935808
Multiphoton lithography bioink kit
synthetic hydrogel bioink
Synonym(s):
HYDROTECH INX X100
Quality Level
form
liquid
color
yellow-orange
viscosity
0.5-5 Pa.s
gel strength
(Youngs modulus 30-40 MPa)
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General description
This synthetic bioink for multiphoton lithography (MPL) based 3D bioprinting applications can be used to generate hydrogel microstructures and complex architectures for tissue engineering applications. It is biologically inert but can be coated to allow cell adhesion and proliferation. The synthetic bioink hydrogel kit is a ready-to-use formulation that can be processed via a MPL-based printer after a short preheating process. The resin can be processed at high scanning speeds (up to 600 mm/s) which is favorable for shorter fabrication times.
Application
- 3D bioprinting
- Tissue engineering
- High resolution printing of complex and open geometries with mechanical robustness
Features and Benefits
- Biocompatibility - expression biocompatibility with no toxic effect on living cells
- Stability - Forms a biostable hydrogel that sustain 3D cellular structures making it suitable for long term applications
- Proccessability - Easy processing into open and complex architectures with minimal deformation
- Mechanical integrity - Very robust hydrogels suitable for stiff tissue engineering applications
- Easy to handle - Provided as ready to print formulation
- Reproducibility - Production under strict quality control to provide a material that delivers every time
Signal Word
Danger
Hazard Statements
Precautionary Statements
Hazard Classifications
Carc. 2 - Eye Irrit. 2 - Flam. Liq. 2 - STOT SE 3
Target Organs
Central nervous system, Respiratory system
Supplementary Hazards
Storage Class Code
3 - Flammable liquids
WGK
WGK 3
Flash Point(F)
5.9 °F
Flash Point(C)
-14.5 °C
Regulatory Information
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Multiphoton Lithography as a Promising Tool for Biomedical Applications
Greant, Coralie
Advanced Functional Materials
, 33(39) (2023)
Olivier Guillaume et al.
Acta biomaterialia, 165, 72-85 (2022-03-16)
Since its inception, tissue engineering and regenerative medicine (TERM) has been relying on either scaffold-based or scaffold-free strategies. Recent reports outlined the possibility of a synergistic, convergence approach, referred to as the third TERM strategy, which could alleviate bottlenecks of
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