Correction for 'Design and validation of a flowless gradient generating microfluidic device for high-throughput drug testing' by Ketaki Bachal , 2023, , 261-271, https://doi.org/10.1039/D2LC00879C.
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Correction: Design and validation of a flowless gradient generating microfluidic device for high-throughput drug testing.
Lab Chip
September 2023
Department of Chemical Engineering, Indian Institute of Technology Bombay, Mumbai-400076, Maharashtra, India.
Correction for 'Design and validation of a flowless gradient generating microfluidic device for high-throughput drug testing' by Ketaki Bachal , 2023, , 261-271, https://doi.org/10.1039/D2LC00879C.
View Article and Find Full Text PDFDesign and validation of a flowless gradient generating microfluidic device for high-throughput drug testing.
Lab Chip
January 2023
Department of Chemical Engineering, Indian Institute of Technology Bombay, Mumbai-400076, Maharashtra, India.
Drug testing is a vital step in the identification of the potential efficacy of any new/existing drug and/or combinations of drugs. The conventional methods of testing the efficacy of new drugs using multiwell plates are time consuming and prone to evaporation loss and manual error. Microfluidic devices with automated generation of concentration gradients provide a promising alternative.
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NanoRobotics Laboratory, Department of Computer Engineering and Institute of Biomedical Engineering, Ecole Polytechnique de Montréal (EPM), Campus of the University of Montréal, Montréal, Canada.
A dedicated software architecture for a novel interventional method allowing the navigation of ferromagnetic endovascular devices using a standard real-time clinical MRI system is shown. Through a specially developed software environment integrating a tracking method and a real-time controller algorithm, a clinical 1.5T Siemens Avanto MRI system is adapted to provide new functionality for potential automated interventional applications.
View Article and Find Full Text PDFPattern formation in directional solidification under shear flow. II. Morphologies and their characterization.
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June 2001
Laboratoire Matériaux et Microélectronique de Provence, Case 151, Faculté des Sciences de St. Jérôme, 13397 Marseille Cédex 20, France.
In the preceding paper, we have established an interface equation for directional solidification under the influence of a shear flow parallel to the interface. This equation is asymptotically valid near the absolute stability limit. The flow, described by a nonlocal term, induces a lateral drift of the whole pattern due to its symmetry-breaking properties.
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