Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased expression of GLUT1

RT @ClinMedJournals: #OpenAccess in @DiabetologiaJnl – Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased ex…

https://t.co/dUssM2wpZz empa directly induces upregulation of GLUT1 expression in isolated human & murine cardiomyocytes, enhancing glucose uptake and the intracellular glucose concentration. This may explain, in part, the beneficial effects of empagl

Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased expression of GLUT1 https://t.co/Q3DbLNw2N2 OJITO, en humanos y ratones...

RT @ClinMedJournals: #OpenAccess in @DiabetologiaJnl – Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased ex…

RT @ClinMedJournals: #OpenAccess in @DiabetologiaJnl – Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased ex…

RT @ClinMedJournals: #OpenAccess in @DiabetologiaJnl – Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased ex…

RT @ClinMedJournals: #OpenAccess in @DiabetologiaJnl – Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased ex…

RT @ClinMedJournals: #OpenAccess in @DiabetologiaJnl – Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased ex…

#OpenAccess in @DiabetologiaJnl – Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased expression of GLUT1 https://t.co/seioEn8FK2

Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased expression of GLUT1 | SpringerLink https://t.co/sCaUAlHVgz

RT @Aldibbiat: What an amazing insight. More GLUT1 expression leads to more glucose uptake by the heart muscles, therefore more energy to t…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

Great to get further insight into the mechanisms of Empagliflozin & heart failure benefits.

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @Aldibbiat: What an amazing insight. More GLUT1 expression leads to more glucose uptake by the heart muscles, therefore more energy to t…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

What an amazing insight. More GLUT1 expression leads to more glucose uptake by the heart muscles, therefore more energy to the heart. This explains, at least in part, the heart failure benefits from Empagliflozin.

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

【In vitro】SGLT2阻害薬24時間曝露で、対照マウス、圧負荷心不全マウス、ヒト重症心不全例からの、単離心室心筋のGLUT1発現が増加。GLUT4発現には変化なし。 Diabetologia https://t.co/o1AZwUChnz

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach for heart failure @presse_ukr https://t.co/1KH4BYtahq 🔓 #toptweet https://t.co/Yfh8ElM6bC

Empagliflozina mejora la captación de glucosa en cardiomiocitos al aumentar la expresión de GLUT1...como tantas otras veces, la fisiopatologia corriendo detrás de la evidencia...@DiabetologiaJnl #cardiometabolismo #diabetes #cardiotwiter https://t.co/CAB6D

RT @Kaththomasset: New data on effect of #Empagliflozin on #GLUT1 and #glucose metabolism: #T2D #HeartFailure https://t.co/HFS5dgVenR

@tinynair. These guys keep finding new mechanisms

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @Kaththomasset: New data on effect of #Empagliflozin on #GLUT1 and #glucose metabolism: #T2D #HeartFailure https://t.co/HFS5dgVenR

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

New data on effect of #Empagliflozin on #GLUT1 and #glucose metabolism: #T2D #HeartFailure

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

RT @DiabetologiaJnl: Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach fo…

Empagliflozin directly increases GLUT1 expression and glucose in human cardiomyocytes. A novel therapeutic approach for heart failure @presse_ukr https://t.co/1KH4BYtahq 🔓 https://t.co/1U9wGrYJQo

RT @tpulinil: #LI #Empagliflozin enhances #human and murine #cardiomyocyte #glucose uptake by increased expression of #GLUT1 @Diabetologia…

Interesting work: #EMPA directly induces upregulation of GLUT1 expression & enhanced glucose uptake in isolated failing human & murine cardiomyocytes: may explain favourable #HF outcomes in #EMPA_REG #OpenAccess @DiabetologiaJnl @johnrpetrie @UofGI

Empagliflozin enhances human and murine cardiomyocyte glucose uptake by increased expression of GLUT1 https://t.co/wsjG7g20tz

RT @DanielJDrucker: More off target direct actions of empagliflozin in cardiomyocytes @DiabetologiaJnl https://t.co/cKFzEEEBLa

RT @tpulinil: #LI #Empagliflozin enhances #human and murine #cardiomyocyte #glucose uptake by increased expression of #GLUT1 @Diabetologia…

RT @tpulinil: #LI #Empagliflozin enhances #human and murine #cardiomyocyte #glucose uptake by increased expression of #GLUT1 @Diabetologia…

RT @DanielJDrucker: More off target direct actions of empagliflozin in cardiomyocytes @DiabetologiaJnl https://t.co/cKFzEEEBLa

#LI #Empagliflozin enhances #human and murine #cardiomyocyte #glucose uptake by increased expression of #GLUT1 @DiabetologiaJnl https://t.co/dGQtaUlW6l

RT @DanielJDrucker: More off target direct actions of empagliflozin in cardiomyocytes @DiabetologiaJnl https://t.co/cKFzEEEBLa

RT @DanielJDrucker: More off target direct actions of empagliflozin in cardiomyocytes @DiabetologiaJnl https://t.co/cKFzEEEBLa

More off target direct actions of empagliflozin in cardiomyocytes @DiabetologiaJnl https://t.co/cKFzEEEBLa