A non-invasive testing apparatus for determining a concentration of a target substance, such as blood sugar, blood alcohol, cholesterol, etc., in a patient's blood is disclosed. The apparatus and method involve applying an output RF signal (102) to the skin of a patient via an antenna (20), and measuring the amplitude and phase of a response signal, which is a function of the output RF signal (102) modified by an interaction with the patient's blood. The invention takes measurements at different output RF frequencies (310), and plots the response (300) as a function of frequency (310). The invention is essentially characterised by deriving various derived parameters (552, 554, 556, 550, 408, 410) from the shape of the resulting plots, namely any or more of: a resonance frequency shift; a Q factor of the resonance; a group delay; a phase shift; an amplitude variation; a shape factor of the plot; and a gradient of the plot at different frequencies. The invention utilises models of the derived parameters as a function of concentration of the target substance in blood to arrive at a determination of the latter. Also disclosed is a novel circuit (1000) for obtaining the amplitude and phase measurements, a calibration device (5008), and various improvements relating to wearable non-invasive testing apparatus (3000, 4000).L'invention concerne un appareil de test non invasif permettant de déterminer une concentration de substance cible, telle que le sucre dans le sang, l'alcool dans le sang, le cholestérol, etc., dans le sang d'un patient. L'appareil et le procédé impliquent l'application d'un signal RF de sortie (102) à la peau du patient par l'intermédiaire d'une antenne (20), et la mesure de l'amplitude et de la phase d'un signal de réponse, qui est une fonction du signal RF de sortie (102) modifié par une interaction avec le sang du patient. L'invention effectue des mesures à différentes fréquences RF de sortie (310), et représente graphiquement la réponse (300) en fonc