(TKP2021-EGA-23) Támogató: Innovációs és Technológiai Minisztérium
In this research, we applied electrospinning to create a two-component biodegradable
polymeric scaffold containing polysuccinimide (PSI) and antibacterial salts. Antibacterial
agents for therapeutical purposes mostly contain silver ions which are associated
with high environmental impact and, in some cases, may cause undesired immune reactions.
In our work, we prepared nanofibrous systems containing antibacterial and tissue-regenerating
salts of zinc acetate or strontium nitrate in different concentrations, whose structures
may be suitable for developing biomedical wound dressing systems in the future. Several
experiments have been conducted to optimize the physicochemical, mechanical, and biological
properties of the scaffolds developed for application as wound dressings. The scaffold
systems obtained by PSI synthesis, salt addition, and fiber formation were first investigated
by scanning electron microscopy. In almost all cases, different salts caused a decrease
in the fiber diameter of PSI polymer-based systems (<500 nm). Fourier-transform infrared
spectroscopy was applied to verify the presence of salts in the scaffolds and to determine
the interaction between the salt and the polymer. Another analysis, energy-dispersive
X-ray spectroscopy, was carried out to determine strontium and zinc atoms in the scaffolds.
Our result showed that the salts influence the mechanical properties of the polymer
scaffold, both in terms of specific load capacity and relative elongation values.
According to the dissolution experiments, the whole amount of strontium nitrate was
dissolved from the scaffold in 8 h; however, only 50% of the zinc acetate was dissolved.
In addition, antibacterial activity tests were performed with four different bacterial
strains relevant to skin surface injuries, leading to the appearance of inhibition
zones around the scaffold discs in most cases. We also investigated the potential
cytotoxicity of the scaffolds on human tumorous and healthy cells. Except for the
ones containing zinc acetate salt, the scaffolds are not cytotoxic to either tumor
or healthy cells.