Experimental Models

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View Edit Model Name Center Base Model Organ Device Type Versions Description
View 2D Cell Culture - Kidney Texas A&M Tissue Chip Validation Center Kidney 96 well Plate Static-2D 1
View 48 well plate Hukriede Lab Kidney Organoid University of Pittsburgh Hukriede Lab Kidney 48 Well Plate Static-3D 0
View Davidson Organoid University of Pittsburgh Hukriede Lab Kidney 6 Well Plate [Generic] Static-3D 2
View Glomerulus (Mimetas 3-lane) Texas A&M Tissue Chip Validation Center Kidney Mimetas 3-Lane Organoplate Fluidic-3D 2 This model is based on the Mimetas 3-lane organoplate. It contains podocytes and glomerular endothelial cells layered in the "glomerular" channel, as well as an empty, "vascular" channel on the other side of the gel. The gel lane is filled with collagen ECM.
View Hukriede Lab Kidney Organoid University of Pittsburgh Hukriede Lab Kidney 6 Well Plate [Generic] Static-3D 1
View Hukriede Lab Vascularized Kidney Organoid University of Pittsburgh Hukriede Lab Kidney 6 Well Plate [Generic] Static-3D 0
View Infant Kidney University of Pittsburgh Drug Discovery Institute Kidney In vivo In Vivo 3
View Kidney Proximal Tubule 2.0 [dual-channel chip] University of Washington Kidney Research Institute Kidney Nortis Dual-channel Chip Fluidic-3D 1
View Kidney Proximal Tubule [24-well static] University of Washington (Himmelfarb) Kidney 24 Well Plate Static-2D 0
View Kidney Proximal Tubule [384-well Static] Texas A&M Tissue Chip Validation Center Kidney PT (UW) Kidney 384 Well Plate Optilux Black/Clear Flat Bottom Static-2D 1 A 2D version of Himmelfarb's KPT model. Seeded with 1,000 cells per well in a black/clear-bottom 384-well plate.
View Kidney Proximal Tubule [96-well Static] Translational Center of Tissue Chip Technologies Kidney PT (UW) Kidney 96 Well Plate Clear Flat Bottom Static-2D 0 A "2D," 96-well plate based model of Himmelfarb et al.'s Kidney Proximal Tubule organ model. This model simply seeds the RPTEC directly into the wells of the plate. There is no flow.
View Kidney Proximal Tubule [Fluidic] University of Washington Kidney Research Institute Kidney PT (UW) Kidney Nortis Single Chamber Fluidic-3D 1 The kidney tubule MPS exhibits long-term viability, retains polarized expression and function of proteins essential for reabsorptive and secretory transport, responds to physiological stimuli, and performs critical biochemical synthetic activities. PTECs grown in the MPS polarize with proteins selectively localized to the basolateral and apical aspects of the tubular epithelium and exhibit expected morphological and functional phenotypes of proximal tubule epithelium in vivo out to 28+ days.
View Kidney Proximal Tubule [MIT, Triple Channel] Translational Center of Tissue Chip Technologies Kidney PT (UW) Kidney Nortis Triple Chamber Fluidic-3D 0 MIT's modification of the Kidney Proximal Tubule model to work in the triple channel Nortis Har-v1 (TSC-xxx) device instead of the original Nortis Par (SCC-xxx) device.
View Kidney Proximal Tubule [No Cells] Texas A&M Tissue Chip Validation Center Kidney PT (UW) Kidney Nortis Single Chamber Fluidic-3D 0 A cell-free version of Himmelfarb's KPT MPS model. It was created by Texas A&M to test compound binding to the device.
View Kidney Proximal Tubule [transwell static] Javelin Biotech Kidney Costar 24-well Transwell Static-2D 0
View Kidney Proximal Tubule [Weber et al. 2016] University of Washington Kidney Research Institute Kidney PT (UW) Kidney Nortis Par-V1 Fluidic-3D 0 An initial version of the KPT MPS model, based on Nortis' prototype Par-V1 device. This model was used in the Weber et al. 2016 The kidney tubule MPS exhibits long-term viability, retains polarized expression and function of proteins essential for reabsorptive and secretory transport, responds to physiological stimuli, and performs critical biochemical synthetic activities. PTECs grown in the MPS polarize with proteins selectively localized to the basolateral and apical aspects of the tubular epithelium and exhibit expected morphological and functional phenotypes of proximal tubule epithelium in vivo out to 28+ days.
View MANZ2-2 Davidson Organoid University of Pittsburgh Hukriede Lab Kidney 6 Well Plate [Generic] Static-3D 0
View MANZ-4-37 Davidson Organoid University of Pittsburgh Hukriede Lab Kidney 6 Well Plate [Generic] Static-3D 0
View Proximal Tubule (CNBio - T12) Texas A&M Tissue Chip Validation Center Kidney CNBio - T12 plate Fluidic-3D 1 This model uses the CNBio T12 plate with Transwells (0.4uM). Proximal tubule cells are seeded either in monoculture, or co-culture with endothelial cells, and exposed to flow within the system.
View Proximal Tubule (Transwell) Texas A&M Tissue Chip Validation Center Kidney 24 Well Transwell Static-3D 0 Proximal tubule cells are seeded in either a monoculture, or in a co-culture with endothelial cells on the membrane of the transwell.
View Proximal Tubule/Vascular (Mimetas 3-lane) Texas A&M Tissue Chip Validation Center Kidney Mimetas 3-Lane Organoplate Fluidic-3D 1 This chip is based on the Mimetas 3-Lane Organoplate. RPTECs are seeded in the "tubular" channel, and HUVECs in the "vascular" channel. 4mg/mL Collagen I gel separates the 2 fluidic layers.
View Rat perfused kidney University of Pittsburgh Drug Discovery Institute Kidney In vivo In Vivo 0
View RED - Kidney Proximal Tubule Texas A&M Tissue Chip Validation Center Kidney PT (UW) Kidney Single-Use RED Plate for 48 Samples Static-2D 0 This model represents the RED assay conditions and protocol used when testing serum compound binding for the media used in the Kidney Proximal Tubule model.Serum protein concentration is low, at 0.5%.
View Takayama Kidney-on-a-Chip Takayama Lab Kidney Takayama Lab Kidney Device Fluidic-3D 1 Two channel kidney epithelial model with a porous polyester membrane