RT @ckd_ce: 12) For those who 💕physiology: Sodium cotransport allows for glucose to be transported against an uphill gradient into the tubu…
12) For those who 💕physiology: Sodium cotransport allows for glucose to be transported against an uphill gradient into the tubular epithelial cell. Glucose then leaves via facilitated diffusion using GLUT-2 on the basolateral membrane. See 🔓https://t.co/tz
RT @cardiomet_CE: 12) For those who 💕physiology: Sodium cotransport allows for glucose to be transported against an uphill gradient into th…
12) For those who 💕physiology: Sodium cotransport allows for glucose to be transported against an uphill gradient into the tubular epithelial cell. Glucose then leaves via facilitated diffusion using GLUT-2 on the basolateral membrane. See 🔓https://t.co/D2
RT @DiabetologiaJnl: A review of the physiology of renal glucose handling via SGLT1, SGLT2 & GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zIIt…
RT @DiabetologiaJnl: A review of the physiology of renal glucose handling via SGLT1, SGLT2 & GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zIIt…
RT @DiabetologiaJnl: A review of the physiology of renal glucose handling via SGLT1, SGLT2 & GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zIIt…
RT @DiabetologiaJnl: A review of the physiology of renal glucose handling via SGLT1, SGLT2 & GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zIIt…
RT @DiabetologiaJnl: A review of the physiology of renal glucose handling via SGLT1, SGLT2 & GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zIIt…
RT @DiabetologiaJnl: A review of the physiology of renal glucose handling via SGLT1, SGLT2 & GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zIIt…
RT @DiabetologiaJnl: A review of the physiology of renal glucose handling via SGLT1, SGLT2 & GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zIIt…
A review of the physiology of renal glucose handling via SGLT1, SGLT2 & GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zIIt https://t.co/CbS1QRlubX
RT @DiabetologiaJnl: A review of the physiology of renal glucose handling via SGLT1, SGLT2 and GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zI…
RT @DiabetologiaJnl: A review of the physiology of renal glucose handling via SGLT1, SGLT2 and GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zI…
RT @DiabetologiaJnl: A review of the physiology of renal glucose handling via SGLT1, SGLT2 and GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zI…
A review of the physiology of renal glucose handling via SGLT1, SGLT2 and GLUT2 #T2D #SGLT #GLUT https://t.co/zKGD25zIIt https://t.co/PhAnsXWT0I
RT @CristobMorales: https://t.co/M14j3mqzOl Fisiología Riñón y SGLT2, SGLT1 y GLUT2 @SENefrologia @jlgorriz @NefroHUVmaca @sinaptopodina @…
RT @CristobMorales: https://t.co/M14j3mqzOl Fisiología Riñón y SGLT2, SGLT1 y GLUT2 @SENefrologia @jlgorriz @NefroHUVmaca @sinaptopodina @…
https://t.co/RM6TMAGRil … Fisiología Riñón y SGLT2, SGLT1 y GLUT2 @SENefrologia @jlgorriz @NefroHUVmaca @sinaptopodina @sociedadSEEN @SEDiabetespic.twitter.com/OTfCNnwQTr https://t.co/02M0OGP532 https://t.co/9fYop2pRwt
RT @CristobMorales: https://t.co/M14j3mqzOl Fisiología Riñón y SGLT2, SGLT1 y GLUT2 @SENefrologia @jlgorriz @NefroHUVmaca @sinaptopodina @…
RT @CristobMorales: https://t.co/M14j3mqzOl Fisiología Riñón y SGLT2, SGLT1 y GLUT2 @SENefrologia @jlgorriz @NefroHUVmaca @sinaptopodina @…
RT @jlgorriz: Pues habrá que leerlo bien. Todavía no queda claro el papel de SGLT1 y/o el efecto dual. Gracias Cristobal!👍 https://t.co/ceU…
RT @CristobMorales: https://t.co/M14j3mqzOl Fisiología Riñón y SGLT2, SGLT1 y GLUT2 @SENefrologia @jlgorriz @NefroHUVmaca @sinaptopodina @…
Pues habrá que leerlo bien. Todavía no queda claro el papel de SGLT1 y/o el efecto dual. Gracias Cristobal!👍
RT @CristobMorales: https://t.co/M14j3mqzOl Fisiología Riñón y SGLT2, SGLT1 y GLUT2 @SENefrologia @jlgorriz @NefroHUVmaca @sinaptopodina @…
https://t.co/M14j3mqzOl Fisiología Riñón y SGLT2, SGLT1 y GLUT2 @SENefrologia @jlgorriz @NefroHUVmaca @sinaptopodina @sociedadSEEN @SEDiabetes https://t.co/OTfCNnwQTr
Excellent review article about SGLT2 receptors physiology. @DiabetologiaJnl https://t.co/YeScMaLrjX