Monitoring fibroblast behavior in tissue culture with an applied electric field
about
Real-time analysis of the effects of toxic, therapeutic and sub-therapeutic concentrations of digitoxin on lung cancer cellsTools for GPCR drug discovery.Chemotaxis of Dictyostelium discoideum: collective oscillation of cellular contactsADAM-15 inhibits wound healing in human intestinal epithelial cell monolayersPhenotypic pattern-based assay for dynamically monitoring host cellular responses to Salmonella infectionsKinetic cell-based morphological screening: prediction of mechanism of compound action and off-target effectsRegulation of CovR expression in Group B Streptococcus impacts blood-brain barrier penetration.Cell suspension concentration monitoring by using a miniaturized serial high frequency SAWR sensorImpedance analysis of GPCR-mediated changes in endothelial barrier function: overview and fundamental considerations for stable and reproducible measurementsCrosstalk of cardiomyocytes and fibroblasts in co-cultures.Using white noise to gate organic transistors for dynamic monitoring of cultured cell layers.Migratory and adhesive properties of Xenopus laevis primordial germ cells in vitro.Real-time label-free monitoring of adipose-derived stem cell differentiation with electric cell-substrate impedance sensing.Towards a Biocompatible, Biodegradable Copolymer Incorporating Electroactive Oligothiophene UnitsSingle cells and intracellular processes studied by a plasmonic-based electrochemical impedance microscopy.Real-time monitoring of cell protrusion dynamics by impedance responses.Impedance technology reveals correlations between cytotoxicity and lipophilicity of mono and bimetallic phosphine complexes.Label-free and real-time cell-based kinase assay for screening selective and potent receptor tyrosine kinase inhibitors using microelectronic sensor array.Impedimetric Analysis of the Effect of Decellularized Porcine Heart Scaffold on Human Fibrosarcoma, Endothelial, and Cardiomyocyte Cell Lines.Electrical Cell-Substrate Impedance Spectroscopy Can Monitor Age-Grouped Human Adipose Stem Cell Variability During Osteogenic Differentiation.Fabrication of two-layered channel system with embedded electrodes to measure resistance across epithelial and endothelial barriers.Monitoring electropermeabilization in the plasma membrane of adherent mammalian cells.The extracellular electrical resistivity in cell adhesion.Arresten, a collagen-derived angiogenesis inhibitor, suppresses invasion of squamous cell carcinoma.Distinguishing cancerous from noncancerous cells through analysis of electrical noise.Microfabricated electrochemical cell-based biosensors for analysis of living cells in vitro.Peripherally cross-linking the shell of core-shell polymer micelles decreases premature release of physically loaded combretastatin A4 in whole blood and increases its mean residence time and subsequent potency against primary murine breast tumors aDistinctive translational and self-rotational motion of lymphoma cells in an optically induced non-rotational alternating current electric field.Electrically conducting polymers can noninvasively control the shape and growth of mammalian cells.Contribution of lethal toxin and edema toxin to the pathogenesis of anthrax meningitis.Prostaglandin E2 elicits a morphological change in cultured orbital fibroblasts from patients with Graves ophthalmopathyCellular impedance biosensors for drug screening and toxin detection.Serine/threonine phosphatase Stp1 mediates post-transcriptional regulation of hemolysin, autolysis, and virulence of group B Streptococcus.Cell detection and counting through cell lysate impedance spectroscopy in microfluidic devices.A generic screening platform for inhibitors of virus induced cell fusion using cellular electrical impedancePolyelectrolyte Multilayer-Treated Electrodes for Real-Time Electronic Sensing of Cell ProliferationMeasurement of cellular chemotaxis with ECIS/Taxis.High throughput and automatic colony formation assay based on impedance measurement technique.Bioengineered glaucomatous 3D human trabecular meshwork as an in vitro disease model.Quantitative Study of Cell Invasion Process under Extracellular Stimulation of Cytokine in a Microfluidic Device.
P2860
Q23919744-1C93F2FF-DAFF-4CC7-9C7A-FB034565EBB8Q27007472-5A1646E4-B0E1-4B65-8F7D-D5220D24DDC8Q27320107-0BAFA35B-B6B4-4DCD-BA6C-DEBE907121A8Q28281377-4B165F88-F892-4595-BEC3-776DB506C38DQ28477778-9CAA6E1C-5357-4CFC-A377-A527CC969C76Q28748600-4485834D-19E1-416E-A839-422860FCE906Q29346580-7B42A7BE-2946-4926-AD15-12546E13B020Q30369532-7D1CDF8F-914B-448E-BD05-12EF404B94B2Q30373402-B6695A79-DEE6-4F78-AD91-74D2F5826201Q30399436-B80AB1C2-C5FF-4FA7-B92A-341F05177570Q30408178-5FEAE9C6-572F-44EA-81F4-670897328CACQ30445718-AD461633-FC45-4066-9380-46887AC6241AQ30475736-45F1ED36-7C71-4DFF-8169-83E7DC473C26Q30485752-07E8B9A3-5A84-42CC-AFA3-9645EFED8DA1Q30511879-1D67A089-1D05-4CF2-ABC7-249E6AC029D0Q30650579-F4EA953B-1207-4F75-BDEB-3891ED20EA0AQ30920586-F3437FDC-29FE-4F53-9B56-3CF2935E08F7Q33251283-42AA4363-5026-4AD9-9D33-BF5E3FC75AA5Q33703051-A604D84C-FF28-4BAB-91C7-E82DA503C8DEQ33722510-C3C3EAD9-BC07-4E12-AFBF-4983E70A5508Q33732081-D5173A90-A7F4-4B5F-92B2-62D25DA8E95CQ34092511-A040D3AC-57C5-4FAD-B18C-E7B7DBBDE1AFQ34452412-5DFB033C-CE3B-4A40-9188-209C9EA84344Q34507203-FA57F2EA-F6A3-4005-9C25-A2F142BB0429Q34584773-38B1BDDA-2068-4534-B9AC-3F7658EF742BQ34680835-7998FE78-89A0-4795-9C73-B7BFDF2DC357Q35085896-D8EC22FF-961D-4043-BF99-8021298234B9Q35107047-DFADD730-0BE3-4993-ADB7-77C2806EC7E3Q35161227-CCC48428-BFD7-4FDE-8984-C80E8BF9666CQ35328564-9BEA1FE0-CA9B-4ABA-974C-37D7A70197F0Q35371415-4609EC72-DB43-4CEF-A9FC-1AE5BDC704FBQ35487937-9BDB3BFB-0726-4476-BB7F-B099ADF031D1Q35626173-86E66283-772B-4E6B-852C-1A9D0E00817AQ35767053-49E2B73D-25FD-4648-9927-FDAAF55CC60DQ35956838-9F49233F-4233-48F8-97CF-49AB64FA0B58Q35993795-0FEDA37C-CD61-416A-ABC4-CF61CF19591EQ36286440-0F27573C-12E8-4F3E-80EF-5A96E0AFAD3CQ36299021-C0DF66A0-7875-48E6-AFA8-86C51F64C6F5Q36863008-DCB6AD46-458B-4429-942A-0EC394C6EB40Q36875903-96B08BC5-DFC7-4008-A771-314E69480B42
P2860
Monitoring fibroblast behavior in tissue culture with an applied electric field
description
1984 nî lūn-bûn
@nan
1984年の論文
@ja
1984年学术文章
@wuu
1984年学术文章
@zh-cn
1984年学术文章
@zh-hans
1984年学术文章
@zh-my
1984年学术文章
@zh-sg
1984年學術文章
@yue
1984年學術文章
@zh
1984年學術文章
@zh-hant
name
Monitoring fibroblast behavior in tissue culture with an applied electric field
@ast
Monitoring fibroblast behavior in tissue culture with an applied electric field
@en
type
label
Monitoring fibroblast behavior in tissue culture with an applied electric field
@ast
Monitoring fibroblast behavior in tissue culture with an applied electric field
@en
prefLabel
Monitoring fibroblast behavior in tissue culture with an applied electric field
@ast
Monitoring fibroblast behavior in tissue culture with an applied electric field
@en
P2860
P356
P1476
Monitoring fibroblast behavior in tissue culture with an applied electric field
@en
P2093
P2860
P304
P356
10.1073/PNAS.81.12.3761
P407
P577
1984-06-01T00:00:00Z