ABSTRACT
Introduction:
Identifying and measuring the concentration of Triamcinolone (TA) in biological fluids is essential, especially for patients receiving intensive antibiotic medication.
Objective:
Make a sensor for electrochemical detection of Triamcinolone (TA) as an anabolic steroid in sports using copper oxide nanomaterials-reduced graphene oxide nanoparticles (CuNPs/rGO). Method: After preparing rGO nanoparticles on a glassy carbon electrode (GCE) using the modified Hummers technique, Cu NPs were deposited on rGO/GCE. The applicability of Cu NPs/rGO/GCE was investigated to determine the TA concentration in a real sample that had been prepared.
Results:
The deposited irregular Cu NPs evidenced a diameter of about 80 nm, in agreement with SEM morphological investigations. Amperometric studies revealed that the linear range, detection limits, and sensitivity of CuNPs/rGO/GCE as a TA sensor were 10 to 80 µM, 10nM, and 0.06584 µA/µM, respectively.
Conclusion:
The results revealed that the RSD and recovery values were valid, providing adequate quality and reliability for practical analysis of real samples using Cu NPS/rGO/GCE. Level of evidence II; Therapeutic studies - investigation of treatment outcomes.
Keywords:
Triamcinolone; Doping in Sports; Biosensing Techniques