Research by choice of excipients ingredients of the gel for the therapy of radiation lesions of the skin based on rheological studies

Authors

DOI:

https://doi.org/10.15587/2519-4852.2023.290004

Keywords:

rheological studies, combined gel, phytocomposition, sodium carboxymethylcellulose, hydroxyethylcellulose, Lanette SX

Abstract

The aim of this work is to conduct a research analysis of changes in the structural and mechanical properties of the gel from the addition of active substances and surfactants.

Materials and methods. In the presented work, model samples of the gel with active substances were studied: freshly obtained stonecrop juice, sea buckthorn oil, rosehip oil, St. John's wort oil and quercetin. As substances for the manufacture of bases hydrocolloids of cellulose derivatives were used: sodium carboxymethylcellulose (NaCMC) and hydroxyethylcellulose (HEC) with a surfactant Lanette SX.

A study of the rheological properties of the samples was performed using a rheoviscometer Rheolab QC (Anton Paar, Austria) using a system of coaxial cylinders C-CC27 / SS. The Rheolab QC rheometer is equipped with RheoPlus software, which allows you to set the necessary experimental conditions (shear rate gradient range, number of measuring points and measurement time of one point).

Results. The rheological properties of model samples of NaCMC and HEC gels, depending on the used concentration, were studied. With increasing concentrations of both NaCMC and HEC thixotropy of dispersed systems decreases. The change of structural and mechanical parameters of hydrogels from the addition of active ingredients and surfactant is analyzed, and established that adding them into the hydrogels increases the structural and mechanical parameters of model samples.

A study of gels with a constant concentration of sodium carboxymethylcellulose and hydroxyethylcellulose and different content of surfactant Lanette SX established that as the surfactant concentration increases, the area of the hysteresis loop and the resistance of the dispersed system to the applied mechanical fracture increase.

Conclusions. According to the results of the obtained structural and mechanical parameters and rheograms of the studied model samples of gels, it is rational to use in further studies of sodium carboxymethyl-cellulose (1.5 %) and hydroxyethylcellulose (1.25 %) stabilized Lannete SX in concentrations of 4-5 % and 3-5 % respectively

Author Biographies

Ksenija Burban, National University of Pharmacy

Postgraduate Student

Department of Pharmaceutical Technology of Drugs

Halyna Kukhtenko, National University of Pharmacy

PhD, Associate Professor

Department of Cosmetology and Aromology

Anna Kriukova, National University of Pharmacy

PhD, Assistant Professor

Department of Drug Technology

Volodymyr Yakovenko, National University of Pharmacy

Doctor of Pharmaceutical Sciences, Professor

Department of Industrial Pharmacy and Economics

Ksenia Matsiuk, National University of Pharmacy

Postgraduate Student

Department of Pharmaceutical Technology of Drugs

Halyna Slipchenko, National University of Pharmacy

Doctor of Pharmaceutical Sciences, Associate Professor

Department of Industrial Technology of Drugs

Liliia Vyshnevska, National University of Pharmacy

Doctor of Pharmaceutical Sciences, Professor, Head of Department

Department of Pharmaceutical Technology of Drugs

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Research by choice of excipients ingredients of the gel for the therapy of radiation lesions of the skin based on rheological studies

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Published

2023-10-31

How to Cite

Burban, K., Kukhtenko, H., Kriukova, A., Yakovenko, V., Matsiuk, K., Slipchenko, H., & Vyshnevska, L. (2023). Research by choice of excipients ingredients of the gel for the therapy of radiation lesions of the skin based on rheological studies. ScienceRise: Pharmaceutical Science, (5(45), 44–52. https://doi.org/10.15587/2519-4852.2023.290004

Issue

No. 5(45) (2023)

Section

Pharmaceutical Science

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Copyright (c) 2023 Ksenija Burban, Halina Kukhtenko, Anna Kriukova, Volodymyr Yakovenko, Ksenia Matsiuk, Halyna Slipchenko, Liliia Vyshnevska

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