All Stories

  1. Surface Coatings Modulate the Differences in the Adhesion Forces of Eukaryotic and Prokaryotic Cells as Detected by Single Cell Force Microscopy
  2. Combined detection of AC-electrokinetic effects: Experiments with three-axial chicken red blood cells
  3. Combined AC-electrokinetic effects: Theoretical considerations on a three-axial ellipsoidal model
  4. Spermidine-Induced Attraction of Like-Charged Surfaces Is Correlated with the pH-Dependent Spermidine Charge: Force Spectroscopy Characterization
  5. The influence of insulating and conductive ellipsoidal objects on the impedance and permittivity of media
  6. MC3T3 osteoblast-like cells cultured at alkaline pH: Microarray data (Affymetrix GeneChip Mouse 2.0 ST)
  7. Increased osteoblast viability at alkaline pH in vitro provides a new perspective on bone regeneration
  8. WST-assay data reveal a pH dependence of the mitochondrial succinate reductase in osteoblast-like cells
  9. Assessing immune competence in pigs by immunization with tetanus toxoid
  10. Automated and manual patch clamp data of human induced pluripotent stem cell-derived dopaminergic neurons
  11. Impedance detection of the electrical resistivity of the wound tissue around deep brain stimulation electrodes permits registration of the encapsulation process in a rat model
  12. Electric and Magnetic Fields in Cells and Tissues
  13. Deep Brain Stimulation of Hemiparkinsonian Rats with Unipolar and Bipolar Electrodes for up to 6 Weeks: Behavioral Testing of Freely Moving Animals
  14. Cell Monitoring and Manipulation Systems (CMMSs) based on Glass Cell-Culture Chips (GC3s)
  15. Neuronal in vitro activity is more sensitive to valproate than intracellular ATP: Considerations on conversion problems of IC50 in vitro data for animal replacement
  16. Optical high-resolution analysis of rotational movement: testing circular spatial filter velocimetry (CSFV) with rotating biological cells
  17. Enhancing the regeneration of bone defects by alkalizing the peri-implant zone – an in vitro approach
  18. The riddle of Spinosaurus aegyptiacus’ dorsal sail
  19. The effect of hyperbaric air on the electric activity of neuronal in vitro networks
  20. Design and Characterization of a Sensorized Microfluidic Cell-Culture System with Electro-Thermal Micro-Pumps and Sensors for Cell Adhesion, Oxygen, and pH on a Glass Chip
  21. Maxwell’s Mixing Equation Revisited: Characteristic Impedance Equations for Ellipsoidal Cells
  22. Fast Prototyping of Sensorized Cell Culture Chips and Microfluidic Systems with Ultrashort Laser Pulses
  23. A short tutorial contribution to impedance and AC-electrokinetic characterization and manipulation of cells and media: Are electric methods more versatile than acoustic and laser methods?
  24. Experimental verification of an equivalent circuit for the characterization of electrothermal micropumps: High pumping velocities induced by the external inductance at driving voltages below 5 V
  25. Electrical Impedance Properties of Deep Brain Stimulation Electrodes during Long-Term In-Vivo Stimulation in the Parkinson Model of the Rat
  26. Low fibronectin concentration overcompensates for reduced initial fibroblasts adhesion to a nanoscale topography: Single-cell force spectroscopy
  27. Poregenic - Patch on Chip System for Adherent Cellular Networks
  28. A decrease of intracellular ATP is compensated by increased respiration and acidification at sub-lethal parathion concentrations in murine embryonic neuronal cells: Measurements in metabolic cell-culture chips
  29. Attachment of Rod-Like (BAR) Proteins and Membrane Shape
  30. A short review on AC electro-thermal micropumps based on smeared structural polarizations in the presence of a temperature gradient
  31. Optimizing a Rodent Model of Parkinson's Disease for Exploring the Effects and Mechanisms of Deep Brain Stimulation
  32. AC-Electrokinetic Applications in Cell Chips: Basic Understanding and Modeling of Structural Polarization Effects
  33. The influence of topographic microstructures on the initial adhesion of L929 fibroblasts studied by single-cell force spectroscopy
  34. Recording electric potentials from single adherent cells with 3D microelectrode arrays after local electroporation
  35. Modular glass chip system measuring the electric activity and adhesion of neuronal cells—application and drug testing with sodium valproic acid
  36. Electrochemical product detection of an asymmetric convective polymerase chain reaction
  37. Template-Free Galvanic Nanostructuring of Gold Electrodes for Sensitive Electrochemical Biosensors
  38. ac-field-induced fluid pumping in microsystems with asymmetric temperature gradients
  39. Differential astroglial activation in 6-hydroxydopamine models of Parkinson’s disease
  40. Effects of cell orientation and electric field frequency on the transmembrane potential induced in ellipsoidal cells
  41. A new glass chip system acquiring electric activity and physiological parameters of differentiated stem cells
  42. Local micro-invasive needle electroporation (lomine) of single cells attached on silicon chips
  43. Dielectrophoretic neuron trapping on semiconductor chips for the extracellular detection of the neuronal network activity
  44. A new working principle for ac electro-hydrodynamic on-chip micro-pumps
  45. A Compact and Versatile Instrument for Radio Frequency Heating in Nonisothermal Electrochemical Studies
  46. Simplified equations for the transmembrane potential induced in ellipsoidal cells of rotational symmetry
  47. A new exposure system for the in vitro detection of GHz field effects on neuronal networks
  48. Actin is not required for nanotubular protrusions of primary astrocytes grown on metal nano-lawn
  49. On the temperature dependence of the dielectric membrane properties of human red blood cells
  50. On the field distribution in electrorotation chambers—Influence of electrode shape
  51. Effect Of Temperature On The Electrorotation Behavior Of Human Red Blood Cells
  52. Matching geometry and stimulation parameters of electrodes for deep brain stimulation experiments—Numerical considerations
  53. Chapter 8 Basic Cell–Cell and Cell–Surface Interactions in Liposome and Cellular Systems
  54. The influence of the molecular structure of lipid membranes on the electric field distribution and energy absorption
  55. Dielectric anisotropy, volume potential anomalies and the persistent Maxwellian equivalent body
  56. Excluded volume driven counterion condensation inside nanotubes in a concave electrical double layer model
  57. Electro-Quasistatic Simulations in Bio-Systems Engineering and Medical Engineering
  58. Choosing electrodes for deep brain stimulation experiments–electrochemical considerations
  59. Electric and Magnetic Fields in Cells and Tissues
  60. Wechselfeldinduzierte Zell- und Teilchenbewegungen in Mikrokammern: Prinzipien, Anwendungen und Theorie
  61. TRENNBARKEIT VON QUELLEN IN BIOMAGNETISCHEN MESSUNGEN DURCH DIE INDEPENDENT COMPONENT ANALYSIS (ICA)
  62. Estimating the subcellular absorption of electric field energy: equations for an ellipsoidal single shell model
  63. Cellular absorption of electric field energy: influence of molecular properties of the cytoplasm
  64. Analytical Description of the Transmembrane Voltage Induced on Arbitrarily Oriented Ellipsoidal and Cylindrical Cells
  65. On the analytical description of transmembrane voltage induced on spheroidal cells with zero membrane conductance
  66. A comprehensive approach to electro-orientation, electrodeformation, dielectrophoresis, and electrorotation of ellipsoidal particles and biological cells
  67. A Polarization Model Overcoming the Geometric Restrictions of the Laplace Solution for Spheroidal Cells: Obtaining New Equations for Field-Induced Forces and Transmembrane Potential
  68. Particle characterization by AC electrokinetic phenomena
  69. Particle characterization by AC-electrokinetic phenomena: 1. A short introduction to dielectrophoresis (DP) and electrorotation (ER)
  70. New Light-Scattering and Field-Trapping Methods Access the Internal Electric Structure of Submicron Particles, like Influenza Virusesa
  71. A Unified Resistor-Capacitor Model for Impedance, Dielectrophoresis, Electrorotation, and Induced Transmembrane Potential
  72. A Possible Molecular Mechanism Governing Human Erythrocyte Shape
  73. Particle characterization by AC-electrokinetic phenomena 3. New developments in electrorotational light scattering (ERLS)
  74. Introducing phase analysis light scattering for dielectric characterization: measurement of traveling-wave pumping
  75. A resonant, dielectric micro-motor driven by low ac-voltages (<6V)
  76. Measurement of inherent particle properties by dynamic light scattering: introducing electrorotational light scattering
  77. Determination of viral neuraminidase specificity for membrane-bound sialic acids by cell electrophoresis
  78. Dielectric spectroscopy of single human erythrocytes at physiological ionic strength: dispersion of the cytoplasm
  79. Two evolutionary strategies of influenza viruses to escape host non-specific inhibitors: alteration of hemagglutinin or neuraminidase specificity
  80. Dynamic Light Scattering from Oriented, Rotating Particles: A Theoretical Study and Comparison to Electrorotation Data
  81. Dynamic Light Scattering Applied to Electrorotation: Measurement of Internal Particle Properties and Layer Capacitance
  82. Characterization of Internal Particle Structures by Dynamic Light Scattering
  83. Red cell echinocytogenesis is correlated to the recruitment of external band-3 conformations
  84. Electrorotation of particles measured by dynamic light scattering — a new dielectric spectroscopy technique
  85. Do band 3 protein conformational changes mediate shape changes of human erythrocytes?
  86. Dielectric spectroscopy of human erythrocytes: investigations under the influence of nystatin
  87. Electroporation in rotating electric fields
  88. Analysis of the torque-frequency characteristics of dielectric induction motors
  89. Ion channel enzyme in an oscillating electric field
  90. Traveling-wave dielectrophoresis of microparticles
  91. Dielectrophoresis and electrorotation of neurospora slime and murine myeloma cells
  92. Rotational Behaviour of Living Cells with Reference to Micro-Motors
  93. Ac-field-induced KCl leakage from human red cells at low ionic strengths
  94. Ac-field-induced KCl leakage from human red cells at low ionic strengths
  95. Evaluation of the data of simple cells by electrorotation using square-topped fields
  96. Evaluation of the data of simple cells by electrorotation using square-topped fields
  97. Membrane Potentials Induced by External Rotating Electrical Fields
  98. Handling and investigation of adherently growing cells and viruses of medical relevance in three-dimensional micro-structures