. 2018 Nov 21;8(4):114. doi: 10.3390/bios8040114

Table 2.

Comparison of ultra-sensitive cTnI sensors and assays.

Detection Method	Immobilisation Approach	Response Time (min)	LOD (ng/L)	Labels
Chemiresistance [121]	Ab/EDC/NHS/SU-8/MWCNT	1	0.02	None
Cyclic Voltammetry [111]	Ab/PAMAM/GQD/ATP/Au/SPE	10	0.025	None
Optical Microfiber Coupler [71]	Ab/EDC/NHS/PAA/PDDA/OMC	10	0.002	None
EIS & Mott-Schottky [125]	Ab/AUPA/ZnO/Au & Ab/DSP/ZnO/Au	15	0.1	None
Fluorescence [123]	Ab/Paramagnetic Beads	45	0.01	Biotinylated detection Ab/SβG
ECL [87]	Ru/EDC/NHS/PAMAM/AuNPs/Nafion/GCE	115	0.012	Detection Ab/PtCu₃ NC/FA/GOD
ECL [122]	Ab/Au@TiO₂/GCE	120	0.00046	Detection Ab/EDC/NHS/CdTe@IRMOF-3@CdTe
DPV—Anodic Stripping Voltammetry [126]	Ab/ABA/MWCNTs/GCE	240	0.0011	CdS/Detection Ab/ALP/AuNF
ECL [127]	Ab/TEOA@AuNP/GCE	-	0.0055	RuSiO₂
Total Internal Reflection [128]	Ab/Protein A/G/DSP/Au/Cr	-	0.0000144	Detection Ab/AgNP

DPV—Differential pulse voltammetry; ATP—4 aminothiophenol; SPE—Screen-printed Electrode; PAA—poly-(acrylic acid); PDDA—Poly-(diallyldimethylammonium chloride); OMC—Optical Microfiber Couple; AUPA—aminoundecyl phosphonic acid; ZnO—Zinc Oxide; DSP—dithiobis(succinimidyl propionate); GCE—Glassy Carbon Electrode; Au@TiO2—Gold nanoparticle modified titanium oxide; ABA—3-aminophenylboronic acid; TEOA@AuNP—triethanolamine-modified gold nanoparticles; Au/Cr—Gold-chromium; SβG—streptavidin-β-galactosidase; PtCu3 NC—PtCu3 alloy nanocrystals; FA—Folic Acid; GOD—Glucose oxidase; CdTe@IRMOF-3@CdTe—Isorectangular metal organic framework accelerator enriched cadmium telluride quantum dots; CdS—Cadmium sulphide quantum dots; —Alkaline phosphatase.