"How can integrating lymphoid tissues into biofabrication enhance 3D tumor models? Our latest review explores how this approach could improve insights into tumor-immune interactions and cancer progression. Read more here: https://t.co/nhmHW7xzAl

Very happy to share our latest paper! 🎉 In collaboration with @Biointerface_CU and @Shields_Lab Lab, we developed a 3D hydrogel-based model of a lymph node. The paper is out on Advanced Healthcare Materials - link to the open access paper:

The Munir Lab is looking to recruit an enthusiastic Biology Laboratory Assistant. If you're interested in skin cancer and its microenvironment, please reach out. For full description & how to apply please visit https://t.co/TVXZRjB9Qb #microenvironment #skincancer #myeloidcells

Researchers have developed a #3Dbioprinter for #CancerResearch that can be folded into a carry-on pack, transported, & easily reassembled for printing inside a biosafety cabinet https://t.co/vqb0qVhhsT @YaqiTKOU @Corrado___M @Biointerface_CU @Shields_Lab #biofabrication

Traditional 2D systems fail to fully capture the TME. Our approach creates a densely packed environment that includes CAFs & immune cells, offering a possible alternative to recreating TME architectures, adaptable for different tumour types. #Biofabrication

Our setup is affordable & mobile, enabling wider accessibility to researchers. With our approach, we can add immune cells to the core-shell tumoroids, creating a multi-compartmental model to study therapy responses, like anti-CTLA4 immunotherapy.

Very happy to share our new work on #3DBioprinting! Thanks to the collaborative effort between @Biointerface_CU and @Shields_Lab. 1/ We generated 3D printed core-shell tumoroids that accurately mimic the complexities of the #tumormicroenvironment. https://t.co/LneyrMVqf0

A @Cambridge_Eng team has developed a hackable, multi-functional 3D printer for soft materials.

Introducing ' https://t.co/vSEwgL9DSK' – the future of #3Dprinting for soft materials: *Hackable *Multi-functional *Affordable *#OpenDesign Offering #design freedom & the ability to customise the print path – aiding the creation of unprecedented designs: https://t.co/Zz57RmLbXM

It was really exciting learning so much and sharing my work today in such a lovely place @Biofab2022

Building/ DIY a multi-functional🫧 Soft & Bio material 🍃printer for £1k! check out our latest paper, led by @iekmanlei here @Cambridge_Eng:

Congratulations to John Ahrens, @SebUzel and @mascott85 for leading this work, which builds on earlier work from our lab that harnessed shear-induced alignment of anisotropic building blocks to pattern soft matter. Here, our team extends this work to organ building blocks❤️

Welcome to #EMBOBuildNetworks! @TinaHaase3 introduces this 3-day event. Looking forward to many exciting discussions on engineering and vascular biology. Stay tuned!

Happy to share our new work 🔬 with @Shields_Lab: Simulating the Tumor Microenvironment for Immune Cell Interactions via Deployable Extrusion Bioprinting https://t.co/VY6otOkHmy

Very glad to see this work coming out. Cell migration plays an important role in physiological and pathological processes, and it is exciting to see single cells were free to explore their different shapes in response to the various fibrillar topographies. @Biointerface_CU

💫We have made it to the front cover of Advanced Science with @JooHyeonLeeLab✨ Harnessing #Biofabrication for #organoid and airway tube on a chip @Cambridge_Eng @AdvSciNews

Upsizing and Shaping #airway #organoids, our article with @JooHyeonLeeLab is now available in the Health, Medical and Life Sciences virtual issue of Advanced Science #biofabrication #OAUnitedKingdom @wileyinresearch @Corrado___M @cathdabs https://t.co/6nIKuQGXIf

Virtually every aspect of the COVID vaccine, from the lipid nanoparticles to the mRNA technology, was developed in academic labs using public funds. But in the public's mind the credit goes to companies like Moderna/Pfizer. This is a missed opportunity to celebrate basic research

A way to 'up-size' the #miniorgans used in #medicalresearch has been developed by a team of scientists and engineers. It's sort of a cross between baking a cake and blowing giant soap bubbles: https://t.co/EojefzyXps @Biointerface_CU @SCICambridge @Cambridge_Eng @DeptofPhysics

Happy I could contribute to this exciting collaboration between @SCICambridge and @Biointerface_CU. 'Bio‐assembling Macro‐Scale, Lumenized Airway Tubes of Defined Shape via Multi‐Organoid Patterning and Fusion'