RT @MarsdenStanford: Grateful for the high performance computing resources provided by @XSEDEscience and @SDSC_UCSD that support our simula…
Grateful for the high performance computing resources provided by @XSEDEscience and @SDSC_UCSD that support our simulations! https://t.co/kP872Z31ZN
Patient-specific simulations of coronary hemodynamics run on #comet #HPC at @SDSC_UCSD @XSEDEscience https://t.co/EEs9lIU6zD https://t.co/47FSUZR5ex
RT @simvascular: @simvascular was used in this study @StanfordCVI @StanfordBioE to uncover differences between arterial and venous grafts i…
RT @simvascular: @simvascular was used in this study @StanfordCVI @StanfordBioE to uncover differences between arterial and venous grafts i…
RT @simvascular: @simvascular was used in this study @StanfordCVI @StanfordBioE to uncover differences between arterial and venous grafts i…
@simvascular was used in this study @StanfordCVI @StanfordBioE to uncover differences between arterial and venous grafts in #CABG patients. https://t.co/5iALD7MyPL
Recent research on coronary biomechanics using @simvascular https://t.co/5iALD7MyPL
RT @MarsdenStanford: Vein graft failure affects up to 50% of patients after coronary bypass surgery. This is one piece of the puzzle. h…
Vein graft failure affects up to 50% of patients after coronary bypass surgery. This is one piece of the puzzle. https://t.co/vYYC5palcu