|
Canada-0-ComputersNetworking 公司名錄
|
公司新聞:
- E-MTAB-7895 lt; Studies lt; BioStudies lt; EMBL-EBI
To gain insights on how cell composition and transcriptome can affect the predisposition to cardiac rupture, we compared the data on B6 background with 129S1 SvlmJ (129) mice sham and d3 post-MI (time point proceeding the rupture), capturing about 13,000 additional cells
- Myocardial infarction time series single cell RNA-Seq
To gain insights on how cell composition and transcriptome can affect the predisposition to cardiac rupture, we compared the data on B6 background with 129S1 SvlmJ (129) mice sham and d3 post-MI (time point proceeding the rupture), capturing about 13,000 additional cells
- Dynamic Interstitial Cell Response during Myocardial Infarction . . .
Analysis of multiple closely spaced time points immediately after MI revealed a rapidly changing landscape of interstitial cell types, providing a detailed and comprehensive characterization of cellular features and building a precise map of stromal cell evolution in response to injury
- Dynamic Interstitial Cell Response during Myocardial Infarction . . .
The detailed transcriptomic analysis of cardiac interstitial cells at different time points post-MI provides a benchmark for comparative analyses of potential differences in cell composition and dynamics of genetically diverse models with different reparative outcomes
- lt;br gt;心肌梗塞期间的动态间质细胞反应可预测遗传多样性小鼠 . . .
Comparing transcript profiles from post-infarction hearts in C57BL 6J and 129S1 SvImJ inbred mice, which displays a marked divergence in the frequency of cardiac rupture, uncovers an early increase in activated myofibroblasts, enhanced collagen deposition, and persistent acute phase response in 129S1 SvImJ mouse hearts, defining a
- Dynamic Interstitial Cell Response during Myocardial Infarction . . .
Abstract Cardiac ischemia leads to the loss of myocardial tissue and the activation of a repair process that culminates in the formation of a scar whose structural characteristics dictate propensity to favorable healing or detrimental cardiac wall rupture
- Dynamic Interstitial Cell Response during Myocardial Infarction . . .
Analysis of multiple closely spaced time points immediately after MI revealed a rapidly changing landscape of interstitial cell types, providing a detailed and comprehensive characterization of cellular features and building a precise map of stromal cell evolution in response to injury
- Elvira Forte - Google Scholar
E Forte, DA Skelly, M Chen, S Daigle, KA Morelli, O Hon, VM Philip, R Gaetani, M Ledda, L Barile, I Chimenti, F De Carlo, E Forte, V Ionta, L Barile, I Chimenti, R Gaetani, E
- Experiment lt; Single Cell Expression Atlas lt; EMBL-EBI
Forte E, Skelly DA, Chen M, Daigle S, Morelli KA et al (2020) Dynamic Interstitial Cell Response during Myocardial Infarction Predicts Resilience to Rupture in Genetically Diverse Mice
- EMBL-EBI
Publication Author List Forte E, Skelly DA, Chen M, Daigle S, Morelli KA, Hon O, Philip VM, Costa MW, Rosenthal NA, Furtado MB Publication Title Dynamic Interstitial Cell Response during Myocardial Infarction Predicts Resilience to Rupture in Genetically Diverse Mice
|
|