The present study was born from the search for materials capable of acquiring bioelectrical signals, specifically the electrocardiographic signal in patients who require constant monitoring. Currently disposable Ag/AgCl adhesive electrodes are widely used which attach to the patient's skin and capture the bioelectrical signal to the biomedical recording and processing device. Although the signal acquisition by means of these electrodes is functional, they generate discomfort or pain when coupled to the skin. Because of this, we are studying the possibility of replacing conventional electrodes in exchange for a conductive fabric that is integrated into a garment that fits the patient's body. This work consists of measuring the conductive fabric (Conductive fabrics Shieldex) finding values of resistance and continuity, with these data are performed analytical procedures to determine if it is feasible to use the conductive fabric in exchange for the adhesive electrodes, as well as to establish how reliable is the use of this fabric to conduct the ECG signal from the body of the patient to an electronic system of a wearable monitoring that will be developed in a later phase.