Summary
Increasing use is being made of tumor cell lines cultured as cell aggregates (generally referred to as multicellular spheroids) in in vitro radiosensitivity and/or chemosensitivity tests. Conventional procedures for the determination of mean spheroid diameters for the construction of growth delay curves employ a microscope-image analyzer. However, this approach can prove excessively time consuming when large numbers of samples have to be, measured. We have, therefore, been exploring the use of a Laser Diffraction Particle Sizer, the Malvern 2600 long bench model, for the measurement of mean spheroid diameter and size distribution. We report here a direct comparison between measurements carried out by the instrument and under the microscope. Also a comparison of growth curves for six cell lines constructed from measurements by the microscope and by the instrument. A number of factors that might affect the accuracy of spheroid diameter measurement by the instrument have been investigated: The effect of stirring to maintain the spheroids in suspension during measurement. Sampling error due to removal of a series of spheroid samples from culture flasks for measurement. Optimum number of scans to be carried out by the instrument to reach a constant value for mean diameter, and minimum SE of the mean.
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This research was supported by the Yorkshire Cancer Research Campaign, Horrogate HG1 5LQ, United Kingdom, and by the Hospital Research Fund, Cookridge Hospitatl, Leeds LS16 6QB, United Kingdom.
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Boothby, C.D., Daniel, J., Adam, S. et al. Use of a laser diffraction particle sizer for the measurement of mean diameter of multicellular tumor spheroids. In Vitro Cell Dev Biol 25, 946–950 (1989). https://doi.org/10.1007/BF02624008
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DOI: https://doi.org/10.1007/BF02624008