"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:

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:

RT @HafsaMunir11: The Munir Lab is looking to recruit an enthusiastic Biology Laboratory Assistant. If you're interested in skin cancer and….

RT @Cambridge_Eng: Researchers have developed a #3Dbioprinter for #CancerResearch that can be folded into a carry-on pack, transported, & e….

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.

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

RT @Cambridge_Eng: Introducing ' – the future of #3Dprinting for soft materials:. *Hackable.*Multi-functional.*Aff….

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

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

RT @JenniferALewis1: Congratulations to John Ahrens, @SebUzel and @mascott85 for leading this work, which builds on earlier work from our l….

RT @EMBLBarcelona: Welcome to #EMBOBuildNetworks!. @TinaHaase3 introduces this 3-day event. Looking forward to many exciting discussions o….

RT @Biointerface_CU: Happy to share our new work 🔬 with @Shields_Lab: .Simulating the Tumor Microenvironment for Immune Cell Interactions v….

RT @iekmanlei: Very glad to see this work coming out. Cell migration plays an important role in physiological and pathological processes, a….

RT @Biointerface_CU: 💫We have made it to the front cover of Advanced Science with @JooHyeonLeeLab✨ Harnessing #Biofabrication for #organoid….

RT @Biointerface_CU: Upsizing and Shaping #airway #organoids, our article with @JooHyeonLeeLab is now available in the Health, Medical and….

RT @TanentzapfLab: Virtually every aspect of the COVID vaccine, from the lipid nanoparticles to the mRNA technology, was developed in acade….

RT @Cambridge_Uni: A way to 'up-size' the #miniorgans used in #medicalresearch has been developed by a team of scientists and engineers. I….

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'.