Analyze Cells
with Park Scanning Probe Microscopy
How do cells change their shape? What roles do individual cell structures have? How do they interact with one another and react against external stimulation? The answers to these questions will explain to us the remaining secrets about cell activities, functions, properties, and mechanics. To address such big challenging questions, cell processes must be studied in physiological conditions with high resolution to observe its nature directly. Park Systems introduces the direct and practical solution for revealing the cell's remaining secrets by using Park Scanning Probe Microscopy techniques.
1
Scanning Ion Conductance Microscopy (SICM)
- Exclusive Cell Imaging of Park SICM: Rat Neuron
- Cell Morphology Analysis: Fibroblast
- Cell Membrane Surface Analysis #1: Fat cell
- Cell Membrane Surface Analysis #2: MpkCCdc14 cell
- Automatic Time-lapse Cell Membrane Imaging: C2C12, Hela cell
- Monitoring Cytotoxicity: Epithelial cell
- Cell to Cell Interaction Monitoring: Brain Tumor Cell
- Quantitative Analysis of Living Plasma Membrane: Brain Tumor Cell
- Targeted Ion Channel Detection: Cardiomyocyte
- Tissue Observation in Liquid #1: Rat Trachea
- Tissue Observation in Liquid #2: Human Colon (Large Intestine)
- Irreversible electroporation study : AGS cell
- Cell Study with the Integrated Fluorescence microscopy and SICM: H460 cell
2
Atomic Force Microscopy (AFM)
- Sub-cellular Molecule Imaging: Clathrin, Intracellular-cytoskeleton
- Stiffness Measurement of Muscle Fiber: Muscle cell
- Cell to Cell Interactive Adhesion Force: C6 cell
- Cadherin Bonds Adhesion Force: Myofibroblast
- Young’s Modulus Measurement (Nucleous vs. Cell body): C2C12 cell
- Quantitative Mechanical Property Imaging by PinPoint mode™: MRC5, Human Lung Fibroblast