Fig 1: Representative Langmuir–Freundlich fits from online multiplexed assays for (A) CRP and (B) cTnI both spiked in 1% human serum in 0.1 M MES buffer. Insets represents linear semi-log correlation with correlation coefficients (R2) of 0.978 for CRP and 0.993 for cTnI. Error bars represent standard deviations between three independent measurements on three different electrodes.
Fig 2: Langmuir–Freundlich fits from offline multiplexed protein assays as detected from mixed samples of both proteins at a CRP-responsive sensor (A) and a cTnI-responsive sensor in dilute serum (B). Respective LODs are 1.0 pg/mL for CRP and 0.6 pg/mL for cTnI. Insets depict associated linear semi-log correlation plots with correlation coefficients (R2) of 0.95 and 0.94 for CRP and cTn1, respectively. Error bars represent standard deviations between three independent measurements on three different electrodes.
Fig 3: Langmuir–Freundlich fits of (A) CRP spiked in 1% human serum in MES buffer and (C) cTnI spiked in 1% human serum in MES buffer. Representative DPV peaks as function of (B) increasing CRP connection on anti-CRP-decorated GCE sensors and (D) cTnI at anti-cTnI sensors. Bottom DPV voltammograms in (B) and (D) are the background signals from incubation with unspiked 1% HS. Error bars represent standard deviations between three independent measurements at three different electrodes. Insets in (A) and (C) are associated linear semi-log correlation trends with correlation coefficients (R2) of 0.99 and 0.97, respectively.
Fig 4: Schematic illustration of MICT detection of cTnI, CKMB and Myo.
Fig 5: Regression and correlation statistics result between MICT and ECLIA for cTnI (A), CKMB (B) and Myo (C), respectively.
Supplier Page from Abcam for Recombinant Human Cardiac Troponin I protein