Topical Helichrysum italicum Essential Oil-Based Ointment Hastens Excisional Wound Healing by Alleviating Inflammation and Oxidative Stress in Diabetic Rats

Wound healing is the body's natural response to tissue injury. It represents a complex and dynamic biological process consisting of integrated cellular and biochemical cascades, which lead to the re-establishment of the structural and functional integrity of the damaged tissue (1). The healing process consists of four temporally and spatially overlapping phases: hemostasis, inflammation, proliferation, and remodeling (2, 3). Different factors are associated with a compromised capacity to promote the regeneration of damaged tissue and, consequently delayed wound healing. Factors affecting the healing process can be categorized into local and systemic. Local factors are factors that directly of the affect the characteristics wound, while systemic factors represent the individual's health condition, which affects the ability to heal. There is an association of several factors and systemic factors act through local effects that affect wound healing (4).

One of the major contributors to delayed and consequently chronic wound healing problems is diabetes mellitus (DM). Prolonged wound healing in patients with DM occurs due to a delayed, incomplete and uncoordinated healing process, which permeates all phases, from inflammation to remodeling (5). As a result, people with diabetes can develop a variety of complications, including chronic wounds that do not heal, such as foot ulcers (6).

Considering the huge impact of chronic diabetic wounds on the economy and society, there is an urgent need to develop new therapeutic strategies that can contribute to proper wound healing and exhibit as few side effects as possible. Although various therapeutic protocols are available for wound healing, including antibiotics, antiseptics, and anti-inflammatory agents, medicinal herbs and natural products have been the main source of wound healing agents in recent years. The significant increase in the use of medicinal plants is the result of greater safety compared to synthetic drugs, but also more affordable prices (7).

Helichrysum italicum (H. italicum) is a perennial, aromatic plant belonging to the Asteraceae family. H. italicum, commonly known as “immortelle,” is renowned for its therapeutic properties and has been traditionally used in folk medicine for its wound-healing abilities (8, 9). The essential oil derived from H. italicum contains a complex mixture of bioactive molecules, including monoterpenes and sesquiterpenes, which have demonstrated potent anti-inflammatory, antioxidant, and antimicrobial actions (10, 11). These properties make H. italicum essential oil a promising ingredient for topical preparations developed to enhance wound healing efficacy, particularly in diabetic conditions where inflammation and oxidative stress are heightened.

Therefore, this investigation was designed to develop and characterize H. italicum essential oil-based topical semi-solid dosage form and evaluate wound-healing properties by performing a biochemical analysis in diabetic animal model.

Over the years, the use of synthetic preparations has been in drastic decline, primarily due to their close association with the occurrence of serious side effects. As a result, their unsafe use has enabled preparations based on natural products to regain their popularity and gain great interest from the scientific public in the prevention and treatment of various conditions. Although the wound-healing activity of immortelle extracts and their ingredients is well known, there is almost no data on the effects of different topical preparations based on immortelle essential oil. Accordingly, the first part of this investigation was to formulate semi-solid topical preparation containing H. italicum essential oil and to determine its stability during six months of storage on the room conditions.

Literature data suggest that a concentration of immortelle essential oil of 0.5% is optimal and suitable for topical application and that its increase is not recommended due to the possibility of skin irritation (19). Accordingly, immortelle essential oil was incorporated in a concentration of 0.5% into the ointment base to obtain immortelle-based ointment. In order to assess the physical stability of the prepared semi-solid formulation, the ointment sample was stored for six months at a room temperature of 22 ± 0.1°C, the parameters of interest were monitored in the following time points: at the beginning and end of the storage period.

Within the organoleptic characteristics, changes in color, smell, consistency and homogeneity were monitored over a period of six months. The results of the six-month follow-up indicate that there were no changes in the organoleptic properties of the tested formulation. From the aspect of physical stability, the absence of change in color, smell, consistency and homogeneity is an indicator of the preliminary stability of the investigated immortelle ointment.

Determining spreadability, as an index of ease of application, is one of the necessary methods before placing the preparation on the market, considering that it is necessary for semi-solid products for local application to be easily applied to the surface of the skin. Spreadability greatly affects the effectiveness of topical therapy and is an important characteristic responsible for the delivery of the active substance to the target site, ease of application and most importantly, the needs of the user (20). So, we monitored the spreadability of our preparations over time, which remained unchanged, which is an additional confirmation of the stability of semisolid preparation based on immortelle. Bearing in mind the percentage of immortelle essential oil in the mentioned formulation, it can be concluded that the ability to spread is mainly influenced by the substrates used for the production of ointments.

After confirmation of the stability of H. italicum essential oil-based ointment, we investigated the effects of developed ointment on the wound-healing process in diabetic rats with special emphasis on the markers of inflammation and oxidative stress in wound tissue.

The most important factors in the wound-healing process are the contraction and epithelization of the wound (21), therefore monitoring these parameters is of key importance in assessing the wound-healing potential of a different formulation. The results of our research showed that the percentage of wound contraction was significantly higher in the group of animals treated with preparation based on immortelle essential oil. The impressive effect of the immortale ointment was observed from the first moment, more precisely after seven days of application and was recorded until the last day of the experimental period. Therefore, the given results indicate a shorter re-epithelialization time in the groups treated with essential oil compared to the other groups. The potential for wound healing may be attributed to the presence of terpenes known for their astringent and antimicrobial properties, which contribute to enhanced wound contraction and promote epithelialization.

The inflammation phase plays an important role in the healing process, which is necessary for proper wound healing. The pro-inflammatory cytokines IL-6 and TNF-α are involved in cell differentiation and proliferation, coordinating granulation tissue synthesis, angiogenesis, reepithelialization, and collagen remodeling mechanisms (22). Moreover, these cytokines enhance the migration and proliferation of leukocytes in the wound, enhancing the removal of necrotic tissue and the phagocytosis of antigens (23). IL-10 is another interleukin involved in the inflammatory response in wounds, which acts as an anti-inflammatory mediator, by inhibiting the synthesis of pro-inflammatory cytokines and plays a role in angiogenesis (24). However, an imbalance between inflammatory cytokines can lead to a chronic inflammatory process, which results in the disruption and delay of the healing process (25). The results of cytokine quantification in the tissue homogenate isolated from the wound area, previously caused by the excision method, showed that the anti-inflammatory activity of topical formulation based on immortelle essential oil in skin wounds is a consequence of the reduction of IL-6 and TNF-α levels. In addition, treatment with preparation based on immortelle increased the activity of IL-10, which reduces the expression of pro-inflammatory cytokines, as well as scar formation. Therefore, immortelle ointment achieved anti-inflammatory potential similar to the standard, silver sulfadiazine. Considering the concentration of inflammation markers detected in the tissue sampled at the end of the experimental period, it can be noticed that immortelle essential oil achieved the given anti-inflammatory activity in the remodeling phase. Our results are consistent with literature data, which shows the anti-inflammatory activity of immortelle essential oil. Previous research has shown that the inflammatory phase restores homeostasis, and that in the proliferative phase, fibroblasts and other cells from the connective tissue infiltrate the wound site and secrete cytokines, attract keratinocytes, and lead to re-epithelialization (26). Preventing prolonged inflammation by suppressing the production of inflammatory cytokines is a desirable target for wound healing products, whereas excessive inflammation leads to the development of chronic wounds and scarring (27). Modulation of cytokine production by topical formulations based on immortelle essential oil indicates anti-inflammatory activity, which supports the previously described results of the essential oil itself and its dominant ingredients.

Disruption of the wound healing process is also associated with oxidative stress, which occurs due to an imbalance in the generation of reactive oxygen species (ROS) and the endogenous antioxidant defense mechanism. Essential oxidants, such as ROS, are generated in various physiological processes. Their effects on the wound healing process are concentration dependent, generally showing positive effects as secondary transporters at low concentrations. However, at high concentrations they damage DNA, proteins and lipids in cells causing toxicity. In diabetic patients, oxidative stress caused by hyperglycemia adversely affects the wound healing process and accordingly, herbal products with antioxidant activity may be useful agents for re-establishing anatomical and cellular tissue continuity (28). Numerous studies have shown that at the site of skin wounds, the concentration of ROS increases and the production of antioxidants decreases, which leads to delayed wound healing (29). In the inflammatory phase, neutrophils and macrophages produce large amounts of ROS, which directly attack pathogens, but also damage healthy surrounding tissues. Inhibition of ROS production triggers angiogenesis and fibroblast proliferation, stimulating skin wound closure. The results of a three-weeks administration of topical formulation indicate that rats treated with immortelle essential oil formulation showed a significant increase in CAT and SOD activity. The increase in the activity of antioxidant protection enzymes, achieved by immortelle formulation, indicate that the reduction of oxidative stress is one of the mechanisms responsible for the achieved effects in the wound healing process.

The limitations of our investigation include the fact that biochemical analysis of the measurement of oxidative stress and inflammation parameters was conducted only on the last day of the treatment protocol. To provide comprehensive and accurate findings regarding the formulation's impact on specific phases of the healing process, these examinations should be performed at multiple time points throughout the 21-day protocol. Evaluating different time points would illuminate the varying effects of H. italicum ointment on each stage of wound healing.

The results of the six-month follow-up indicate that there were no changes in the organoleptic properties of the tested formulation, what demonstrated the stability of immortelle ointment during six months storage under room temperature conditions. Additionally, the our investigation reveal that immortelle ointment treatment accelerated the wound healing by modulating the expression of cytokines TNF-α, IL-6 and IL-10 as well as elevating the secretion of antioxidative markers.