Abstract
The rising prevalence of chronic burn wounds in South Africa places a significant burden on healthcare, driving the search for cost-effective, alternative treatments. Despite their long history of traditional use for skin ailments, the specific wound healing mechanisms of South African species Galenia africana L. and Tulbaghia violacea Harv. remain scientifically unvalidated, representing a critical knowledge gap and a novel area of inquiry. This study sought to evaluate the physiological and cellular effects of these plant extracts, specifically investigating their influence on keratinocyte function and oxidative stress. Initial analysis of crude ethanolic extracts confirmed the presence of key phenolic compounds like ferulic acid and rutin in both plants, with G. africana exhibiting a stronger overall radical-scavenging activity. In vitro assays were performed on the human keratinocyte (HaCaT) cell line. Both G. africana and T. violacea extracts significantly enhanced cell viability (at 40-80 μg/mL) and demonstrably reduced intracellular reactive oxygen species (ROS) levels, indicating a protective antioxidant effect. Critically, in the scratch wound assay, both extracts significantly accelerated cell migration and wound closure, achieving 76% (G. africana) and 88% (T. violacea) closure within 24 h. These findings suggest that G. africana and T. violacea extracts act to support keratinocyte proliferation and migration while simultaneously mitigating oxidative cellular damage. This work provides an important mechanistic basis supporting the traditional use of these specific, regionally important plants and highlights their high therapeutic potential as novel, cost-effective agents to accelerate skin repair and recovery.