Diabetes is a growing, global healthcare challenge. It is estimated that in Taiwan there are about 1.2 million people have diabetes. Diabetes causes blindness, visual impairment, cardiovascular disease, stroke and kidney failure. The prevalence of primary kidney disease among these diabetes patients was 27.4% in Taiwan, Therefore, routine monitoring is very important. In order to improve life quality of patients and avoiding physiological complications, painless non-invasive sensing system for multi-metabolites is the preferred research, especially in recent years. For the reason that diabetes and kidney disease are a serious problem in Taiwan, this study focused on the related metabolites (i.e. glucose and urea) corresponding to these two diseases. The aims of this study were (1) to design and fabricate a circuit of low-cost, portable, battery-operation and programmable sonophoresis and reverse iontophoresis device for multi-metabolites transdermal extraction and (2) to find out the optimum combination of sonophoresis and reverse iontophoresis for the non-invasive and transdermal extraction of glucose and urea. Results showed that the sonophoresis and reverse iontophoresis device was accurate, portable, programmable and low-cost. Furthermore, the device was capable of extracting glucose and urea transdermally and this was evaluation by the use of diffusion cell incorporated with porcine skin. In conclusion, a low-cost, portable, battery-operation and programmable sonophoresis and reverse iontophoresis device was developed in this study and it was able to effectively and transdermally extract glucose and urea.