Electrochemical sensors for anticancer drugs used in the targeted therapy of chronic myeloid leukaemia.

Abstract

Background and purpose: Treatment of chronic myeloid leukaemia includes targeted therapy with tyrosine kinase inhibitors (TKIs): imatinib, dasatinib, nilotinib, bosutinib, ponatinib, and asciminib. This review aims to prove that electrochemical sensors provide a reliable alternative to the conventional analytical methods for highly sensitive and cost-effective assay of TKIs in pharmaceutical formulations and biofluids. These platforms have significant advantages in fast detection and portability because they could be designed as miniaturized hand-held devices suitable for real-time point-of-care analysis, providing quick results for enabling personalized therapeutic drug monitoring.

Experimental approach: The paper covers recent developments in substrate materials, various electrode designs, the advantages, and limitations of sensors for TKIs, encompassing both basic and applied research.

Key results: This is a pioneering study that provides a general review on emerging trends, technologies, and practical applications of electrochemical sensors for TKIs analysis. The article provides researchers with a clear introduction and concise guide to the design and application of electrochemical sensors in the clinical analysis of TKIs.

Conclusion: The review is intended to serve as a valuable resource for researchers in navigating the latest developments in TKIs' electrochemical sensing platforms. The fast response, high sensitivities and satisfactory recoveries obtained in blood serum and urine samples show the potential for application of the proposed electroanalytical systems in clinical analysis and optimization of chemotherapeutic treatments.