Janus kinase inhibitors (JAKis) represent a class of drugs that treat inflammatory and autoimmune diseases by blocking Janus kinase (JAK) enzymes. Monitoring of precise drug concentration ensures therapeutic effect while minimizing the risk of toxicity. In parallel to conventional methods based on high performance liquid chromatography, liquid chromatography − mass spectrometric or spectrometric methods, sensitive electrochemical methods for the detection of JAKis have been developed in very recent years. The procedures utilize conventional bare glassy carbon electrode or boron-doped diamond electrode and, particularly, chemically modified electrodes incorporating nanomaterials and their composites as powerful catalysts as well as imprinted polymers. The linear concentration ranges and limits of detection achieve very low 10 − 9 M to 10 − 12 M (µg to ng/mL) values, matching clinically relevant drug levels and are applied to analysis of biological matrices and pharmaceutical products. In this study, the concentration ranges obtained for individual JAKis are presented and compared with those of conventional methods. The manuscript covers the years 2022 to 2025 highlighting the JAKis electrochemical detection as a new topic. The paper aims to address both current trends and future potential in the development of novel sensors and procedures for the JAK inhibitors detection directed to a real-time point-of-care analysis enabling personalized therapeutic drug monitoring. Advantages and disadvantages of electrochemical approaches for the JAKis assay in clinical settings are critically evaluated. To facilitate the development of more reliable, robust and clinically applicable electrochemical methods, a few recommendations that future studies should follow are proposed.
Mikus et al. (Fri,) studied this question.