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Sterile A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. BIORES INX © X100 for Digital Light Projection (DLP) BIORES INX © is a resin designed for digital light projection (DLP) technology, formulated from gelatin methacrylamide (Gel-MA). Gel-MA, derived from natural collagen, is widely regarded as a gold standard in tissue engineering and biofabrication. BIORES INX © remains liquid at room temperature, eliminating the need for heating during the printing process. Once printed, it forms a strong, biocompatible, and biodegradable hydrogel network ideal for various biomedical applications. Compatible with: LUMEN X LUMEN X+ Further on request Advantages: Gel-MA based hydrogel Printing at room temperature Speed & high resolution Cell interactive Not a medical device / Not an IVD product
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Sterile A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. READYGEL INX © X100 for Volumetric Bioprinting (VBP) READYGEL INX © X100 is a Gel-MA bioresin derived from natural collagen, featuring RGD motifs in its structure, thereby mimicking the extracellular matrix. The bioresin can be remodeled by cells and is compatible with volumetric bioprinting (VBP), enabling rapid printing (10-20 s) into complex centimeter-scale structures regardless of their size. After photo-crosslinking, it achieves physiological stability, forming a non-soluble, yet biodegradable network. Compatible with: Tomolite (Readily3D) Further on request Advantages: Gel-MA based hydrogel Minimal shear stress on cells For cell encapsulation & cell seeding High-speed printing (5-10 s) Not a medical device / Not an IVD product
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Sterile A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. BIORES INX © X100 for Digital Light Projection (DLP) BIORES INX © is a resin designed for digital light projection (DLP) technology, formulated from gelatin methacrylamide (Gel-MA). Gel-MA, derived from natural collagen, is widely regarded as a gold standard in tissue engineering and biofabrication. BIORES INX © remains liquid at room temperature, eliminating the need for heating during the printing process. Once printed, it forms a strong, biocompatible, and biodegradable hydrogel network ideal for various biomedical applications. Compatible with: LUMEN X LUMEN X+ Further on request Advantages: Gel-MA based hydrogel Printing at room temperature Speed & high resolution Cell interactive Not a medical device / Not an IVD product
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Sterile A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. HYDROBIO INX © X100 sterile, for Multiphoton Lithography (MPL) HYDROBIO INX © series are gelatin-based hydrogel bioinks that provide all the biological benefits of conventional gelatin-based materials in combination with two-photon polymerization processability. It is based on gelatin type B derived from natural collagen which is modified with photo-crosslinkable functional groups enabling efficient multiphoton processing at 780 nm in the presence of the supplied crosslinker. As a result of high reactivity and fast curing speed, the bioinks can be processed at fast writing speeds resulting in a high cell viability. Thanks to its biodegradability, it allows cells to remodel the environment and substitute it with newly formed extracellular matrix over time. HYDROBIO INX © X100 is a gelatin-based bioink for two photon polymerization applications. It is suitable for cell seeding after processing. Compatible with: Upnano NanoOne Upnano NanoOneBio Nanoscribe Photonic Professional GT2 Further on request The kit contains: Vial of resin (1 ml) Large vial of developer (120 ml) 10 vials of crosslinker 10 Eppendorf tubes 10 spacers 10 microscope cover slides Custom-made BIO INX floater Publications Taale M. et al., 2023, In Situ Fabrication of Constraints for Multicellular Micro-Spheroids Using Two-Photon Lithography, Advanced Functional Materials Advantages: Gelatin based hydrogel Resolution in the µm range For cell seeding Not a medical device / Not an IVD product
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Sterile A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. GEL-MA INX © X100 X-Pure GMP-like, sterile, for Material Extrusion (FDM/FFM) GEL-MA INX © X100 X-Pure is the world’s first GMP-like gelatin methacryloyl bioink. By leveraging Rousselot’s renowned X-Pure © GELMA line and BIO INX © ’ extensive 25 years of in-house expertise in GELMA synthesis and applications. This revolutionary ink sets a new benchmark in bioink technology. Designed for translational research, X-Pure-based GEL-MA INX © X100 facilitates seamless transition to GMP-grade production, while maintaining the accessibility of research-grade pricing. Its advanced formulation positions this deposition-based bioink as a frontrunner for clinical applications across cutting-edge biomedical realms. This premium biomaterial excels in 3D bioprinting, regenerative medicine, and tissue engineering, exhibiting minimal impurity levels, low endotoxin content, and unparalleled batch-to-batch consistency. With customizable mechanical properties, it offers unparalleled versatility to meet diverse application needs. Due to the GMP-like production of the base material, it has the potential to shorten the development timeline from bench to bedside in pharmaceuticals, medical devices, and advanced therapy medicinal products (ATMP). With X-Pure-based GEL-MA INX © , the benefits of GEL-MA are combined with a high degree of reproducibility and ease of use, by offering the material in a convenient ready-to-print cartridge with defined printing parameters, thereby adhering to BIO-INX © ’ “plug & print” principle. Revolutionize your research with X-Pure-based GEL-MA INX © X100, setting new standards in bioink innovation. Compatible with: Regemat3D FelixBio Cellink BIOX Brinter Further on request GEL-MA INX © X100 X-Pure is provided as a clear hydrogel in a prefilled cartridge of 3 ml. Advantages: GMP-like Gel-MA Excellent biological performance For cell encapsulation & cell seeding Very low endotoxin content Not a medical device / Not an IVD product
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Sterile A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. GEL-MA INX © X210 sterile, for Material Extrusion (FDM/FFM) GEL-MA INX © X210 is a freeze-dried gelatin-based ink exhibiting ideal extracellular matrix-mimicking properties as it is derived from natural collagen, the main component of the natural extra-cellular matrix. Gel-MA derived from gelatin type B shows ideal properties as it is cell-interactive due to the presence of RGD motifs in its backbone. It is biodegradable, can be remodeled by cells, and can be printed by taking advantage of its temperature-dependent physical gelation behavior. It becomes physiologically stable after photo-crosslinking, thereby forming a non-soluble network. As a result of all these beneficial properties Gel-MA has emerged to be one of the gold standards in the field of tissue engineering and biofabrication. Compatible with: Regemat3D FelixBio Cellink BIOX Brinter Further on request Product is provided as a 300 mg white solid in a glass vial. Publications Agten H. et al., In vitro and in vivo evaluation of 3D Constructs engineered with human iPSC-derived chondrocytes in gelatin methacryloyl hydrogel, Biotechnology and Bioengineering , 119 (10) Arslan A. et al., 2021, Increasing the Microfabrication Performance of Synthetic Hydrogel Precursors through Molecular Design, Biomacromolecules , 22, 12, 4919-4932 Advantages: Standard Gel-MA Excellent biological performance For cell encapsulation & cell seeding Not a medical device / Not an IVD product
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Sterile A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. HYDROBIO INX © X400 sterile, for Multiphoton Lithography (MPL) HYDROBIO INX © series are gelatin-based hydrogel bioinks that provide all the biological benefits of conventional gelatin-based materials in combination with two-photon polymerization processability. It is based on gelatin type B derived from natural collagen which is modified with photo-crosslinkable functional groups enabling efficient multiphoton processing at 780 nm in the presence of the supplied crosslinker. As a result of high reactivity and fast curing speed, the bioinks can be processed at fast writing speeds resulting in a high cell viability. Thanks to its biodegradability, it allows cells to remodel the environment and substitute it with newly formed extracellular matrix over time. HYDROBIO INX © X400 is a gelatin-based hydrogel, allowing cell encapsulation with high precision. Its excellent biocompatibility allows both cell encapsulation with high viability during printing as well as cell seeding after printing. Compatible with: Upnano NanoOne Upnano NanoOneBio Nanoscribe Photonic Professional GT2 Further on request The kit contains: Vial of resin (1 ml) Large vial of developer (120 ml) 10 vials of crosslinker 10 Eppendorf tubes 10 spacers 10 microscope cover slides Custom-made BIO INX floater Advantages: Gelatin based hydrogel Resolution in the µm range For cell encapsulation & cell seeding Not a medical device / Not an IVD product
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CURASOL © technology CURASOL © addresses some of the processing limitations related to traditional photo-crosslinkable polymers by offering an excellent printing fidelity by printing from the molten state along with an efficient crosslinking. Thanks to the CURASOL © technology, UV-induced crosslinking of inks in the solid state occurs 5 times faster compared to the inks in the molten state, thereby offering reduced irradiation times. The printed scaffolds offer stable or biodegradable platforms for cell seeding that can be implemented for harder tissues (e.g. cartilage). A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. DEGRAD INX © X100 for Multiphoton Lithography (MPL) DEGRAD INX © X100 is a polyester-based synthetic resin for multiphoton lithography based 3D-printing applications. It is the first ever biodegradable ink that combines the benefits of biocompatibility, flexibility and easy processability resulting in high feature resolutions (<500 nm). DEGRAD INX © X100 ready-to-use formulations can be processed via a multiphoton lithography based printer after a short pre-heating process. The resin can be processed at high scanning speeds (up to 100 mm/s) which is favorable for shorter fabrication times. Compatible with: Upnano NanoOne Upnano NanoOneBio Nanoscribe Photonic Professional GT2 Further on request The kit contains: Vial of resin (1 ml) Large vial of developer (120 ml) Custom-made BIO INX floater Publications Kopinski-Grünwald O. et al., 2024, Scaffolded spheroids as building blocks for bottom-up cartilage tissue engineering show enhanced bioassembly dynamics, Acta Biomaterialia Zhang M. et al., 2023, Hydrogel muscles powering reconfigurable micro-metastructures with wide-spectrum programmability, Nature Materials Guillaume O. et al., 2022, Hybrid Spheroid Microscaffolds as Modular Tissue Units to Build Macro, Tissue Assemblies for Tissue Engineering, Acta Biomaterialia Gréant C. et al., 2023, Multiphoton Lithography as a Promising Tool for Biomedical Applications, Advanced Functional Materials Advantages: Biodegradable polyester Highest resolution (<500 nm) Very strong and flexible Easy to process (CURASOL © ) Not a medical device / Not an IVD product
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A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. DEGRES INX © X100 for Digital Light Projection (DLP) DEGRES INX © X100 is a polyester-based synthetic resin for digital light projection (DLP) based 3D printing applications. It is biocompatible and biodegradable with easy printability at resolutions down to 100 μm. Notably, the printed structures of DEGRES INX © X100 show a shape memory behavior, enabling shape transition at body temperature. With its unique physical properties, DEGRES INX © X100 paves the way for advancements in the biomedical field, promising a new era of possibilities. Compatible with: LUMEN X LUMEN X+ Further on request Advantages: Biodegradable polycaprolactone High elasticity & flexibility Unique shape memory behavior Speed & high resolution Not a medical device / Not an IVD product
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Sterile Shear Thinning Hydrogels With the help of shear-thinning technology, hydrogels become more fluid during extrusion due to the high shear forces, which significantly eases the extrusion process. After the deposition of the gel and the loss of the shear forces, the viscosity of the hydrogel increases drastically, leading to the formation of a stable 3D structure. A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. EASYGEL INX © X100 sterile, for Material Extrusion (FDM/FFM) EASYGEL INX © X100 is a gelatin-based, shear thinning, cell-interactive ink that mimicks extracellular matrix. It combines all the benefits of conventional gelatin/Gel-MA based inks in combination with a highly improved printing process thanks to its shear thinning behavior, thereby allowing an easy printing process at 37 °C. Based on gelatin derived from natural collagen, EASYGEL INX © X100 has been modified with photo-crosslinkable functional groups meaning that it can be printed with unprecedented efficiency. It resembles the natural ECM and has exceptionally high cell viabilities. Compatible with: Regemat3D FelixBio Cellink BIOX Brinter Further on request EASYGEL INX © X100 is provided as a clear hydrogel in a prefilled cartridge of 3 ml. Printer requirements: Heatable printhead (37 °C) with nozzle insulator. Advantages: Shear-thinning Gel-MA Excellent biological performance Excellent printing at 37°C For cell encapsulation & cell seeding Not a medical device / Not an IVD product
Product Detail
A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. DEGRES INX © X100 for Digital Light Projection (DLP) DEGRES INX © X100 is a polyester-based synthetic resin for digital light projection (DLP) based 3D printing applications. It is biocompatible and biodegradable with easy printability at resolutions down to 100 μm. Notably, the printed structures of DEGRES INX © X100 show a shape memory behavior, enabling shape transition at body temperature. With its unique physical properties, DEGRES INX © X100 paves the way for advancements in the biomedical field, promising a new era of possibilities. Compatible with: LUMEN X LUMEN X+ Further on request Advantages: Biodegradable polycaprolactone High elasticity & flexibility Unique shape memory behavior Speed & high resolution Not a medical device / Not an IVD product
Product Detail
CURASOL © technology CURASOL © addresses some of the processing limitations related to traditional photo-crosslinkable polymers by offering an excellent printing fidelity by printing from the molten state along with an efficient crosslinking. Thanks to the CURASOL © technology, UV-induced crosslinking of inks in the solid state occurs 5 times faster compared to the inks in the molten state, thereby offering reduced irradiation times. The printed scaffolds offer stable or biodegradable platforms for cell seeding that can be implemented for harder tissues (e.g. cartilage). A comprehensive overview of all bioinks with helpful application information can be found in our current flyer 3D Bioprinting by Carl ROTH and on our Bioprinting content page. SOLID INX © X100 for Material Extrusion (FDM/FFM) SOLID INX © X100 is a photo-crosslinkable synthetic biodegradable polyester based on the patented CURASOL © technology from BIO INX © . It combines the benefits of conventional stiff polyester materials with low temperature (< 60 °C) processability. Compatible with: Cellink BIOX Brinter Further on request SOLID INX © X100 is provided as a white solid in a prefilled cartridge of 3 ml. Printer requirements: Heatable printhead (55-65 °C) with nozzle insulator and cooled printbed (12-17 °C). Advantages: Biodegradable polycaprolactone Printing at <60°C (CURASOL © ) Shape memory behavior Robust and flexible Not a medical device / Not an IVD product
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© 2023 Copyright. All Rights Reserved. Unit 19, Euroway House, Roydsdale Way, Bradford, BD4 6SE, UK
