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cto-bourgine.bsky.social @cto-bourgine.bsky.social · Jun 23

Happy to share this opinion piece, on the emergence of bone marrow organoids 🥳 ! A much more difficult exercise than I thought, but curious to hear your thoughts. Are we on the right path towards replicating human bone marrow features? 😶‍🌫️

www.cell.com/trends/biote...

Human bone marrow organoids: emerging progress but persisting challenges

Organoid systems hold promise as miniaturized in vitro platforms that model developmental and pathological processes. However, the engineering of human bone marrow organoids (BMOs) has been a long-sta...

www.cell.com

cto-bourgine.bsky.social @cto-bourgine.bsky.social · Jun 5

Congrats to @laura-rabanal.bsky.social and Lea Chicoisne (from @consigliocr.bsky.social lab) for their awarded project "Influence of sex steroids on bone metastasis development in lung cancer"! 🤩
They receive the 1st prize from the Wallenberg Center Research school evaluation board!!

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cto-bourgine.bsky.social @cto-bourgine.bsky.social · May 28

Great initiative! Thank you @Laura Rabanl Cajal and @Sara Gonzalez Anton from your lab for participating!

Lund Stem Cell Center @lundstem.bsky.social · May 28

🧪 This spring, nine Lund Stem Cell Center researchers gave 100+ students in southern Sweden a firsthand look at stem cell science and research ethics, sparking curiosity through our Taking Science to Schools – Borrow a Scientist programme. #STEM

📚 Read more: www.stemcellcenter.lu.se/article/scie...

Science steps outside the lab: “Borrow a Scientist” returns to local classrooms

Lund University. In March 2025, nine researchers from the Center visited more than 100 students at Malmö Latinskola, Filbornaskolan in Helsingborg, and Söderportgymnasiet in Kristianstad. The sessions...

www.stemcellcenter.lu.se

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cto-bourgine.bsky.social @cto-bourgine.bsky.social · Mar 31

Glad to share our latest publication, demonstrating the generation of human tissue graft edited in their composition leading to tailored regenerative capacities. The strategy could lead to custom "tissue therapies" promoting endogenous repair. Congrats to all!🦴🤩
elifesciences.org/articles/969...

Compositional editing of extracellular matrices by CRISPR/Cas9 engineering of human mesenchymal stem cell lines

Human extracellular matrices can be edited in their composition using the CRISPR/Cas9 system, leading to materials exhibiting tailored regenerative capacities.

elifesciences.org

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cto-bourgine.bsky.social @cto-bourgine.bsky.social · Jan 15

Congrats, nice story!