Development of a specific troponin I detection system with enhanced immune sensitivity using a single monoclonal antibody.
Anıl BozdoganReham F El-KasedVanessa JungbluthWolfgang KnollJakub DostalekAmal KasryPublished in: Royal Society open science (2020)
Using an immunoassay in combination with surface plasmon fluorescence spectroscopy (SPFS), we report the rapid detection of troponin I, a valuable biomarker for diagnosis of myocardial infarction. We discuss the implementation of (i) direct, (ii) sandwich, and (iii) competitive assay formats, based on surface plasmon resonance and SPFS. To elucidate the results, we relate the experiments to orientation-dependent interaction of troponin I epitopes with respective immunoglobulin G antibodies. A limit of detection (LoD) of 19 pM, with 45 min readout time, was achieved using single monoclonal antibody that is specific for one epitope. The borderline between normal people and patients is 20 pM to 83 pM cTnI concentration, and upon the outbreak of acute myocardial infraction it can raise to 2 nM and levels at 20 nM for 6-8 days, therefore the achieved LoD covers most of the clinically relevant range. In addition, this system allows for the detection of troponin I using a single specific monoclonal antibody, which is highly beneficial in case of detection in real samples, where the protein has a complex form leading to hidden epitopes, thus paving the way towards a system that can improve early-stage screening of heart attacks.
Keyphrases
- monoclonal antibody
- early stage
- loop mediated isothermal amplification
- label free
- particulate matter
- air pollution
- real time pcr
- heart failure
- healthcare
- left ventricular
- heavy metals
- end stage renal disease
- photodynamic therapy
- polycyclic aromatic hydrocarbons
- single molecule
- liver failure
- newly diagnosed
- sensitive detection
- mass spectrometry
- hepatitis b virus
- high throughput
- atrial fibrillation
- water soluble
- squamous cell carcinoma
- radiation therapy
- patient reported outcomes
- small molecule
- mechanical ventilation
- sentinel lymph node