CELLINK

The Society For Biomaterials Annual Meeting & Expo in Chicago is just around the corner, and we’re excited to connect with all attendees! Swing by booth #306, where Fintan Doyle and William Bradford are holding down the fort, ready to chat about how we empower researchers in material sciences. Whether it’s using our ready-to-print bioinks, our biomaterial components, or the instruments used to print them. The BIO X6 and BIONOVA X 3D bioprinters will be live in action at our booth. And bring your appetite for innovation! Just like a classic deep-dish, great science is all about the right layers (and sometimes it is layer-less, too!) See you there! #3DBioprinting #Biomaterials #Hydrogels #Bioinks #SFB2025 

The regeneration of damaged meniscal tissue can be a challenge. With meniscal injuries being commonplace, finding improved strategies for the repair of meniscal tissue will help improve the quality of life for a lot of people around the world. In a recent study by Abhay Menon and Kamil Elkhoury et al at The Vijay Lab in New York University Abu Dhabi, the researchers present a novel, 3D-printed meniscal scaffold using GelMA enhanced with tannic acid (TA). This combination aimed to improve mechanical strength, biological compatibility, and regenerative potential The GelMA-TA scaffolds were printed using CELLINK’s LUMEN X, and stem cells (hMSCs) were seeded onto the scaffolds. The resulting constructs demonstrated high cell viability, increased proliferation and successful differentiation into chondrocytes, essential for tissue regeneration. The team could also see that the GelMA-TA scaffolds promoted an anti-inflammatory response, reducing pro-inflammatory reaction and enhancing tissue integration. Congrats to the research team for an excellent contribution to the field of regenerative medicine. We look forward to seeing your next steps. 🔗 Read the full publication here: https://lnkd.in/d7gYYK74 Vijayavenkataraman Sanjairaj #3DBioprinting #TissueEngineering #RegenMed #LUMENX @ --- Image is cropped and rotated from Figure 4 in Menon, A., Elkhoury, K., Zahraa, A. et al. Digital light processing 3D printing of dual crosslinked meniscal scaffolds with enhanced physical and biological properties. Adv Compos Hybrid Mater 8, 92 (2025). https://lnkd.in/dfUUTn-M, licensed under CC BY 4.0 (https://lnkd.in/e365Whs

New blog alert! What are the alternatives to animal testing? In our latest blog, we explore how 3D bioprinting enables the creation of 3D cell culture and human tissue models, reducing or replacing the need for animal testing. These advanced models help researchers recapitulate target tissue architecture, allowing for the development of biomimetic tissues that provide more predictive insights into real-world effects. Dive into our latest blog to learn more: https://lnkd.in/dVsMmw8A #3DBioprinting #TissueEngineering #AnimalTestingAlternatives

EDIT: Missed it? The VOD is available through our website: https://lnkd.in/dxumcnDS Don’t miss our webinar on Artificial Intelligence and Bioprinting, featuring Dr. Sriram Gopu from NUS Faculty of Dentistry on Wednesday, March 19! We have seen a great deal of interest for the upcoming webinar where Dr. Sriram will present his lab’s use of artificial intelligence in their bioprinting workflow. Specifically, they have used this workflow to advance their work on 3D bioprinted, defect-specific constructs designed for the repair of mucogingival defects. With this AI-enhanced workflow, they could accelerate their experiment outcomes. Tune in to find out more: https://lnkd.in/dxumcnDS 📅 Date: March 19, 4 pm SGT | 9 am CET | 1:30 pm IST | 5 pm JST 🎤 Speaker: Dr. Gopu Sriram, National University of Singapore #Webinar #3DBioprinting #TissueEngineering #RegMed #PersonalizedMedicine #ArtificialIntelligence

New Customer Spotlight! 🌟 Stretchable electronics through 3D bioprinting! Meet Professor Steve Park at Korea Advanced Institute of Science and Technology (KAIST), who is pushing the fields of biosensors, soft- and stretchable electronics forward. Using CELLINK’s BIO X6, Professor Park’s team has created flexible, durable, and highly functional conductive structures. To test their innovative approach, the team printed an “electronic skin”, or e-skin, which they tested with various sensors. We’re incredibly proud to see how pioneers like Professor Park trust CELLINK’s bioprinters to take their research and innovations to new heights. To hear Professor Park's thoughts, and learn more on what's next, check out the full customer spotlight here: https://lnkd.in/dVf3Qnsx #3DBioprinting #StretchableElectronics #SoftElectronics #Biosensors #WearableTech #CELLINK #KAIST Image collected from Lee, GH., Lee, Y.R., Kim, H. et al. Rapid meniscus-guided printing of stable semi-solid-state liquid metal microgranular-particle for soft electronics. Nat Commun 13, 2643 (2022), and licensed under CC BY 4.0 (https://lnkd.in/gdWq3CF).

We had the pleasure of welcoming distributors from around the world to our HQ in Gothenburg last week. Over three inspiring days, we explored the latest in 3D bioprinting technology, discussed market trends and applications, and shared insights on how we can best support researchers globally. It was truly rewarding to hear about the successes in each region and to strengthen our partnerships. We’re grateful for the collaboration and enthusiasm of our distributors, both long-standing and new, and we look forward to seeing them continue to empower researchers in tackling global healthcare challenges. Thank you to all attendees for making this event a success!

Tune in on March 19 for a webinar on harnessing the power of 3D bioprinting and artificial intelligence for biofabrication, featuring Dr. Sriram Gopu from NUS Faculty of Dentistry. Dr. Gopu Sriram will be presenting his lab's exciting work with 3D bioprinting and artificial intelligence, where they printed defect-specific grafts for the repair of mucogingival defects. 📅 Date: March 19, 4 pm SGT | 9 am CET | 1:30 pm IST | 5 pm JST 🎤 Speaker: Dr. Gopu Sriram, National University of Singapore Register here: https://lnkd.in/dxumcnDS #Webinar #3DBioprinting #TissueEngineering #RegMed #PersonalizedMedicine #ArtificialIntelligence

In partnership with L V PRASAD EYE INSTITUTE, we recently delivered one of the first hospital-based symposiums and workshops on 3D bioprinting and biomaterial applications in ophthalmology. This pioneering initiative bridged cutting-edge light-based bioprinting technologies with clinical research, accelerating innovation where it matters most. 3D bioprinting is redefining corneal research and regenerative medicine, unlocking revolutionary advances in disease modeling, drug screening, and bioengineered corneal grafts. By harnessing light-based bioprinting, researchers can now fabricate high-resolution, cell-friendly corneal structures with unmatched reproducibility and scalability – setting the stage for life-changing therapies to restore vision globally. A heartfelt thank you to the visionary team who made this possible: Dr. Sayan Basu, Dr Vivek Singh, Vineet Joshi, MD, Mr. Avijit Minocha, Roopak Poddar, and Vijeta Jaiswal for their relentless efforts to bring this transformative event to the ophthalmology community. At CELLINK, we’re driven to push the frontiers of bioprinting in eye care, equipping researchers and clinicians with tools to pioneer next-gen solutions for corneal repair and vision restoration. Together, we’re not just imagining the future of ophthalmology – we’re printing it. 👁️🔬 #3Dbioprinting #TissueEngineering #CornealRepair

The prospect of extrusion-based bioprinting’s use of G-code can be daunting, but once you get the basics, it’s simpler than it seems. G-code directs a 3D printer’s movement and material deposition, controlling everything from the printhead position to extrusion rates. While you don’t need to dive deep into G-code to conduct bioprinting research (our user-friendly software handles most of the heavy lifting), understanding its basics will give you greater insight into the bioprinter’s actions and give you greater control, enabling you to fine-tune the process for optimal results. In our latest blog, we break down what G-code is, how it works (with a simple example), and how our DNA Studio 4 software for the BIO X Series Gen 3 makes editing it even easier. Brush up on G-code basics here 👇 https://lnkd.in/dtSwaZXF #3Dbioprinting

We're at Medlab Middle East 2025! We’re excited to showcase the BIO X and LUMEN X 3D bioprinters live in action at booth H30, together with our partners Leader Life Sciences Our bioprinting experts, Anik Islam and Flore-Anne Poujade, are on-site to discuss how 3D bioprinting can support your research in regenerative medicine, stem cells, tissue engineering and more. 📍 Medlab Middle East | Booth H30 in Za´abeel Hall #6 Come by for insightful discussions! #bioprinting #regendmed #stemcells #gcc #biox #lumenx #medlab Medlab Series - Medical Laboratory Industry Forum