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ABSTRACT: The phenotypes useful in distinguishing normal and neoplastic leukocytes are often identified by fluorescence staining reactions detected on flow cytometers. These reactions were originally observed by fluorescence microscopy, and cells were classified by human observers as simply negative or positive, with the positive cells sometimes distinguished as dim or bright. These terms are still used in analyzing flow cytometry (FCM) results. However, recent advances in our understanding of fluorescence signals from stained cells (1) now permit the translation of terms like "dim" and "bright" into real mass units of fluorescence intensity, a process that we call quantitative fluorescence cytometry (QFCM). Although the translation is not yet exact and certain technical details remain to be resolved, a general understanding of QFCM is now accessible and helpful in interpreting staining patterns.
Methods in molecular medicine 01/2001; 55:255-73.
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ABSTRACT: Fluorescence intensity (FI) is the basis for classifying phenotypes by fluorescence-label flow cytometry. FI is customarily recorded as an arbitrary relative value, but with proper calibration it can be expressed in stoichiometric units called molecules of equivalent soluble fluorochrome (MESF) that reflect the concentrations of the fluorescent conjugates and the receptors they stain. Forthcoming availability of authoritative standards and consensus methods will alleviate many of the difficulties encountered in making valid MESF measurements. FI calibration establishes the true values for the critical parameters of the fluorescence measurement, a useful feature for quality control. It further allows the establishment of a comparable window of analysis across different times and laboratories, and it permits numeric assessment of antibody-binding capacity (ABC) values in selected cell populations. The relation between ABC values and receptor expression is complicated by several factors, but careful assessment of the binding chemistry can establish the actual number of receptors on cells stained by fluorescent conjugates.
Methods 08/2000; 21(3):289-96. · 4.01 Impact Factor
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J T Bernert,
W E Turner,
J L Pirkle,
C S Sosnoff,
J R Akins,
M K Waldrep,
Q Ann,
T R Covey, W E Whitfield,
E W Gunter,
B B Miller,
D G Patterson,
L L Needham,
W H Hannon,
E J Sampson
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ABSTRACT: We describe a sensitive and specific method for measuring cotinine in serum by HPLC coupled to an atmospheric pressure chemical ionization tandem mass spectrometer. This method can analyze 100 samples/day on a routine basis, and its limit of detection of 50 ng/L makes it applicable to the analysis of samples from nonsmokers potentially exposed to environmental tobacco smoke. Analytical accuracy has been demonstrated from the analysis of NIST cotinine standards and from comparative analyses by both the current method and gas chromatography/high-resolution mass spectrometry. Precision has been examined through the repetitive analysis of a series of bench and blind QC materials. This method has been applied to the analysis of cotinine in serum samples collected as part of the Third National Health and Nutrition Examination Survey (NHANES III).
Clinical Chemistry 01/1998; 43(12):2281-91. · 7.91 Impact Factor
