A high-performance liquid chromatography (HPLC) method using silica column eluted with aqueous solvent mobile phase containing triethylamine (lower than 0.07%, v/v) and acetic acid (lower than 0.05%, v/v) was developed for determination of basic compounds in pharmaceutical preparations. The key advantages of this method are not only to reduce the timing required for analysis, mobile phase preparation, cleansing of column and instrument tubing, but also to reduce the occurrence of peak tailing and asymmetry The result of this study indicates that the key mechanism of this method is cation exchange, accompanying with the hydrophobic interaction. The higher the pKa value of drugs, the longer the retention time. In addition, the retention time is longer as well when those basic compounds belong to the quaternary amine. Nevertheless, steric hindrance caused by chemical structure reduces the retention time. The increase of acetic acid in mobile phase also helps to shorten the retention time. Theoretically, the greater partial ionization of silanol caused by the increase of triethyamine helps to retain basic drugs. However, the protoned triethylamine that is positive charge competes for —SiO- group with basic compounds. The competition results in the reduction of retention time of these compounds. On the other hand, the retention time is longer under the circumstance of either the proportion of organic or aqueous solvent in mobile phase is high, or acetonitrile replaces methanol. This study performs significant improvement in the complexity and time consuming resulted from pair-ion chromatography, acidic cation exchange and colorimetric methods applied in USP XXIV, for the analysis of 7 eye drops and nasal spray preparations containing imidazoline derivatives. This method also demonstrates the great precision and accuracy in either the qualitative and quantitative tests of marketed pharmaceutical products containing dextromethorphan HBr, methylphedrine HCl, chlorpheniramine maleate, noscapine HCl and ipratropium bromide or the analysis of bioavailability and bioequivalency for basic compounds. In this study, four different brands of silica columns are also compared to determine the analytical capability. Mean while, the k’ (Capacity factor) values of two hundred drugs are established for reference. This method is demonstrated to be precise but easy. It does not only improve the reversed HPLC, but also increase the efficacy of analysis and save cost.