Results 141 to 150 of about 29,023 (291)
Impact of Mobile Phase Composition on Separation Selectivity of Labeled Dextran Ladder in Hydrophilic Interaction Liquid Chromatography. [PDF]
Grčman M, Pompe NR, Kočar D, Pompe M.
europepmc +1 more source
Novel OoC platform with functional vascular networks highlights challenges in oxygenation. This study uses optical oxygen sensors to monitor oxygen during vascular formation, revealing perfusion limitations and highlighting the need for better oxygenation strategies.
Tarek Gensheimer+5 more
wiley +1 more source
Transport Properties of Self-Assembling G-Hydrogels: Evidence for a Tunable Fickian Diffusivity. [PDF]
Pepe A+4 more
europepmc +1 more source
Untersuchungen über das Schicksal von Dextran im Organismus von Meerschweinchen [PDF]
Katrin Ebert+2 more
openalex +1 more source
Renal tubular injury is a major contributor to kidney disease, yet remains poorly understood due to the lack of predictive models. This study presents a high‐throughput 3D renal proximal tubule model on the AngioPlate platform integrated with automated TEER measurements (AngioTEER), enabling real‐time monitoring of drug‐induced nephrotoxicity ...
Shravanthi Rajasekar+13 more
wiley +1 more source
Selective Interaction of Dextran Sulfate with Inorganic Cations [PDF]
Hideo Kimizuka+2 more
openalex +1 more source
3D‐Printed Unibody Microfluidic Devices for Organ‐on‐Chip Applications
A practical approach is demonstrated to 3D printing unibody microfluidic Organ‐on‐Chip (OoC) devices using commercial resins and desktop DLP printers. The demonstrated functional devices support 2D monolayers, 3D spheroids, and barrier tissues. With optimised design and post‐processing techniques, leak‐free, biocompatible microchannels and membranes ...
Louis Jun Ye Ong+8 more
wiley +1 more source
Programmable Cargo Release from Jet-Printed Microgel Particles via an In Situ Ionic Exchange Method. [PDF]
Ma R, Sun J, Park S, Nikolla F, Liu AT.
europepmc +1 more source
Magnetic Field Driven Microrobot Based on Hydrogels
Hydrogel‐based magnetic microrobots synergize remote magnetic control with the biocompatibility of flexible hydrogels, emerging as promising tools for minimally invasive biomedicine. This enables remotely controllable, untethered navigation within complex biological microenvironments.
Juncai Song, Yubing Guo
wiley +1 more source