Key elements of bioanalytical method validation for macromolecules

The Third American Association of Pharmaceutical Scientists/US Food and Drug Administration (FDA) Bioanalytical Workshop, which was held May 1 and 2, 2006, in Arlington, VA, addressed bioanalytical assays that are being used for the quantification of therapeutic candidates in support of pharmacokinetic evaluations. One of the main goals of this workshop was to discuss best practices used in bioanalysis regardless of the size of the therapeutic candidates. Since the last bioanalytical workshop, technological advancements in the field and in the statistical understanding of the validation issues have generated a variety of interpretations to clarify and understand the practicality of using the current FDA guidance for assaying macromolecular therapeutics. This article addresses some of the key elements that are essential to the validation of macromolecular therapeutics using ligand binding assays. Because of the nature of ligand binding assays, attempts have been made within the scientific community to use statistical approaches to interpret the acceptance criteria that are aligned with the prestudy validation and in-study validation (sample analysis) processes. We discuss, among other topics, using the total error criterion or confidence interval approaches for acceptance of assays and using anchor calibrators to fit the nonlinear regression models.

[1]  B. Plikaytis,et al.  Determination of parallelism and nonparallelism in bioassay dilution curves , 1994, Journal of clinical microbiology.

[2]  D Rodbard,et al.  Kinetics of two-site immunoradiometric ('sandwich') assays-II. Studies on the nature of the 'high-dose hook effect'. , 1978, Immunochemistry.

[3]  Philippe Hubert,et al.  The SFSTP guide on the validation of chromatographic methods for drug bioanalysis: from the Washington Conference to the laboratory , 1999 .

[4]  D. Rodbard,et al.  [1] Statistical analysis of radioligand assay data , 1975 .

[5]  Vinod P. Shah,et al.  Bioanalytical Method Validation—A Revisit with a Decade of Progress , 2000, Pharmaceutical Research.

[6]  U Timm,et al.  A new approach for dealing with the stability of drugs in biological fluids. , 1985, Journal of pharmaceutical sciences.

[7]  J. W. Findlay,et al.  Validation of immunoassays for bioanalysis: a pharmaceutical industry perspective. , 2000, Journal of pharmaceutical and biomedical analysis.

[8]  D Rodbard,et al.  Statistical analysis of radioligand assay data. , 1975, Methods in enzymology.

[9]  Y. Heyden,et al.  Reappraisal of hypothesis testing for method validation : detection of systematic error by comparing the means of two methods or of two laboratories , 1995 .

[10]  T. Chard,et al.  introduction to radioimmunoassay and related techniques , 1982 .

[11]  D. Altman,et al.  Measuring agreement in method comparison studies , 1999, Statistical methods in medical research.

[12]  D. J. Finney,et al.  Guidelines for immunoassay data processing. , 1985, Clinical chemistry.

[13]  Krys J. Miller,et al.  Workshop on Bioanalytical Methods Validation for Macromolecules: Summary Report , 2001, Pharmaceutical Research.

[14]  H. T. Karnes,et al.  Calibration and validation of linearity in chromatographic biopharmaceutical analysis. , 1991, Journal of pharmaceutical and biomedical analysis.

[15]  D L Massart,et al.  Validation of bioanalytical chromatographic methods. , 1998, Journal of pharmaceutical and biomedical analysis.

[16]  Binodh DeSilva,et al.  Recommendations for the Bioanalytical Method Validation of Ligand-Binding Assays to Support Pharmacokinetic Assessments of Macromolecules , 2003, Pharmaceutical Research.