Bioprinter Kits
By utilizing specialized kits such as Coaxial® for creating hollow structures like vessels, Cranio® for producing body-compatible implants, and Microfluidic® for designing microchannel networks, new pathways have been opened in regenerative medicine, customized surgeries, and biomedical experiments.
Bioprinter Kits
Thanks to advancements in 3D bioprinting technology, the fabrication of complex models such as vascular structures, cranial implants, and lab-on-a-chip devices has become increasingly feasible. Omid Afarinan has developed a range of innovative solutions, including Coaxial® for printing hollow, vessel-like and core/shell structures; Cranio®, a PMMA-based, biocompatible implant for the treatment of craniofacial deformities such as hypertelorism, craniosynostosis, and hemifacial microsomia; and Microfluidic®, a kit that enables the creation of precise microchannels for designing customized vascular networks and conducting advanced biomedical assays on chip.
Advanced Bioprinting Technologies for the Development of Regenerative Medicine Solutions
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 Kits family
Microfluidic® kit
Biological microfluidic systems, also known as “lab-on-a-chip,” are valuable and useful tools for biochemical and biomedical evaluations of small-sized samples. These chips enable complex laboratory operations such as DNA sequencing, cell sorting, separation, and mixing of various analytes on a small scale. By mimicking the structure and function of different organs, these microstructures can also provide a platform for drug evaluation. The **Microfluidic® kit** allows you to create precise and controlled microchannels that can be used to design custom vascular networks.
technichal informations:
| title | Description |
|---|---|
| Name | Microfluidic® |
| Appearance | Colorless and transparent gel |
| Packaging | Custom |
| Storage conditions | Store in a dry environment at 2–6 °C |
| Shelf life | Twelve months |
| Sterility | Non-sterile |
| Application | Bio-ink for 3D bioprinting, tissue engineering research and development, and drug delivery |
| Description | This product contains sacrificial ink, hydrogel matrix, and a chip fabrication protocol |
Cranio® Bone
3D printing technology has found wide application in creating implants needed for cranial surgeries. Cranio®, developed by the specialists at Omidafarinan, is an innovative product for the treatment of various cranial, maxillofacial, and facial deformities such as hypertelorism, craniosynostosis, and hemifacial microsomia. This product is made of polymethyl methacrylate (PMMA), which is fully biocompatible and commonly referred to as bone cement.
technichal informations:
| title | Description |
|---|---|
| Name | Cranio® Bone |
| Appearance | Opaque, milky-white implant |
| Packaging | Custom |
| Storage conditions | Cool, dry environment |
| Shelf life | Twelve months |
| Sterility | Sterility |
| Application | Implant for cranial, maxillofacial, and facial reconstructive surgery |
Coaxial®
Today, with the use of 3D bioprinting technology, the construction of various tissue models such as bone, nerves, heart, and more has become increasingly achievable. One of the most challenging models has always been the creation of vessel-like structures. In conventional vascular tissue engineering methods, there is limited control over the geometry of blood vessels, and the structures created are usually within the range of large vessels. Recently, with the help of 3D bioprinting technology and coaxial nozzles, a novel and innovative solution has been introduced to address this challenge. Omidafarinan Mohandesi Ayandeh has made the printing of these structures possible by providing coaxial nozzles.
technichal informations:
| Nozzle Name | Outer Needle | Inner Needle | Nominal Thickness |
|---|---|---|---|
| Coax1620 | 16G (1.19 mm) | 20G (0.91 mm) | 0.14 mm |
| Coax1420 | 14G (1.6 mm) | 20G (0.91 mm) | 0.69 mm |
| Coax1418 | 14G (1.6 mm) | 18G (1.27 mm) | 0.33 mm |
| Coax1822 | 18G (0.84 mm) | 22G (0.72 mm) | 0.12 mm |
Discover your ideal kits
Backed by extensive laboratory experience and deep biomaterial knowledge, our team of bioink experts is ready to guide you in choosing the most suitable kits for your specific research.
