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Theoretical Description for Omeprazole Cathodical Electrochemical Determination, Assisted by Omeprazole Electrochemical Determination, Assisted by the Composite Poly(1,2,4-triazole) – VO(OH)
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Метадані
Опис
Abstract: In this work, we describe theoretically the possibility of omeprazole electrochemical
determination, assisted by the composite containing vanadium oxyhydroxide as an active substance and
the polymer of 1,2,4-triazolic derivative as a mediator. The omeprazole molecule undergoes a sulfoxide
to sulfide reduction process over a trivalent vanadium compound. The vanadium oxyhydroxide, at its
turn, may be oxidized to a tetravalent state, represented in two forms. The electroanalytical process
behavior will be illustrated by a trivariate equation-set, analysis of which confirms the efficiency of the
composite of poly (1,2,4-triazole) with VO(OH). Vanadium (III) oxyhydroxide may be efficiently used
for omeprazole detection both in pharmaceutical formulations, food, and biological liquids.
Назва
Theoretical Description for Omeprazole Cathodical Electrochemical Determination, Assisted by Omeprazole Electrochemical Determination, Assisted by the Composite Poly(1,2,4-triazole) – VO(OH)
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URI (Уніфікований ідентифікатор ресурсу):
https://repository.khnnra.edu.ua/wp-content/uploads/tainacan-items/10644/21847/Gordiyenko-NM.pdf
Бібліографічний опис:
1. Kamada, T.; Satoh, K.; Itoh, T.; Ito, M.; Iwamoto, J.; Okimoto, T.; Kanno, T.; Sugimoto, M.; Chiba, T.;
Nomura, S.; Mieda, M.; Hiraishi, H.; Yoshino, J.; Takagi, A.; Watanabe, S.; Koike, K. Evidence-based
clinical practice guidelines for peptic ulcer disease 2020. J. Gastroenterol, 2021, 56, 303 – 322,
https://doi.org/10.1007/s00535-021-01769-0.
2. Stylianopoulou, L; Bartsokas, Ch; Kalliakmanis, V. Gastric ulcer penetration into liver: A case presentation
and review of the literature. Clin. Case Rep. 2021, 9, 282 – 285, https://doi.org/10.1002/ccr3.3515.
3. Kuna, L.; Jakab, J.; Smolic, R.; Raguz-Lucic, N.; Vcev, A.; Smolic, M. Peptic Ulcer Disease: A Brief Review
of Conventional Therapy and Herbal Treatment Options. J. Clin. Med. 2019, 8, 179,
https://doi.org/10.3390/jcm8020179.
4. Yi, X.; Wang, L.; He, Q. Acupoint catgut embedding for the treatment of peptic ulcers: A protocol for
systematic review and meta analysis. Medicine 2021, 100, https://doi.org/10.1097/MD.0000000000025562.
5. Briganti, S.I.; Naciu, A.M.; Tabacco, G.; Cesareo, R.; Napoli, N.; Trimboli, P.; Castellana, M.; Manfrini, S.;
Palermo, A. Proton Pump Inhibitors and Fractures in Adults: A Critical Appraisal and Review of the
Literature. Int. J. Endocrinol. 2021, 2021, https://doi.org/10.1155/2021/8902367.
6. Hiromoto, S.; Kawashiri, T.; Yamanaka, N.; Kobayashi, D.; Mine, K.; Inoue, M.; Uchida, M.; Shimazoe, T.
Use of omeprazole, the proton pump inhibitor, as a potential therapy for the capecitabine-induced hand-foot
syndrome. Sci. Rep. 2021, 11, 8964, https://doi.org/10.1038/s41598-021-88460-9.
7. Talley, N.J; Zand Irani, T, Optimal management of severe symptomatic gastroesophageal reflux disease. J.
Internal Med. 2021, 289, 162 – 178, https://doi.org/10.1111/joim.13148.
8. Siranawasatien, A; Kantathavorh, N. Efficacy of the four weeks treatment of omeprazole plus mosapride
combination therapy compared with that of omeprazole monotherapy in patients with proton pump inhibitor-
refractory gastroesophageal reflux disease: a randomized controlled trial. Clin. Exp. Gastroenterol. 2019, 12,
337 – 347, https://doi.org/10.2147/CEG.S214677
9. Sun, L.-N.; Zhang, Y.; Yang, Y.-Q.; Shen, Y.; Ying, Y.-W.; Su, Y.-W.; Zhang, X.-H.; Liu, Y.; Huang, X.;
Wang, Y.-Q. Simultaneous enantioselective determination of omeprazole, rabeprazole, lansoprazole, and
pantoprazole enantiomers in human plasma by chiral liquid chromatography–tandem mass spectrometry. J.
Sep. Sci. 2020, 43, 3183-3196, https://doi.org/10.1002/jssc.202000226.
10. Pylypenko, S.V; Koval, A.A; Makarchuk. V.V. Activity of Superoxide Dismutase and Catalase in the Gastric
Mucosa of Rats under the Prolonged Administration of Omeprazole and Combination of Omeprazole with
Antibiotics. Wiad. Lek. 2021, 74, 317 – 320, https://doi.org/10.36740/WLek202102127.
11. Ikuta, K.; Nakagawa, S.; Momo, K.; Yonezawa, A.; Itohara, K.; Sato, Y.; Imai, S.; Nakagawa, T.; Matsubara,
K. Association of proton pump inhibitors and concomitant drugs with risk of acute kidney injury: a nested
case–control study. BMJ Open 2021, 11, e041543, https://doi.org/10.1136/bmjopen-2020-041543.
12. Forough, K; Samira, J; Mahmoodreza, M. Azizolah, J. Determination of Rosmarinic Acid and Caffeic Acid
in Thymus daenensis and Thymus lancifolius Extracts by High-Performance Thin Layer Chromatography.
Lett. Appl. NanoBioSci. 2021, 10, 2804 – 2809, https://doi.org/10.33263/LIANBS104.28042809.
13. Tajik, S.; Dourandish, Z.; Jahani, P.M.; Sheikhshoaie, I.; Beitollahi, H.; Asl, M.S.; Jang, H.W.;
Shokouhimehr, M. Recent developments in voltammetric and amperometric sensors for cysteine detection.
RSC Advances 2021, 11, 5411-5425, https://doi.org/10.1039/D0RA07614G.
14. Mostafiz, B; Fotouhi, L; Dorraji, P.S. An electrochemical sensor based on an Eriochrome Black T polymer
and deep eutectic solvent for the simultaneous determination of omeprazole and lansoprazole. Anal. Meth.
2020, 12, 4072 – 4079, https://doi.org/10.1039/D0AY01078B.
15. Khashaba, P.Y; Ali, H.R. H; El-Wekil, M.M.; Development of a novel and cost-effective redox sensor for
voltammetric determination of pantoprazole sodium during pharmacokinetic studies. R. Soc. Open Sci. 2017,
4, 170324, https://doi.org/10.1098/rsos.170324.
16. Oliveira, R.W.; Gomes, P.; Ribeiro, J.; Reis, J.; Fontenele, M.; Everton, G.; Lyra, W.; Louzeiro, H.; Paula,
M.; Filho, V. Determinação espectrofotométrica de Cobre(II) em aguardente de mandioca (Tiquira). Revista
Colombiana de Ciencias Químico-Farmacéuticas 2020, 49, 353–371,
https://doi.org/10.15446/rcciquifa.v49n2.89507.
17. Bagheri, A.; Hassani Marand, M. Voltammetric and Potentiometric Determination of Cu2+, using an
Overoxidized Polypyrrole Based Electrochemical Sensor. Russ. J. Electrochem.2020, 56, 453–461,
https://doi.org/10.1134/S1023193520060026.
Видавець:
Article Volume 12, Issue 3, 2022, 3012 - 3018 https://doi.org/10.33263/BRIAC123.30123018
Ключові слова:
omeprazole; electrochemical sensors; vanadium oxyhydroxide; conducting polymers; stable steady-state