Thermogravimetric investigations of nasal gel with diltiazem

Authors

  • L. K. Kuchina Zaporizhzhia State Medical University,
  • V. V. Gladyshev Zaporizhzhia State Medical University,
  • I. A. Puchalskaya Zaporizhzhia State Medical University,

DOI:

https://doi.org/10.14739/2409-2932.2015.3.52622

Keywords:

Diltiazem, Gels, Physicochemical Processes, Thermogravimetry Pharmaceutical Technology

Abstract

Aim. To conduct the thermogravimetric investigations of nasal gel with diltiazem.

Methods and results. Using alternative ways of diltiazem absorption, in particular, nasal, will allow to improve its bioavailability and efficiency. Derivatografic investigations of the active substances and excipients have been carried out for the purpose of the thermal treatment effects of nasal gel study. It has been revealed that developed diltiazem nasal dosage form on the base of methylcellulose glycerogel is mechanical mixture of the active substances and excipients because its ingredients don’t interact.

Conclusion. Preparation of the diltiazem nasal gel 5% by temperature under 90ºС doesn’t lead to destruction of the components of the present dosage form.

References

Коsаrev, V. V., & Babanov, S. А. (2010). Аntagonisty kalciya: kliniko-farmakologichеskiе podkhоdy pri аrterialnoj gipertenzii [Calcium antagonists: clinical and pharmacological approaches to hypertension]. Russkij medicinskij zhurnal, 10, 652–657. [in Russian].

Myasoedova, S. E. (2014). Diltiazem: mesto v sovremennoj terapii serdechno-sosudistykh zabolevanij [Diltiazem: a place in the modern treatment of cardiovascular diseases]. Atmosfera. Novosti kardiologii, 3, 11–16. [in Russian].

Gladyshev, V. V., Kechin, I. L., Fedorova, O. P., & Kuchina, G. K. (2014). Vygotovlennia geliu nazalnoho antyhipertenzyvnoi dii v umovakh apteky. Informatsiinyi lyst Ministerstva okhoronu zdorovia Ukrainy, 219.

Gladyshev, V. V., Kuchina, G. K., Burlaka, B. S., Biryuk, I. A., & Grigorieva, M. Yu. (2013). Izuchenie vliyanya osnovy-nositelya na biofarmacevticheskie svojstva nazal′noj lekarstvennoj formy diltiazema [Study of basis-transmitter infl uence on biopharmaceutical properties of diltiazem nasal dosage form]. Zaporozhskij medicinskij zhurnal, 2, 87–90. [in Ukrainian].

Finch, C. A. (2013). Chemistry and technology of water-soluble polymers. New-York : Springer Science & Business Media.

Guohua, D., Chuanmei, T., Fuya, Li, & Huanfeng J. (2010). Covalent Cross-Linked Polymer Gels with Reversible Sol−Gel Transition and Self-Healing Properties. Macromolecules, 2, 1191–1194. doi: 10.1021/ma9022197.

Korolev, D. V., & Suvorov, K. A. (2003). Opredelenie fiziko-khimicheskich svojstv komponentov i smesei derivatograficheskim metodom [Determination of physico-chemical properties of the components and mixtures by grav]. Saint Petersburg. [in Russian].

Timanyuk, V. A., & Zhivotova, E. N. (2003). Biofizika [Biophysics]. Khar′kov: Zolotye stranicy. [in Ukrainian].

Trunova, T. V., Krutskykh T. V., & Kukhtenko, O. S. (2010). Termohravimetrychni doslidzhennia supozytoriiv z N, N~dybenzylamidom malonovoi kysloty (dybamkom). Farmatsevtychnyi chasopys, 4, 35–38. [in Ukrainian].

Strilets, O. P. (2010). Termohrafichne doslidzhennia novoho kombinovanoho preparatu iz hipotenzyvnoiu diieiu [Thermographic investigation of the new combined drug antihypertensive effect]. Ukrainskyi zhurnal klinichnoi i laboratornoi medytsyny,, 5(4), 29–31. [in Ukrainian].

How to Cite

1.
Kuchina LK, Gladyshev VV, Puchalskaya IA. Thermogravimetric investigations of nasal gel with diltiazem. Current issues in pharmacy and medicine: science and practice [Internet]. 2015Nov.3 [cited 2024Dec.25];(3). Available from: http://pharmed.zsmu.edu.ua/article/view/52622

Issue

Section

Pharmaceutical manufacturing