Smartphone-Based Sensing of Cortisol by Functionalized Rhodamine Probes.
Rossella SantonocitoAlessia CavallaroRoberta PuglisiAndrea PappalardoNunzio TuccittoManuel PetroselliGiuseppe Trusso SfrazzettoPublished in: Chemistry (Weinheim an der Bergstrasse, Germany) (2024)
During a stress condition, the human body synthesizes catecholamine neurotransmitters and specific hormones (called "stress hormones"), the most important of which is cortisol. The monitoring of cortisol levels should be extremely important to control the stress levels, and for this reason, it shows important medical applications. The common analytical methods (HPLC, GC-MS) cannot be used in real life, due to the bulky size of the instruments and the necessity of specialized personnel. Molecular probes solve these problems due to their fast and easy use. The synthesis of new fluorescent rhodamine probes, able to interact by non-covalent interactions with cortisol, the recognition properties in solution as well as in solid state by Strip Test, using a smartphone as detector, are here reported. DFT calculations and FT-IR measurements suggest the formation of supramolecular complexes through hydrogen bonds as main non-covalent interaction. The present study represents one of the first sensor, based on synthetical chemical receptors, able to detect cortisol in a linear range from 1 mM to 1 pM, based on non-covalent molecular recognition and paves the way to the realization of practical point-of-care device for the monitoring of cortisol in real live.
Keyphrases
- living cells
- solid state
- small molecule
- single molecule
- fluorescent probe
- quantum dots
- fluorescence imaging
- healthcare
- endothelial cells
- density functional theory
- stress induced
- air pollution
- magnetic resonance imaging
- computed tomography
- molecular dynamics
- particulate matter
- molecular dynamics simulations
- photodynamic therapy
- risk assessment
- high performance liquid chromatography
- polycyclic aromatic hydrocarbons
- solid phase extraction