Multiplexed holographic molecular binding assays with internal calibration standards

TL;DR

This paper introduces a multiplexed holographic assay with internal calibration standards to improve measurement accuracy in molecular binding studies, validated through immunoglobulin G detection.

Contribution

It develops inert reference beads and an optical method to calibrate holographic measurements, reducing systematic errors in molecular binding assays.

Findings

Validated multiplexed immunoassay for IgG detection

Demonstrated effective error mitigation using internal standards

Measured specific volume of poly(ethylene oxide) as 1.308 nm³/kDa

Abstract

Holographic molecular binding assays detect macromolecules binding to colloidal probe beads by monitoring nanometer-scale changes in the beads' diameters with holographic microscopy. Measured changes are interpreted with Maxwell Garnett effective-medium theory to infer the surface coverage of analyte molecules and therefore to measure the analyte concentration in solution. The precision and accuracy of those measurements can be degraded by run-to-run instrumental variations, which introduce systematic errors in the holographic characterization measurements. We detect and mitigate these errors by introducing a class of inert reference beads whose polymer brush coating resists macromolecular binding. The holographically measured diameter and refractive index of those beads serve as internal standards for THC measurements. To characterize the reference beads, we introduce a general all-optical method to measure the grafting density of the polymer brush that combines holographic characterization of the bead diameter with a refractometry measurement of the polymer's specific volume. The latter technique shows the specific volume of poly(ethylene oxide) to be 1.308(4) cubic nanometers per kilodalton. We use this suite of techniques to demonstrate a multiplexed immunoassay for immunoglobulin G (IgG) whose success validates the effective-medium analysis of holographic characterization measurements. Internal negative controls provided by the reference beads are validated by negative control measurements on alcohol dehydrogenase (ADH), which has a similar molecular weight to IgG but does not bind to the probe beads' binding sites.