ESB 2023 Council election is open! With representation from NL! Make sure to vote if you're an ESB member esbiomaterials.eu/cms/content/el…

Arrived in #Manchester and looking forward to present our work TERMIS EU 2023 Manchester, to learn from and get inspired by others, and to see colleagues and friends #bioprinting, #vascularization, University of Twente (inactive)

That moment when the last bite of your lunch salad starts moving...

Inspired by the orrery of Eise Eisinga in the Netherlands, I started a project to see if I can build a working orrery in my own living room. At the moment I'm in design phase, but buiding is near. Great project to take my mind of work every now and then. en.wikipedia.org/wiki/Eise_Eisi…

Nice output by Pardis within our APRICOT project. Adding bioactive calcium phosphate coatings to thin flexible foils. doi.org/10.1016/j.surf…

Looking forward to speak at the Dubai Stem Cell Congress next month dubaistemcellcongress.com

New preprint available from Prasanna Padmanaban MSc. Hons., PhD . Using extrenal fluid flows to perturb vascular organization in chick CAM biorxiv.org/content/10.110…

⚠ Attention NBTE PhD students and postdocs! Please take our quick survey about your career interests, Annual Meeting feedback, and preferences for future trainee-focused events. ✍️ forms.office.com/r/saQrJKzV9i

We print cell suspensions instead of hydrogel bioinks. A new paper by Vasileios Trikalitis gives more information on the methodology: Embedded Printing of Hydrogels and Watery Suspensions of Cells in Patterned Granular Baths | Tissue Engineering Part C: Methods (liebertpub.com)

Blood flow affects vascular organization. But is this also the case for fluid flow over the vessels? Our new paper by Prasanna Padmanaban MSc. Hons., PhD tries to find out: pubs.rsc.org/en/content/art…

Fully funded PhD position available on engineered skeletal muscle models Characterization of structural remodelling in tissue-engineered human skeletal muscles in vitro during multi-week eccentric training - Looking for a job that matters? (utwentecareers.nl)

Embedded bioprinting is great, but the moving nozzle can disturb printed material. So we took the nozzle out of the process. Vasileios Trikalitis SurgicalRoboticsLab Magnetic Nozzle‐Free Embedded 3D (MagNoFE3D) Printing - Piñan Basualdo - Advanced Materials Technologies - Wiley Online Library

A great new paper out headed by Deepti Rana . Bioprinting of Aptamer‐Based Programmable Bioinks to Modulate Multiscale Microvascular Morphogenesis in 4D - Rana - Advanced Healthcare Materials - Wiley Online Library doi.org/10.1002/adhm.2…

📢New publication alert! 🚨 Excited to share our latest work in Advanced Healthcare Materials: Bioprinting of Aptamer-Based Programmable Bioinks to Modulate Multiscale Microvascular Morphogenesis in 4D🎉 Jeroen Rouwkema Prasanna Padmanaban MSc. Hons., PhD Vasileios Trikalitis University of Twente (inactive) Dankook University @advportfolio

And another great paper out by Deepti Rana . Using aptamer-functionalized GelMA we can now have demanded release of multiple growth factors independently. Spatiotemporally programmed release of aptamer tethered dual angiogenic growth factors sciencedirect.com/science/articl…