Beebe Lab (MMB)
@LabBeebe
Microtechnology, Medicine and Biology Lab. Investigating cellular scale phenomena from both a physical and biological sciences perspective.
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New collaboration with @David_KosoffMD fresh out of the (publishing) oven!🥳🥳 Congratulations to all of our co-authors for this awesome paper @UWMadison_BME
Excited to share our recent publication detailing how the Stacks microfluidic platform can be used to support TME research! Lots of potential moving forward! @ErikaHeninger @NSethakorn @LabBeebe @UWCarbone @uw_medicine faseb.onlinelibrary.wiley.com/doi/10.1096/fj…
Celebrating our new work by @duanesj in collaboration with @oventurelli2 and @Jo_Microbe 👇. This work features a novel platform for single-strain investigation and combinatorial screening of different bacterial interactions🦠🔬! Great work, everyone!
Happy to share a new paper on mapping microbial interactions in collaboration @LabBeebe and @Jo_Microbe led by the very talented Duane Juang biorxiv.org/content/10.110…
Our very own @VirumbralesMM was at #BMES2022 and got lots of attention in her posters! If you missed her, she loved it so much she will be back.
My first #BMES2022 will definitely NOT be my last! Great speakers, fantastic events, and I am in awe with San Antonio 😍
See our postdoc @Csanchezdg speaking about #BoneMarrow microphysiological systems and #prostatecancer, tomorrow!🧫 @UWSpacePlace @UWCarbone @UWMadison_BME @wiscobrien @LabRicke @wiscurology
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.@LabBeebe & @David_KosoffMD lab critically review microfluidics in vascular biology research - for engineers, biologists, and clinicians @UWMadison_BME @uw_medicine @UWCarbone 🔗 rsc.li/3R8ssNO
Check out the latest publication of @VirumbralesMM and @Csanchezdg in collaboration with Kosoff's lab. Here they highlight the key role of microfluidics in vascular biology research. pubs.rsc.org/en/content/art…
Congratulations to @adeel_achmed for passing his Ph.D. defense with flying colors. Dr. Ahmed will be joining @LabBeebe as a postdoctoral fellow in October. He is the first graduate from the lab and will be missed. @TomGaborski @_RITEngineering
With a simple under-oil, microfluidic cell culture system, @LabBeebe members say they’ve found a better way to mimic the body’s natural oxygen microenvironment in microscale cell cultures. bit.ly/3r9458D
Celebrating a new success from alumnus (and now Assistant Professor @JoseMAyuso1 and us!
Congratulations to Professor Dave Beebe for earning a Discovery to Product SEED grant. bit.ly/3MMDIxS
Excited to see our postdoc @Csanchezdg participating in #ASBMRHillDay to support @NIH funding and increase reimbursements to advance bone biomedical research and improve patient care for osteoporosis.
Most experimental cell culture setups use unnatural oxygen environments. @UWMadison_BME’s @LabBeebe has developed a way to mimic the body’s natural oxygen microenvironment by entrusting the cells to self-regulate the oxygen level in microscale cultures. engineering.wisc.edu/news/channelin…
Our paper is out! Detecting tumor heterogeneity in CTCs in NSCLC. Love working with Jen Schehr, @AMTrayn @LealTiciana @NarjustDumaMD @TobyCampbellMD @LabBeebe and @JoshLangMD
Thrilled to share quantitative microscopy for highly reproducible single cell phenotyping of liquid biopsies in #lungcancer! rdcu.be/cL6mB Just the start of realizing DNA->RNA->Protein liquid biopsies! @NSethakorn @LealTiciana @PCF_Science @UWCarbone @NarjustDumaMD
Happy to co-edit this article collection from Frontiers in Medical Technology w/@VirumbralesMM and @JoseMAyuso1: Microfluidics for Advancing Vascular Biology frontiersin.org/research-topic… Manuscript submission is now open!
Nice mention of #TissueChips from Bill Gates in the @nytimes last Friday! nytimes.com/2022/04/15/opi…
Check out our new review piece on #RenalCellCarcinoma models by our post-doc @VirumbralesMM, @dshapiro1 and @ejasonabel published in #frontiersin 🥳. Link 👉 fro.ntiers.in/Fnrz @UWCarbone @UWMadison_BME
Our latest review in #RenalCellCarcinoma models to investigate biology and therapy is finally out! A delight to work with @dshapiro1 and @ejasonabel on this piece, which was overdue in the field.
With a simple under-oil, microfluidic cell culture system, @UWMadison_BME’s @djbeebe and @LabBeebe members say they’ve found a better way to mimic the body’s natural oxygen microenvironment in microscale cell cultures. engineering.wisc.edu/news/channelin…
See our postdoc @VirumbralesMM speaking about #OrganOnAChip, #Cancer, and #Microfluidics tomorrow!🔬🦠👇 @UWSpacePlace @UWCarbone @UWMadison_BME
See you all tomorrow for lots of bio-engineering fun @UWSpacePlace!
Kudos to our post-doc @duanesj for his outstanding work! Here, he studied #dnamethylation signatures using semi-automated #liquidbiopsy technology with @JoshLangMD and @M_Haffner. Link 👇
Thrilled to share the next step in our journey to truly comprehensive molecular analysis of liquid biopsies! …lepigeneticsjournal.biomedcentral.com/articles/10.11… @PCF_Science @M_Haffner @LabBeebe @JSperger @_CNS_94
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