RT @SMBDigest: Representation of Multiple Cellular Phenotypes Within Tissue-Level Simulations of Cardiac Electrophysiology by Bowler, Gavag…
RT @SMBDigest: Representation of Multiple Cellular Phenotypes Within Tissue-Level Simulations of Cardiac Electrophysiology by Bowler, Gavag…
Representation of Multiple Cellular Phenotypes Within Tissue-Level Simulations of Cardiac Electrophysiology by Bowler, Gavaghan, Mirams, Whiteley in Flagship Journal of @SMB_MathBiology #BMB #BullMathBio #mathbio https://t.co/phLeNwCTAg
New from #wellcometrust https://t.co/ps1NOc3quU Representation of Multiple Cellular Phenotypes Within Tissue-Level Simulations of Cardiac Electrophysiology
RT @SMBDigest: #BMB #online1st Representation of Multiple Cellular Phenotypes Within Tissue-Level Simulations of Cardiac Electrophysiology…
#BMB #online1st Representation of Multiple Cellular Phenotypes Within Tissue-Level Simulations of Cardiac Electrophysiology by Bowler, Gavaghan, Mirams, Whiteley in Flagship Journal of @SMB_MathBiology #BMB #BullMathBio #mathbio https://t.co/phLeNwCTAg
RT @GaryMirams: Latest paper out today in @SMB_MathBiology's journal, on how you can include mixtures of discrete cell types in cardiac tis…
Representation of Multiple Cellular Phenotypes Within Tissue-Level Simulations of Cardiac Electrophysiology. https://t.co/zqRcxKBfKg
RT @GaryMirams: Latest paper out today in @SMB_MathBiology's journal, on how you can include mixtures of discrete cell types in cardiac tis…
RT @GaryMirams: Latest paper out today in @SMB_MathBiology's journal, on how you can include mixtures of discrete cell types in cardiac tis…
Latest paper out today in @SMB_MathBiology's journal, on how you can include mixtures of discrete cell types in cardiac tissue simulations: https://t.co/AO2Po8HL8M … slight spatial variation in the mix would explain lack of synchrony in self-exciting monol