As a methodological review, this paper begins by introducing the concepts and definitions of absolute bioavailability factor (ABF) and relative bioavailability factor (RBF) and the relevant mathematical equations for the bioavailability test of gastrointestinal function. The critical literature review was then concentrated on the historical development of in-vitro test and important outcomes reported during 1992-2003. Based on this review, we suggest modifying the reactor design, mixing method, and temperature control to reduce fugitive emission from the unsealed reactor. We also identified three key issues for the in-vitro test: the control of oxidation-reduction potential (ORP), the simulation of actual mixing intensity in the stomach, and the range of liquid-to-solid ratio. This study further concludes that a set of systematic quality control criteria must be established for the in-vitro test. Four types of control sample are available for quality control test in parallel with the test sample: blank materials, replicated sample, surrogate reference material (SRM), and matrix control. The ultimate goal of this study is to develop a simple but reliable in-vitro bioavailability method for assessing the potential risk of waste recycling materials, such as soil conditioners, contaminated soil, food, Chinese herbs, orthodontic appliances, and toys.