Sodium Alginate-Infused Hydrogels: A Treatment Approach for Managing Chronic Wounds in the Skin
Datum
2024-08-22Autor
Díaz Rivera, Javier A.
Faustinelli, Carlos
Garriga Vidal, María
Metadata
Zur LanganzeigeZusammenfassung
Climate change has increased the growth and dispersal of Sargassum algae across the
Atlantic Ocean, posing significant environmental challenges, especially in the Caribbean.
However, from Sargassum, sodium alginate, a polysaccharide with gel-forming abilities, is
extracted and presents as a valuable resource for various applications. Chronic wounds,
affecting approximately 6.5 million patients annually in the USA, require advanced
treatments due to their complex healing processes. Hydrogels, known for their
biocompatibility, moisture retention, and oxygen diffusion capabilities, offer an ideal
solution for wound dressings. This research explores the synthesis and potential of sodium
alginate-infused hydrogels for chronic wound care in the skin. Their efficacy in promoting
Saccharomyces cerevisiae cell proliferation and inhibiting bacteria Escherichia coli and
Staphylococcus epidermidis bacteria was tested through tests based on the disk diffusion
method. Their swelling ratio was tested through a water retention test. The findings indicate
that the sodium alginate-infused hydrogels successfully promoted significant proliferation
of Saccharomyces cerevisiae cells, demonstrating their potential to accelerate the healing
process. Additionally, the hydrogels exhibited substantial antibacterial activity, effectively
inhibiting the growth of Escherichia coli and Staphylococcus epidermidis. The swelling
tests revealed that the hydrogels have an excellent capacity to absorb and retain water over
the observed time, which is essential for maintaining a moist wound environment
conducive to healing. These results confirm the hydrogel’s functionality in promoting
cellular regeneration and preventing infections while also ensuring an adequate moisture
environment for wounds.