@photobiolab #PreprintAlert! We are excited to share our new preprint reporting how can #FLIM #organoids can help better understanding #MNP #nanoplastic #pollution effects! We developed #FLIMbarcoding with #NIR #azabodipy #pristinenanoparticles, optimised #polarityreversion 👇

RT @Nature: Cancer cells turbocharge themselves by stealing the energy-producing units from neurons in tumours.

#FluorescenceFriday an image from our project on #FLIM-based assessment of #nanoplastic pollution with polarity-reverted small #intestinal #organoids. Immunofluorescence of ZO-1 (cyan) together with F-actin (green) and NPs (magenta). With @hang_zhouFLIM @FlImagin3_DN Stay safe!

and a bit of fun:

#FluorescenceFriday the 3rd @FlImagin3_DN consortium in Milan! ~Halfway of PhD so many exciting directions in #FLIM #cancermechanics #diatoms #organoids #SPIM #FRET #heartrepair and more with @drmgmonaghan @Femtoscopist @MicroSensing @hang_zhouFLIM @melissa_skala @chiarellast .

RT @ryankatzrosene: Woah! Such an important study published in Nature today! Quick thread with some of their key figures! .🧵 .

RT @J_A_C_S: Deep Learning for Fluorescence Lifetime Predictions Enables High-Throughput In Vivo Imaging | Journal of the American Chemical….

for tissue engineering & supporting organoid-based research! @microscopyUGent @GgigGhent @FlImagin3_DN Some interesting #FLIM is also included but mostly in supplement :) Link to the manuscript @JTissEng Enjoy!.

resulting in polarity reversion, in contrast to the Matrigel-grown cultures. Collective effort with @RousselotGlobal (Thomas and Ruben), @bert_devriendt and my team (Lenie and Irina), helping to develop semi-synthetic and sustainable alternatives.

#FluorescenceFriday paper from our team: we report application of GelMA hydrogels with tuneable mechanical properties and added laminin to the culture of small #intestinalorganoids. We found that mechanical properties alone are not sufficient for basal membrane support,

Paper accepted, published version to be available soon.

We are still looking for a perfect postdoctoral candidate (deadline extended until 23-June)! Don't miss your chance. Keywords: 3D neural cell culture, quantitative live microscopy, CRISPR and neurodegeneration.

RT @ScienceMagazine: Three new papers in Science report that astrocytes are indispensable for neuromodulatory signaling across diverse neur….

Enjoyed attending the #GGIG2025 meeting organised by @GgigGhent! A lot of inspiring talks, excellent level of speakers and networking with colleagues and peers! Thanks for selecting @PhotoBioLab abstract for oral presentation! @bert_devriendt @hang_zhouFLIM @microscopyUGent

RT @GrayCampLab: Integrated Organoid Atlas benchmarks new protocols, even more impressive as a Highly Variable Cohort for comparison agains….

RT @tarungupta360: @skdh @skdh The various claims around LLMs automating scientific research are also not quite correct. Check: https://t.c….

RT @MitoPsychoBio: A map of mitochondrial biology reveals the energy landscape of the human brain. Wonderful and fun collaboration with @Mi….

why investing in AI while we could invest in studying fungal intelligence?.

RT @PracheeAC: “the cancer research community has abandoned deep thinking for deep sequencing” 🔥 🔥 🔥. Great read (even for those in other f….

well this also concerns the researchers (life sciences) and published articles, books etc. #Meta steals/'borrows' from @SpringerNature Elsevier Wiley etc.

#FluorescenceFriday a preview of our work in progress with @simoneperottoni measuring #pH outside and inside of the lumen ('ball inside') in the intestinal #organoids (dark here as it is unstained) by confocal #FLIM: color indicates a difference! Guess where it is more acidic?