The challenge to measure cell proliferation in two and three dimensions.
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The Comparison of MTT and CVS Assays for the Assessment of Anticancer Agent InteractionsEnhancement of cell ingrowth, proliferation, and early differentiation in a three-dimensional silicon carbide scaffold using low-intensity pulsed ultrasoundA spheroid toxicity assay using magnetic 3D bioprinting and real-time mobile device-based imaging.Characterization and analysis of human chordoma cell lines.Thermo-responsive non-woven scaffolds for "smart" 3D cell culture.A high-throughput three-dimensional cell migration assay for toxicity screening with mobile device-based macroscopic image analysis.Induction of Smad1 by MT1-MMP contributes to tumor growth.Fabrication of cell microintegrated blood vessel constructs through electrohydrodynamic atomizationRapid and automated multidimensional fluorescence microscopy profiling of 3D human breast culturesIncorporation of vitamin E in poly(3hydroxybutyrate)/Bioglass composite films: effect on surface properties and cell attachmentA high-throughput in vitro ring assay for vasoactivity using magnetic 3D bioprintingDiscrepancies between metabolic activity and DNA content as tool to assess cell proliferation in cancer research.Cryopreservable and tumorigenic three-dimensional tumor culture in porous poly(lactic-co-glycolic acid) microsphere.Comparison of Three Different Methods for Determining Cell Proliferation in Breast Cancer Cell Lines.Real-time monitoring of cisplatin cytotoxicity on three-dimensional spheroid tumor cells.Essential design considerations for the resazurin reduction assay to noninvasively quantify cell expansion within perfused extracellular matrix scaffolds.Effect of cell density on mesenchymal stem cells aggregation in RGD-alginate 3D matrices under osteoinductive conditions.Capillary force seeding of sphere-templated hydrogels for tissue-engineered prostate cancer xenografts.Cytotoxic and genotoxic characterization of titanium dioxide, gadolinium oxide, and poly(lactic-co-glycolic acid) nanoparticles in human fibroblasts.Potential of 2D crosslinked sericin membranes with improved biostability for skin tissue engineering.Evaluation of the cytotoxic and inflammatory potential of differentially shaped zinc oxide nanoparticles.Engineered 3D environments to elucidate the effect of environmental parameters on drug response in cancer.Interactions between Schwann and olfactory ensheathing cells with a starch/polycaprolactone scaffold aimed at spinal cord injury repair.The proliferation and differentiation of osteoblasts in co-culture with human umbilical vein endothelial cells: An improved analysis using fluorescence-activated cell sorting.Critical experimental parameters related to the cytotoxicity of zinc oxide nanoparticles.Quantitative Validation of the Presto Blue Metabolic Assay for Online Monitoring of Cell Proliferation in a 3D Perfusion Bioreactor System.Extraction and characterization of biocompatible hydroxyapatite from fresh water fish scales for tissue engineering scaffold.Role of geometrical cues in bone marrow-derived mesenchymal stem cell survival, growth and osteogenic differentiation.Three-dimensional cell culture: A powerful tool in tumor research and drug discovery.Emerging Nanomedicine Therapies to Counter the Rise of Methicillin-Resistant Staphylococcus aureus.Sequential culture on biomimetic nanoclay scaffolds forms three-dimensional tumoroids.Three-dimensional constructs using hyaluronan cell carrier as a tool for the study of cancer stem cells.An approach to architecture 3D scaffold with interconnective microchannel networks inducing angiogenesis for tissue engineeringSurface characterization and osteoblast-like Cells culture on collagen modified PLDLA scaffolds
P2860
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P2860
The challenge to measure cell proliferation in two and three dimensions.
description
2005 nî lūn-bûn
@nan
2005 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2005年の論文
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2005年学术文章
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2005年学术文章
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2005年学术文章
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2005年学术文章
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2005年学术文章
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2005年學術文章
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name
The challenge to measure cell proliferation in two and three dimensions.
@ast
The challenge to measure cell proliferation in two and three dimensions.
@en
type
label
The challenge to measure cell proliferation in two and three dimensions.
@ast
The challenge to measure cell proliferation in two and three dimensions.
@en
prefLabel
The challenge to measure cell proliferation in two and three dimensions.
@ast
The challenge to measure cell proliferation in two and three dimensions.
@en
P50
P356
P1433
P1476
The challenge to measure cell proliferation in two and three dimensions
@en
P2093
David T W Leong
P304
P356
10.1089/TEN.2005.11.182
P577
2005-01-01T00:00:00Z