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Table of Contents
- 1 Getting Started with the VI-Cell
- 2 System Specs
- 3 The Software
- 4 Running a Sample
- 5 Camera Image
- 6 Autosampler Queue
- 7 Sample Prep
- 8 Analyzing the Sample Run
- 9 Saving Data
- 10 General System Information
- 11 VI-Cellxr Cell Image Analysis Scheme
- 12 Creating and Modifying VI-Cell Cell Types
- 13 To Access the Cell Types
- 14 Sample Prep Options
- 15 Image Analysis Parameters
- 16 Cmcresson
- Download this manual
Vi-Cell XR Cell Viability Analyzer
User Instructions
Written by CMCresson 15-Feb-06
The Vi-Cell XR Cell Viability Analyzer is a video imaging system used to analyze yeast, insect
and mammalian cells. It automates the trypan blue exclusion protocol, in which dead cells take
up the dye while live cells do not, and provides data on percent viability and cell counts.
Essentially, the Vi-Cell system is an automated hemocytometer unlike the multisizer, which was
simply a particle counter. The Vi-Cell takes up the sample and delivers it to a flow cell and
camera for imaging where differences in the grey scale between live and dead cells is determined
by the software. For every sample you run, the instrument requires 500 µL of sample volume,
which is mixed 1:1 with trypan blue, and takes 50 images to determine the cell concentration and
viability. All of this data is output on the computer screen and can also be sent to a printer or
excel spreadsheet for further analysis.
System Specs
Cell Diameter Range = 3 to 70 µm
4
7
Cell Concentration Range = 5 x 10
to 1 x 10
cells/mL
Viability Range = 0% - 100%
Counting Accuracy = ±6%
Sample Volume = 0.5 mL to 2.0 mL
Acquisition Time = 2 minutes
Getting Started with the Vi-Cell
Everyone who will be using the Vi-Cell system must be trained by the system administrator. In
addition, everyone will be given a user account and password to log on to the instrument.
There will be a main system log in which user activity will be recorded. So, if you allow
someone else to use your account, then you will be the responsibility party in the use log if
something happens to the instrument. UROPs will not be given user accounts and will be the
responsibility of their lab advisor.
The Vi-Cell system default cell type may work for some cell lines in the lab and it is really the
best place to start. However, since trypan blue uptake, cell size, and appearance are unique to
each cell type you should run some tests to determine the best parameters with your particular
cell line. For cell lines that are used by many lab members and that need changes to the default
parameters, we will create a cell type that will be specific for those cells. The cell types will
appear in every user's menu. The software contains a tutorial for creating your cell lines so this
may be a helpful feature for more difficult cell lines. In addition, you can email cell images to
Beckman Coulter and they can assist you in determining the best parameters for your particular
cell line.
It is also important to be aware of the amount of time your samples will be sitting at room
temperature waiting on the carousel. Each sample takes 2 minutes to run and the carousel holds
12 samples. You may not want to prepare more than 12 samples to run at any give time as the
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Related Manuals for Beckman Coulter Vi-Cell XR
Summary of Contents for Beckman Coulter Vi-Cell XR
- Page 1 User Instructions Written by CMCresson 15-Feb-06 The Vi-Cell XR Cell Viability Analyzer is a video imaging system used to analyze yeast, insect and mammalian cells. It automates the trypan blue exclusion protocol, in which dead cells take up the dye while live cells do not, and provides data on percent viability and cell counts.
- Page 2 waiting could affect viability counts. However, as sensitivity to temperature and pH will vary for each cell line you may want to run controls before making a large number of samples. The Vi-Cell user manual will be located on the shelf above the instrument at all times. Please consult the manual or the software help function if you have any questions.
- Page 3 1. Sample Prep a. Prepare samples in the TC hood and bring to bench in ependorf or conical tubes. b. Make the necessary dilutions to keep your cell concentration within the correct range. 2. At the lab bench, add 600 µL of solution to sample cup. Exact volume does NOT matter as the instrument sucks up entire solution and only uses 500 µL.
- Page 4 7. Click on Camera view in the navigation bar to see images as they are collected. Cells outlined in green are counted as live and cell outlined in red are counted as dead. 8. On the right side of the screen, data is displayed for each image as it is collected and the overall average is updated as the run progresses.
- Page 5 – every time you use the cell counter. As for the instrument reagents, these will be ordered from Beckman Coulter by the lab manager and stocked near the instrument. Only the Beckman Coulter reagents are compatible with this instrument.
- Page 6 Vi-CellXR Cell Image Analysis Scheme Separate Cells Decluster Size from Background Cells Exclusion Based on brightness & sharpness Debris Determine Viability Reject Not Viable Based on spot brightness Non-Circular & spot area Objects Meets Min Dead Circularity Viable Cell Live Cell...
- Page 7 CMCresson 15-March-06 Creating and Modifying Vi-Cell Cell Types When you begin using the instrument, it is best to select the Default Cell Type to analyze your sample. Then, you can adjust these parameters to fit the specific cell line you are measuring and create a unique cell type. These cell types will show up in everyone’s user account and there should be only one cell type for each cell line that we use in the lab.
- Page 8 CMCresson 15-March-06 Parameter Range Default Details Images 1 – 100 Increase value for very low concentration samples If a particular cell is being problematic, place 10 -40 Size 3 - 70 µm cursor over cell and size is displayed below µm image Picks out objects from background...
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