Screening of renal drug-transporter interactions in a 3D Human Proximal-Tubule-on-a-Chip
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Screening of renal drug-transporter interactions in a 3D Human Proximal-Tubule-on-a-Chip
In this webinar, you will learn how we developed a fully polarized 3D in vitro renal proximal tubule model and further validated through drug-drug interaction studies focusing on two important efflux mechanisms in renal proximal tubules. Namely, the P-glycoprotein and the combined activities of Multidrug Resistance Proteins 2 and 4.
Screening of renal drug-transporter interactions in a 3D Human Proximal-Tubule-on-a-Chip
In this webinar, you will learn how we developed a fully polarized 3D in vitro renal proximal tubule model and further validated through drug-drug interaction studies focusing on two important efflux mechanisms in renal proximal tubules. Namely, the P-glycoprotein and the combined activities of Multidrug Resistance Proteins 2 and 4.
Screening of renal drug-transporter interactions in a 3D Human Proximal-Tubule-on-a-Chip
In this webinar, you will learn how we developed a fully polarized 3D in vitro renal proximal tubule model and further validated through drug-drug interaction studies focusing on two important efflux mechanisms in renal proximal tubules. Namely, the P-glycoprotein and the combined activities of Multidrug Resistance Proteins 2 and 4.
Screening of renal drug-transporter interactions in a 3D Human Proximal-Tubule-on-a-Chip
In this webinar, you will learn how we developed a fully polarized 3D in vitro renal proximal tubule model and further validated through drug-drug interaction studies focusing on two important efflux mechanisms in renal proximal tubules. Namely, the P-glycoprotein and the combined activities of Multidrug Resistance Proteins 2 and 4.
Screening of renal drug-transporter interactions in a 3D Human Proximal-Tubule-on-a-Chip
In this webinar, you will learn how we developed a fully polarized 3D in vitro renal proximal tubule model and further validated through drug-drug interaction studies focusing on two important efflux mechanisms in renal proximal tubules. Namely, the P-glycoprotein and the combined activities of Multidrug Resistance Proteins 2 and 4.
Screening of renal drug-transporter interactions in a 3D Human Proximal-Tubule-on-a-Chip
In this webinar, you will learn how we developed a fully polarized 3D in vitro renal proximal tubule model and further validated through drug-drug interaction studies focusing on two important efflux mechanisms in renal proximal tubules. Namely, the P-glycoprotein and the combined activities of Multidrug Resistance Proteins 2 and 4.
Screening of renal drug-transporter interactions in a 3D Human Proximal-Tubule-on-a-Chip
In this webinar, you will learn how we developed a fully polarized 3D in vitro renal proximal tubule model and further validated through drug-drug interaction studies focusing on two important efflux mechanisms in renal proximal tubules. Namely, the P-glycoprotein and the combined activities of Multidrug Resistance Proteins 2 and 4.
Screening of renal drug-transporter interactions in a 3D Human Proximal-Tubule-on-a-Chip
In this webinar, you will learn how we developed a fully polarized 3D in vitro renal proximal tubule model and further validated through drug-drug interaction studies focusing on two important efflux mechanisms in renal proximal tubules. Namely, the P-glycoprotein and the combined activities of Multidrug Resistance Proteins 2 and 4.