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Submerged Bioprinting - 3D-Printing of cell-containing hydrogel structures with high geometrical complexity

Resumen

Tipo:
Oferta Tecnológica
Referencia:
TODE20211124001
Publicado:
25/11/2021
Caducidad:
26/11/2022
Resumen:
A German university offers a technology to print the conduits submerged in dense non-miscible solvents, such as fluorocarbons. It is characterised by a superior performance compared to conventional methods: Viable cells were shown 24 hours after the printing process, as well as after 21 days in culture. Industrial partners are sought for licensing agreements.

Details

Tittle:
Submerged Bioprinting - 3D-Printing of cell-containing hydrogel structures with high geometrical complexity
Summary:
A German university offers a technology to print the conduits submerged in dense non-miscible solvents, such as fluorocarbons. It is characterised by a superior performance compared to conventional methods: Viable cells were shown 24 hours after the printing process, as well as after 21 days in culture. Industrial partners are sought for licensing agreements.
Description:
Bioprinting technologies recently appeared as important tissue engineering alternatives for regenerative medicine and organ transplantation. This novel approach for printing of tissues substitutes is based on the submersion of simultaneously printed cell-hydrogel structures into a non-toxic perfluorodecalin liquid substrate. Not only has it been achieved to develop a robotic platform for 3D-printing, but also to combine natural or synthetic hydrogels with human mesenchymal stem cells.

A German university developed a technology that allows to print the conduits submerged in non-miscible solvents of high density, such as fluorocarbons (e.g. C12F27N), that support the printed structure while it is being generated. This results in superior performance in relation to other methods. The hydrophobicity and high density of the fluorocarbon help to control the deposition of each individual droplet, resulting in a high degree of precision of the 3D-printed construct, which has been proven to remain long-term stable. Furthermore, live/dead-staining and staining with the fluorescent stain DAPI (4',6-Diamidin-2-phenylindol,) showed viable cells 24 hours after the printing process, as well as after 21 days in culture.

In a special embodiment, the German university´s invention describes a simpler way of reproducing the structural hierarchy of multiple tissue substitutes using an inkjet drop-on-demand (DoD) bioprinting approach. This novel strategy for cell printing can therefore be used in the future for broad applications in the field of tissue engineering and regenerative medicine. In particular the method is suitable for printed tissue substitutes with high geometrical complexity.

Partners from biotechnological and pharmaceutical industry are sought for license agreements to use the technology.
Advantages and Innovations:
The present invention allows for new strategies in the 3D-cell-printing of tissue substitutes. It is a platform technology for generating different tissue models. Superior performance to other methods is shown by the fact that cells are still viable after 21 days in culture
Benefits include:
· Higher geometrical flexibility
· Highly precise process
· Replicable
· Simpler Drop-on-demand (DoD) bioprinting approach
Stage of Development:
Under development/lab tested
IPs:
Patent(s) applied for but not yet granted,Patents granted
CommeR Statunts Regarding IPR Status:
Patent applied for in Europe and US
Patent granted in Germany

Partner sought

Type and Role of Partner Sought:
Partners are sought for license agreements.
Type of partner: Industry: Biotechnology, pharmaceutical industry
Role of partner: License in to use and integrate in processes

Client

Type and Size of Client:
University
Already Engaged in Trans-National Cooperation:
Si
Languages Spoken:
English
German

Keywords

Technology Keywords:
06002002 Biología celular y molecular
06001024 Biomateriales médicos
01002002 Impresión 3D
02001001 Impresión 3D
06001015 Productos farmacéuticos / medicamentos