Determination of parallelism and nonparallelism in bioassay dilution curves.

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J Clin Microbiol. 1994 October; 32(10): 2441-2447

Determination of parallelism and nonparallelism in bioassay dilution curves.

B D Plikaytis, P F Holder, L B Pais, S E Maslanka, L L Gheesling and G M Carlone

Biostatistics and Information Management Branch, Centers for Disease Control and Prevention, Atlanta, Georgia 30333.

ABSTRACT

There is a lack of consensus among investigators who use a varietyof immunoassay techniques (e.g., enzyme-linked immunosorbentassay [ELISA] and radioimmunoassay) regarding the protocolsfor describing and forming standard reference or calibrationcurves and interpolating serum antibody concentrations. Thisconfounds the issue of detecting the presence or absence ofparallelism between standard reference serum and serially dilutedserum sample curves. These curves must be parallel to supportthe assumption that the antibody-binding characteristics aresimilar enough to allow the determination of antibody levelsin the diluted serum sample. There is no universal and widelyadopted strategy for assessing parallelism in bioassays, andwithout an assurance of parallelism, investigators are not ableto calculate reliable estimates for antibody concentrationsin serum samples. Furthermore, single-point (dilution) serumassays do not provide information related to parallelism andnonparallelism, and this, too, may lead to considerable errorwhen calculating antibody concentrations. When assay methodology,technique, and precision improve to the extent that standardreference serum and serially diluted serum sample curves arefit with little error, standard analysis of variance techniquesare overly sensitive to negligible departures from parallelism.We present a series of guidelines that compose a protocol forassessing parallelism between bioassay dilution curves thatare applicable to data derived from ELISAs. These criteria shouldbe applicable, with minor modifications, to most immunoassayexperimental situations and, most importantly, are not dependenton the mathematical model used to form the standard referencecurve. These guidelines have evolved in our laboratories overthe past 4 years during the performance of thousands of ELISAsfor antibodies to the capsular polysaccharides of Neisseriameningitidis groups A and C and Haemophilus influenzae typeb.

J Clin Microbiol. 1994 October; 32(10): 2441-2447

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