Capillary blood microsampling to determine serum biopharmaceutical concentration: Mitra® microsampler vs dried blood spot.

AIM: For assessment of concentrations of biopharmaceuticals, for example, therapeutic drug monitoring, dried blood sampling of capillary blood is a convenient alternative to traditional venepuncture sampling. We investigated an alternative to dried blood spot collection on filter paper: sampling capillary blood using the Mitra® microsampler. MATERIALS AND METHODS:  Therapeutic monoclonal antibodies were spiked in whole blood, sampled using filter paper and Mitra microsampler and concentrations measured using specific ELISAs. RESULTS: Good recoveries of adalimumab, infliximab, ustekinumab, vedolizumab, tocilizumab, natalizumab and rituximab were found up to 1 month of storage at room temperature, averaging 95.2% for the Mitra microsampler and 92.9% for Whatman® paper. Both hemoglobin and potassium yield satisfactory estimates for the volume of the cellular fraction of blood samples in combination with the Mitra microsampler. CONCLUSION: We established practical protocols for the estimation of serum/plasma concentrations of therapeutic antibodies via capillary blood microsampling.

Generation and characterization of a unique panel of anti-adalimumab specific antibodies and their application in therapeutic drug monitoring assays.

A number of assays are currently available to support therapeutic drug monitoring of adalimumab. A complete characterization of the assays and comparison of different assays has not been performed. The aim of this study, therefore, is to generate and characterize of a panel of monoclonal antibodies towards adalimumab (MA-ADM); to use this panel to develop novel assays to determine adalimumab concentrations; to assess the impact of tumor necrosis factor (TNF) and (non-)neutralizing antibodies on adalimumab detection and to compare the performance of assays. In total, ten specific MA-ADM were generated of which four revealed a neutralizing potency of >78%. At least six different clusters were identified using principal component analysis. MA-ADM40D8 was selected as detecting antibody to determine adalimumab in the TNF-coated ELISA (A) and the MA-ADM28B8/MA-ADM40D8 antibody pair was chosen for use in the MA-coated ELISA (B). The impact of TNF and (non-) neutralizing antibodies was similar in both ELISAs. Finally, serum samples of adalimumab-treated Crohn's disease patients were collected and used for an external validation using the assay of Sanquin (C) and the apDia kit (D). All adalimumab assays showed excellent Pearson correlation: r=0.96 for A versus B, 0.96 for A versus C, 0.94 for A versus D, 0.97 for B versus C, 0.95 for B versus D and 0.94 for C and D. The excellent agreement with the two commercially available ELISAs allows harmonization of treatment algorithms in and between different hospitals/infusion centers.