Title :
Molecular Interferometric Imaging for Biosensor Applications
Author :
Zhao, Ming ; Wang, Xuefeng ; Lawrence, Gregory M. ; Espinoza, Patricio ; Nolte, David D.
Author_Institution :
Purdue Univ., Lafayette
Abstract :
Molecular interferometric imaging (MI2) is a common-path interferometric imaging technique for detecting protein binding to surfaces. The experimental metrology limit is 10 pm/pixel longitudinal resolution at 0.4-mum diffraction-limited lateral resolution, corresponding to 1.7 attogram of protein, which is only 8 antibody molecules per pixel, near to single-molecule detection. The scaling mass sensitivity at the metrology limit is 5 fg/mm. We demonstrate a protein microarray application in a 128-multiplex immunoassay. Assay applications include prostate specific antigen (PSA) at a detection limit of 60 pg/mL and the cytokine interleukin-5 (IL-5) at a detection limit of 50 pg/mL. Realtime binding assays using MI2 enable the study of reaction kinetics of antibodies exposed to antigen, and the binding of antibody Fc regions to protein G.
Keywords :
biochemistry; biological organs; biomedical measurement; biomedical optical imaging; biosensors; image resolution; light interferometry; molecular biophysics; proteins; reaction kinetics; antibody Fc regions; antibody molecules; binding assays; biomedical optics; biosensor application; common-path interferometric imaging technique; cytokine interleukin-5; diffraction-limited lateral resolution; label-free biosensors; metrology limit; molecular interferometric imaging; prostate specific antigen; protein G; protein binding detection; protein microarray application; reaction kinetics; scaling mass sensitivity; single-molecule detection; Biomedical optical imaging; Biosensors; Current measurement; High speed optical techniques; Immune system; Metrology; Optical imaging; Optical interferometry; Optical sensors; Proteins; Biomedical optics; biosensor; immunoassay; interferometry; label-free; protein microarray;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2007.911002
