Surface electromyography (sEMG) sensor measures the user's muscle activities by noninvasively placing electrodes on the surface of the user's skin. It has been widely used in monitoring various human movements. Recently a wearable and flexible epidermal sensor system called Electronic Tattoo (E-Tattoo) has been developed to enable intimate attachment of electrodes on the skin, improving long-term comfort. In order to make the E-Tattoo usable in monitoring muscle activities, it is always connected with a connector and signal processing blocks to collect and process the measured sEMG signals. We call it an integrated system. This paper investigates the usability of a prototype of the integrated system developed in the laboratory for monitoring muscle activities by testing its comfort with user experience surveys and comparing the quality of the sEMG signals by widely used performance metrics. Two typical movements, maximum voluntary isometric and non-isometric contractions, are considered for the experiments. Our preliminary results on five subjects demonstrate the effectiveness of the proposed integrated system. This system showed a comparable signal quality for these two movements as the commercial product with a much better comfort feeling from the user. It is also interesting to note that this prototype shows a much better signal-to-motion artifact ratio (SMR), which reflects the ability to measure muscle activities during active movements, compared with the commercial product, showing the potential of using this integrated system in monitoring sEMGs during active and dynamic movements.