Diphenidol is a synthetic antivertigo and antiemetic agent. It apparently exerts a specific effect in the therapy of vertigo, nausea and vomiting. Although diphenidol is used broadcast in clinical application for more than thirty years, the relative reports are not available, for example: stability, analytical methods and pharmacokinetic data in past literature are still lacking. An accuracy, simple and specific HPLC method was developed first to detect the concentration of diphenidol in biological sample. A normal phase column with UV detection at 220nm was used in chromatographic separation. The calibration curve shows good linearity within the concentration range of 10 to 2000 ng/ml. The coefficients of variation (C.V.) of the intraday and interday variation are all within 8 %. The pharmacokinetics of diphenidol was studied by intravenous administration of three different doses (1, 3, 6mg/kg) in six rabbits, respectively. The plasma concentration-time profiles of diphenidol could be described by a bi-exponential equation with each dose. There are no significant difference in pharmacokinetic parameters of diphenidol under the dose of 1mg/kg and 3mg/kg.The distribution half-life and elimination half-life are 5.87* 3.05 min and 69.74* 11.63 min. The volume of distribution is 11 In addition, 6mg/kg of diphenidol was intraperitoneal (I.P.) administered to rabbits for the bioavailability study. The plasma concentration-time profiles could be also fitted by two-compartment model. The area under the curve (AUC) was 9693±1533(ng*min/ml).Comparing with that of intravenous administration in the dose of 1 mg/kg, the absolute bioavailability of diphenidol was 0.25 through the I.P. administration. After oral administration of diphenidol, there was no diphenidol appear in the plasma under the dose of 150mg/kg. A giant peak just about 0.7min ahead the retention time of diphenidol in HPLC analysis. This unknown peak was also detectable in the plasma sample of 75mg/kg P.O. dosing rabbit after b-glucuronidase hydrolysis. According to our results, it is suggested that most of diphenidol convert rapidly into a major unknown metabolite and that quickly glucuronidate as the major compound exist in plasma