RESUMEN
Objective To develop a rapid, simple and sensitive chemiluminescence method for the determination of three β-blockers (bisoprolol, atenolol and propranolol). Methods The chemiluminescence of cerium (Ⅳ)-sulfite system was obviously sensitized by adding anyone of three β-blockers in acid media. A new chemiluminescence method was set up by combining with flow-injection technique and used to determine the three β-blockers. Results Good linear ranges were obtained at the concentrations of 2.0×10-7g/mL-4.0×10-5g/mL, 1.0×10-7g/mL-3.0×10-5g/mL and 7.0×10-7g/mL-1.0×10-5g/mL, respectively, with the detection limits of 5.0×10-8g/mL, 7.0×10-8g/mL and 5.0×10-8g/mL (S/N=3), respectively, and the relative standard deviations for 11 times consecutive injections of 1.0×10-6g/mL bisoprolol, atenolol and propranolol were 3.57%, 2.21% and 2.26%, respectively. Conclusion The developed method is sensitive, accurate, rapid and of low cost. And it can be applied to determine bisoprolol, atenolol and propranolol in pharmaceutical preparations.
RESUMEN
Objective To establish a rapid and precise continuous flow-injection chemiluminescence (CL) method for the determination of perphenazine. Methods In HNO_3 medium, perphenazine could be oxidated by ceriuim (IV) and CL was proportional to the perphenazine concentration without any sensitizers. Thus, a new flow-injection CL method was developed. Results Under the optimized conditions, the proposed method allowed the determination range within 1.0?10~ -7 -7.0?10~ -5 g/mL with the detection limit of 8.0?10~ -8 g/mL. Eleven parallel assays were conducted on perphenazine of 1.0?10~ -6 g/mL, with the relative standard deviation of 1.8%. Conclusion The method is simple, rapid, precise, and sensitive, and has broad linear range; therefore, it has been applied to the the determination of the perphenazine in tablets with satisfactory results.