BICO’s Post

A patented 3d bioprinting technique is coming to market. Spin out company Jetbio is promoting Reactive Jet Impingement (ReJI) as a fast, flexible system for printing biomimetic cell filled gels. The technique jets two gel precursors at one another. They mix in mid-air and then land on a substrate as a gel. Because the two precursors are still liquid as they are bio-printed, lower pressures are used in the process which increases the viability to carry cells. Led by Dennis Camilleri and Kenneth Dalgarno, Jetbio will be looking to support drug discovery, tissue engineering and regenerative medicine. FYI Luke Judd. #3dbioprinting #biomimetics #drugdiscovery #tissueengineering #regenerativemedicine

🚀 Exciting News in Medical Technology! 🚀 Researchers at the University of Colorado Boulder have developed an innovative 3D printing method dubbed the "Band-Aid Heart," a game-changer in regenerative medicine. This breakthrough technique blends 3D printing with bioprinting, allowing for the creation of complex, functional tissues and even entire organs. 🔬 What makes the Band-Aid Heart method so revolutionary? It constructs a scaffold using biocompatible materials, onto which cells and biological components are added to forge operational tissues. This new method not only supports intricate geometrical designs but also holds the tremendous potential to forge organs suitable for transplantation. Technologies like Band-Aid Heart provide a beacon of hope, painting a future where the agonizing wait for donor organs could be significantly shortened. 💡 Imagine a future where the organ donor shortage is no longer a crisis, where transplants are readily available and more successful, significantly lowering the need for long-term medication. 📊 This could radically transform treatment options and improve countless lives. #HealthTech #3DPrinting #Bioprinting #RegenerativeMedicine #Innovation #MedicalResearch #FutureOfHealthcare #TechnologyInMedicine Source: https://lnkd.in/d4H_uCCM

Controlling cell organization within 3D hydrogels allows precise tissue engineering and enhances drug testing. While micropatterning cells on 2D surfaces is common, achieving this in 3D hydrogels requires sophisticated tools. Prof. Ayelet Lesman developed a technology that enables precise cell arrangement (printing) within biological hydrogels, showcasing micropatterning of cell arrays and spheroids of various sizes. This new technology is cost-effectiveness and user-friendliness, with applications spanning tissue design and drug testing platforms. Read it fully below. To learn more about this technology and its applications, please contact Noam Greenspoon, VP BD, physical sciences, at Ramot: noam.greenspoon@ramot.org #hydrogels #micropatterning #3dhydrogels #tissuedesigne #drugtestingplatforms #drugtesting #medtech #healthtech

🚀 The Future of Biomedical Innovation: 3D Bioprinting with TRIVIMA! 🚀 Imagine crafting complex biological structures layer by layer, tailored precisely to individual needs. 3D bioprinting is making this vision a reality, and with the TRIVIMA 3D Bioprinter, we’re at the forefront of this revolution. TRIVIMA empowers researchers to push the boundaries of tissue engineering and regenerative medicine with its advanced features like dual, triple & six extruders, co-axial printing, and precise temperature control. Our bioprinter supports a diverse range of biomaterials and offers flexible pneumatic heads, enabling the creation of intricate, functional tissue models, from bone and cartilage to soft tissues. By providing advanced technology like TRIVIMA, we’re dedicated to supporting the groundbreaking work of scientists and researchers, advancing the frontiers of medicine and drug testing. Discover how TRIVIMA is shaping the future of tissue engineering and helping researchers achieve new heights! For more details, write us on - atc@himedialabs.com #3DBioprinting #TissueEngineering #TRIVIMA #Biomaterials #Innovation #Research #RegenerativeMedicine #BiomedicalEngineering #StemCellResearch #DrugDevelopment #OrganPrinting #CellBiology #BioprintingTechnology #AdvancedMaterials #MedicalResearch #Bioengineering #HealthcareInnovation #PersonalizedMedicine #FutureOfMedicine #ScientificAdvancement #LabTechnology #Biotechnology #BiomedicalScience #PrecisionMedicine #LabEquipment #MedicalDevices #Genomics #PharmaceuticalResearch #Biomanufacturing #MedicalInnovation #ExperimentalMedicine #HealthcareTech #TechForGood #ClinicalResearch #LaboratoryResearch #BiologicalEngineering #BioPrinting #FunctionalTissues #MedicalBreakthroughs #OrganoidResearch #SyntheticBiology #BioFabrication #HealthcareSolutions #InnovationInScience #NextGenTech #ResearchAndDevelopment #ScientificInnovation #TechInHealthcare #LifeSciences #CellBio #HiMediaLaboratories

UV Curing in 3D #Bioprinting | Technological Advances with DomoBIO The multi-technology and multi-material DomoBIO system incorporates #Ultraviolet light as a fundamental tool to drive the development of advanced applications in specialised sectors. The DomoBIO 3D bioprinter utilises high-energy ultraviolet wavelengths to induce photochemical reactions with microscopic precision. This approach enables rigorous control over the polymerisation kinetics of biomaterials, achieving rapid and localised solidification, which is crucial for creating biocompatible and functional structures at the cellular level. This #UV curing technology not only optimises printing speed but also enhances the resolution and mechanical stability of cellular matrices, significantly expanding possibilities in the design of complex tissues and applications in regenerative medicine. DomoBIO's advancement in the use of UV light for 3D bioprinting represents a paradigm shift in tissue engineering, opening new avenues for research and the development of innovative functionalities. For more details on the capabilities of this system, visit: https://lnkd.in/dEwvzUrQ Our specialists are available to answer any technical questions you may have. #3DBioprinting #UVCuring #TissueEngineering #RegenerativeMedicine #AdvancedMaterials #Innovation

Bioink from mucus for 3D printing lung tissue Lung tissue engineering with mucin-hyaluronic acid bioink ✍️ By: By: Banik Scientist Utilizing 3D Printer for Lung Scaffold Creation in Tissue Engineering Research Lung diseases kill millions yearly, and treatments are limited. Animal models for studying these diseases and testing drugs are not ideal. As reported in ACS Applied Bio Materials, researchers have created a mucus-based bioink for 3D printing lung tissue. This new development could help in studying and treating chronic lung conditions 🔗 https://lnkd.in/dVk-FCA5 • #3Dprinting • #AdditiveManufacturing • #3Dprint • #Manufacturing • #tranpham • www.tranpham.com • Like 👍 what you see ► Hit the Bell 🔔 to follow me. P.S. Repost ♻️ if you find it valuable. Thanks! 🙏

“How do you see the future of 3D bioprinting in the medical field?” Our CEO Vidmantas Šakalys gets this question in interviews often. He answers it like this: While the long-term vision of printing any part of a human being is a compelling one, it is likely to be a gradual process that evolves over many years. Most of the researchers working in this field agree that 15-20 years is reasonable timing for the first bio-printed full scale human organ to appear. As technology progresses and our understanding of biology deepens, it is possible that a broader range of human body parts, from complex organs to intricate tissues, could become accessible for 3D-printing and transplantation in the future. I do imagine, that bioprinting will be able to extend lives of humans, making the second part of our lives more enjoyable to live. If you have more questions for us, leave them in the comments!✌️ #Bioprinting #3Dprinting

🔬 Exploring the Future: 3D Bioprinting in Biomedical Engineering 🧬 3D bioprinting is revolutionizing the field of biomedical engineering, offering innovative solutions to some of the most challenging problems in healthcare. Here are three exciting breakthroughs in 3D bioprinting that are turning concepts into reality: Personalized Organ Printing: Scientists are now able to print organs customized to the patient's unique biology. This could potentially eliminate the need for organ donors and reduce transplant rejection rates. Bioprinted Skin for Burn Victims: Advanced bioprinting techniques are creating skin grafts tailored to individual patients, promoting faster healing and better aesthetic outcomes for burn victims. Bone Regeneration: Bioprinted bone scaffolds are being developed to aid in the repair and regeneration of damaged bones, offering hope for patients with severe fractures or bone loss. 💡 Why It Matters: These advancements not only improve the quality of life for patients but also pave the way for further innovations in regenerative medicine and personalized healthcare. 📣 Interactive Poll: Which 3D bioprinting breakthrough do you think will have the most significant impact on healthcare? Personalized Organ Printing Bioprinted Skin for Burn Victims Bone Regeneration 💬 Join the Conversation: What other 3D bioprinting advancements are you excited about? Share your thoughts and experiences below! #BiomedicalEngineering #3DBioprinting #RegenerativeMedicine #HealthcareInnovation #FutureOfMedicine #MedicalBreakthroughs #Biotech #HealthcareTech #PatientCare #MedicalInnovation

Check out our new publication in Science about the latest trends in 3D bioprinting and cell therapy. Here, we have highlighted how the full potential of cell therapy can be unlocked with biomaterial-free bioinks. Specifically, by printing these into sophisticated cell aggregates with native-like architectures. Moreso, we have reviewed the recent printing techniques to achieve this. One particular technique that could assist in these endevours is Bio-electrospray printing. This is something that we are working on in our spin out company Ourobionics. Indeed the electrospraying modality has already been incorporated in our latest chimera platform. Please follow the link below for accessing the paper: https://lnkd.in/dQYU7kam Gorka Orive Y. Shrike Zhang John Zandbergen Dr. Stephen G. Gray #celltherapy #biomaterials #3Dprinting #regenerativemedicine #bioprinting Novo Nordisk Foundation DTU Health Tech DTU - Technical University of Denmark