The indoor air quality (IAQ) plays an important role in the human health and comfortability of occupants, especially in hospitals. The nosocomial airborne contamination in hospitals can arrive from non-biological and biological sources, which in-turn causes precipitating of symptoms and infecting disease in susceptible subject’s i.e. elderly or immuno-compromised subjects. The long term exposure to these nosocomial airborne contaminations can induce high risks for the hospital staffs. For analysis and maintenance protocols to comprise the hospital IAQ within the IAQ standards, I use the Andersen single-stage viable particle sizing sampler to investigate the presence of bacteria and fungi in the indoor-air of a hospital at different time frames. In addition, we intend to investigate the relationship between IAQ and various environmental factors such as person, CO2 concentration, temperature, relative humidity, month, and time (morning, afternoon, evening). Finally, a comparison of the present IAQ of hospital with IAQ standards of various countries including Taiwan will be briefed. The monitoring results reveal that the average fungi concentrations in most hospital rooms can comply with the suggested standard which is under 1000 CFU/m3. On the contrary, the bacteria concentrations of 59% of monitoring sites had been over the standard value 500 CFU/m3, and thses sites were mostly registry or wating rooms.On the other hand, this study uses suitable statistical method to analyze eight interfering factors. First, the fungi concentrations were generally higher in June or August, but the bacteria concentrations were usually lower in December or February. Second, there were only 4% of monitoring sites whose fungi concentrations were significantly correlated with person, but there were about 41% of sites whose bacteria concentrations were. Third, there were 30% of sites whose fungi concentrations had positive or negative relationship to CO2 concentrations, and the reason may be in connection with the characteristics of sampling sites. In addition, there were 37% of sites whose bacteria concentrations and CO2 concentrations were directly related. Forth, the proportion of monitoring sites whose both fungi and bacteria concentrations were significantly correlated with indoor temperature is 44%. By contraries, the proportion of sampling sites whose fungi and bacteria concentrations had relationship with related humity is only 15% and 3% respectively. Fifth, although many study indicate that the most serious fungi pollution sources in door come from outdoor air, this study results reveal that there were marely 15% of monitoring sites whose indoor and outdoor fungi concentrations were significantly correlated with each other, and the most parts of these sites were on the first floor and connected wih outdoor air by doors and windows. On the other side, the proportion of sampling sites whose bacteria concentrations were significantly correlated with outndoor air is 30%. Moreover, the existence of sewage treatment plants also can increased the nearby airborn bacteria concentration significantly. Sixth, the proportion of sampling sites whose fungi and bacteria concentrations had significantly different from time to time were 26% and 52% respectively, and the bacteria concentrations sampling at night are lower than other timess, like in morning or afternoon.