bio-ink composed of type I collagen extracted from mouse tails and gelatin methacrylate, which forms crosslinks in the presence of photoinitiators such as Irgacure. Collagen, being the most abundant protein in the body, is a key component for cell culture and scaffold formation for various applications. Due to the optical and biochemical properties of ColGel©, this bio-ink can be used to create personalized implants for treating corneal diseases and for fabricating artificial lenses.. ...
technichal informations:
| title | Description |
|---|---|
| Name | ColGel© |
| Appearance | Viscous, transparent gel |
| Packaging | 10 mL cartridge |
| Storage conditions | 2–8 °C |
| Shelf life | 14 days |
| Sterility | Non-sterile |
| Application | Bio-ink for 3D bioprinting, materials science, tissue engineering, and drug delivery |
| Description | Provided ready-to-use and compatible with this company’s printers as well as other printers with a UV module |
Osteoink©
Osteoink© bio-ink is a composite made from the mineral components found in bone and teeth. Its excellent mechanical properties and tunable biodegradability make this bio-ink a suitable option for 3D bioprinting of hard tissues. The presence of mineral components in this composite also enhances its bioactivity and promotes bone growth within printed scaffolds. Osteoink© mimics the natural extracellular matrix of bone tissue, supporting cell proliferation and differentiation.
Apatite©
The natural bone tissue structure consists of two components: mineral and organic. Hydroxyapatite (HA) with the chemical formula Ca10(PO4)6(OH)2 is the main component of the mineral part of bone, acting as a reinforcing phase within the organic bone matrix (collagen). Based on this, the research team at Omidafarinan has developed a specialized bio-ink called Apatite© for bone tissue engineering applications. A unique feature of this bio-ink is the uniform distribution of HA nanoparticles within the scaffolds produced via 3D bioprinting. Additionally, this product has been certified at the nanoscale by the National Nanotechnology Initiative.10.4)6.2 .. .
technichal informations:
| title | Description |
|---|---|
| Name | Apatite© |
| Appearance | Matte white granules |
| Packaging | Custom |
| Storage conditions | Cool, dry environment |
| Shelf life | 1 year |
| Sterility | Printed scaffolds can be sterilized using various methods |
| Application | Bio-ink for 3D bioprinting, materials science, tissue engineering, and drug delivery, especially for hard tissue |
| Description | Provided ready-to-use and compatible with this company’s printers as well as other printers with a high-temperature module |
GelMA© Bioink
GelMA. © is a gelatin-based bio-ink that supports cell growth and proliferation due to its extracellular matrix-like properties. Methacryloyl functional groups in this bio-ink are used to control hydrogel physical parameters such as pore size, swelling, and degradation. GelMA© bio-ink crosslinks in the presence of a photoinitiator and UV light exposure...
technichal informations:
| title | Description |
|---|---|
| Name | GelMA© |
| Appearance | Lyophilized |
| Packaging | Opaque vial |
| Storage conditions | -20 °C |
| Degree of acrylation | 80% |
| Shelf life | 9 months |
| Sterility | Non-sterile |
| Application | جوهر پرینتر سه بعدی زیستی، علوم مواد، مهندسی بافت و دارورسانی و... |
| Description | Provided ready-to-use and compatible with this company’s printers as well as other printers with a UV module |
Softink
Soft-ink. © is a biocompatible and biodegradable hydrogel designed for 3D bioprinting applications. This bio-ink supports cell growth and proliferation and can be used for engineering various soft tissues, including skin, cartilage, and cornea. Soft-ink© is gelatin-based and developed by the research team at Omidafarinan Future Engineering. Additionally, this bio-ink can be combined with biological molecules such as proteins, peptides, growth factors, and drugs. The product offers high printability, enabling the printing of uniform fibers with diameters in the micrometer range.. .
technichal informations:
| title | Description |
|---|---|
| Name | Softink© |
| Appearance | Viscous, pale yellow liquid |
| Packaging | 10 mL cartridge |
| Storage conditions | 2–8 °C |
| Shelf life | Six months |
| Sterility | Sterility |
| Application | Bio-ink for 3D bioprinting, materials science, tissue engineering, and drug delivery |
| Description | Comes with a crosslinker provided alongside the product |
Premium-grade
Our diverse selection of bioinks and biomaterials is designed to maintain optimal cell health at every stage of the bioprinting process. Every tailored formulation supports the flow and mechanical properties cells need to generate and structure their own ECM. Because bioink quality is critical to successful 3D cell culture and tissue engineering, we adhere to stringent production protocols and rigorous testing to minimize variability and ensure consistent results.
Discover your ideal bioink
Backed by extensive laboratory experience and deep biomaterial knowledge, our team of bioink experts is ready to guide you in choosing the most suitable bioink for your specific research. They can also tailor biomaterial solutions to fit a variety of experimental protocols.