What does CELLINK do?
CELLINK is dedicated to taking the on-demand biofabrication of human organs and tissues to the next level, in line with BICO’s vision to leverage bioconvergence in the life sciences and create the future of health.
Where is CELLINK located?
Cellink is headquartered in Göteborg, Sweden and has 7 office locations across 5 countries.
Who founded CELLINK?
Erik Gatenholm
Hector Martinez
BICO/Founders
How do I invest in CELLINK?
To buy shares of CELLINK properly, you need to open an account with Interactive Brokers. It’s a brokerage firm we have mixed feelings about.
How much does bio ink cost?
The best 3D bioprinters in 2022
Brand | Product | Price Approximate starting prices based on supplier-provided information and public data. Prices may vary over time and do not include additional products or services (taxes, shipping, accessories, training, installation, …). |
---|---|---|
Fluicell | Biopixlar | upon request |
How does 3D Bioprinting work?
Bioprinting. Bioprinters work in almost the exact same way as 3D printers, with one key difference. Instead of delivering materials such as plastic, ceramic, metal or food, they deposit layers of biomaterial, that may include living cells, to build complex structures like blood vessels or skin tissue.
Is cellink publicly traded?
CELLINK is now publicly listed on the Nasdaq Main Market under the ticker: CLNK.
What is a Bico company?
Bico Group (previously Cellink) is a bioconvergence startup that designs and supplies technologies and services to enhance biology research.
What organs can be Bioprinted?
Laboratories and research centers are bioprinting human livers, kidneys and hearts. The objective is to make them suitable for transplantation, and viable long-term solutions. In fact, this method could allow to cope with the lack of organ donors, and to better study and understand certain diseases.
What organs can be printed?
Over the last ten years, further research has been put forth into producing other organs, such as the liver and heart valves, and tissues, such as a blood-borne network, via 3D printing.