"Profiling hypertrophic adipocytes in humans, from transcriptomics to diagnostics"
A commentary by Qian Li and Kirsty Spalding discussing findings and potential applications of our recent publication in @eBioMedicine
https://t.co/dHD88tbopo
Read our milestone publication @EBioMedicine led by @JHon3cker and @StfnnftS showing among others the potential of Magnetic Resonance on a clinical system to simultaneously assess fatty acid composition and cell size in adipose tissue @ERC_Research @MIBE_TUM @TU_Muenchen
Our MR-based proof-of-concept approach bridges from mechanistic insights to #translational applicability and could become a promising tool for the non-invasive estimation of FA composition and adipocyte size in-vivo. 11/n
Very exciting to share that our article on "Transcriptome and fatty-acid signatures of adipocyte hypertrophy and its non-invasive MR-based characterization in human adipose tissue" is now available online! https://t.co/VT8xfFCErU
A first-ever #singlecellatlas of white fat reveals the composition of this dynamic tissue in unprecedented detail, and lays the groundwork for deeper studies of #type2diabetes, #obesity, and #metabolicdiseases. https://t.co/KCZwFIJHNG
I am excited to share our preprint together with @BMRRgroup@StfnnftS@CNellaker@ceclindgren@MelinaClaussnit on transcriptome and fatty-acid signatures of adipocyte hypertrophy and their non-invasive MR-based characterization in human adipose tissue.
https://t.co/izXmEeYYVg