The bilirubin level will decrease after exposure to light due to the chemical structure. For medical usefulness, clinical laboratories often use specimens to subjoin test of serum total bilirubin (STB). Laboratories have established standards of time limits of light exposure before specimens are analyzed in order to avoid pseudo-low level STB, but the criteria are inconsistent. The purpose of this study was to evaluate the correlation between the exposure time to room light with the changes in STB level. According to these outcomes, we developed criteria for serum exposure time. 30 serum samples were collected from patients who had measured STB levels and then divided into 3 groups by different clinical significance. All samples were exposed to room light at the level of 350 Lux for a total time length of 72 hours in ambient temperature 20-25℃. Every 4 hours, all samples were determined by Diazo-Caffeine/Benzoate Coupline method and analyzed with Beckman Coulter UniCel DXC800 analyzer. Before exposure to light, the average concentrations of STB of the 3 groups are 1.61 mg/dL, 6.43 mg/dL, 17.52 mg/dL, respectively. After exposure to light, average rate of decline per 4 hours are 3.8%, 1.1% and 0.9%, respectively. The extreme limits for serum exposure time are 8 hours, 36 hours and 44 hours, respectively, and the changes in STB level met the laboratory's criteria (Bias＜0.2 mg/ dL or 10%) for acceptable performance. Consider the consistency of standard operations and accurate measurement, the exposure time of specimens to room light should be limited to less than 8 hours. When encountering difficulty redrawing the sample, the average rate of decline in our study could be applied for STB level estimation. In this study, we have confirmed the correlation between exposure time and the changes in STB level, this finding could be reference for developing standard operations process that could reduce the frequency of redrawing samples to improve the quality of medical care.