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Study of degradation behavior of abacavir using a diamond film electrode
Pražáková, Lucie ; Kubíčková, Anna (advisor) ; Kozlík, Petr (referee)
In this work the electrochemical degradation behavior of the drug abacavir is studied with the use of boron-doped diamond electrode. Oxidative degradation of the active substance abacavir, used to treat patients with HIV disease, was studied in a batch of three-electrode and two-electrode settings. In this work, the characteristics of five working boron-doped diamond electrodes, differing in a boron/carbon doping ratio of 500 ppm, 1000 ppm, 2000 ppm, 4000 ppm and 8000 ppm, were studied. The degradation in the three-electrode arrangement took place under potenciostatic electrolysis at potentials from 0,6 V to 2,0 V. The degradation in the two-electrode arrangement took place under conditions of potenciostatic electrolysis at higher potentials from 2,0 to 4,5 V. Optimal degradation, to the required values up to 25 %, was achieved at a potential of 3,5 V for an oxidation time of 10 minutes on a boron-doped diamond electrode with a boron/carbon doping ratio of 500 ppm and 1000 ppm. Separation and determination of abacavir and its degradation products were performed by ultra-high performance liquid chromatography with a mass detector. The degradation of abacavir produced two known degradation products, DP1 with relative retention times of 0,40 and DP2 with relative retention times of 0,45. The...
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Oxidative degradation study of abacavir
Šušová, Nikola ; Kubíčková, Anna (advisor) ; Sobotníková, Jana (referee)
The aim of this study is forced oxidative degradation of active pharmaceutical ingredient abacavir, used to treat HIV-infected patients. A fast and sensitive method for the determination of abacavir and its degradation products by ultra-high performance liquid chromatography has been developed and validated, that made it possible to evaluate the oxidation stability of abacavir and Ziagen tablets. Suitable chromatographic separation was achieved using a Kinetex C18 column and gradient elution with a mobile phase consisting of acetonitrile and ammonium acetate (c = 20 mmol dm−3 , pH = 7.0). The total run time was 11 minutes. The determination of abacavir and its degradation products was performed by a photodiode array detector at λ = 254 nm. The optimized method for the determination of abacavir and its degradation products was applied to study the oxidation of abacavir by both traditional and electrochemical approaches. The forced degradation study in solution revealed abacavir instability in the presence of 3% hydrogen peroxide and during electrochemical oxidation. The study found that excipients in the tablet suppress the degradation of abacavir by approximately 10 %. Abacavir is oxidized by 15 % by hydrogen peroxide after 24 hours at 25 řC, after 1.5 hours at 50 řC and after 5 minutes at...
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