ABSTRACT
Dermal wound healing describes the progressive repair and recalcitrant mechanism of 12 damaged skin, and eventually, reformatting and reshaping the skin. Many probiotics, nutritional supplements, metal nanoparticles, composites, skin constructs, polymers, and so forth have been associated with the improved healing process of wounds. The exact mechanism of material-cellular interaction is a point of immense importance, particularly in pathological conditions such as diabetes. Bioengineered alternative agents will likely continue to dominate the outpatient and perioperative management of chronic, recalcitrant wounds as new products continue to cut costs and improve the wound healing process. This review article provides an update on the various remedies with confirmed wound healing activities of metal-based nanoceutical adjuvanted agents and also other nano-based counterparts from previous experiments conducted by various researchers.
Subject(s)
Adjuvants, Pharmaceutic/therapeutic use , Nanomedicine/trends , Nanoparticles/therapeutic use , Wound Healing/drug effects , Anti-Infective Agents, Local/therapeutic use , Bandages , Biocompatible Materials , Humans , Hydrogels , Neovascularization, Physiologic , Phytotherapy , Re-Epithelialization , Regeneration , Skin/immunology , Skin/injuries , Skin/pathology , Skin Physiological Phenomena , Skin Transplantation , Wound Closure Techniques , Wound Infection/prevention & controlABSTRACT
Emulsion formulations of essential oils are of major interest due to their relative biosafety, biocompatibility and good pharmacological potential. Their structural constituents (oil and water phase) facilitate ready solubilization of incorporated hydrophilic/lipophilic actives for their targeted delivery. In the present study, m5S cells were tested for their viability at various concentrations of clove oil and an alkyl polyglucoside emulsifier, viz., Montanov 202™. Thereafter, good cell viable concentrations of oil (10 %) and emulsifier (4%) were used at their optimised ratio (1:0.4) to formulate an oil in water emulsion using phase inversion technique followed by ultrasonication for particle size reduction. Gas chromatography-mass spectrometry (GC-MS) analysis of clove oil revealed eugenol (76.11 %) and eugenyl acetate (12.41 %) as major constituents. The formulated clove oil emulsion was then characterised with respect to its size, zeta potential, microscopic and thermal analysis and the presence of liquid crystals were observed in the same. It was further studied for its anti-inflammatory potential in female Wistar rats wherein topical treatment with the emulsion inhibited paw swelling induced by carrageenan model by 40-60% over 30-180â¯min compared to untreated animals. Similarly, the emulsion's wound healing potential was also significant with respect to wounds induced by both incision (wound breaking strength of 338.91⯱â¯5.02â¯g) and excision (95 % wound contraction by 16th day) model in these animals, with a re-epithelization period of 10.67⯱â¯1.67 days and results being comparable with diclofenac gel and neomycin cream (positive controls). Histopathology of the skin sections showed accelerated healing with early granular tissue and collagen formation in emulsion treated animals. It is hence envisaged that this clove oil emulsion can substitute chemical based topical products for anti-inflammatory and wound healing applications due to its biological constituents as well as because of the presence of liquid crystals in its formulation.
Subject(s)
Anti-Inflammatory Agents, Non-Steroidal/pharmacology , Edema/drug therapy , Wound Healing/drug effects , Animals , Anti-Inflammatory Agents, Non-Steroidal/administration & dosage , Anti-Inflammatory Agents, Non-Steroidal/chemistry , Carrageenan , Cell Proliferation/drug effects , Cell Survival/drug effects , Cells, Cultured , Clove Oil/administration & dosage , Clove Oil/chemistry , Clove Oil/pharmacology , Edema/chemically induced , Emulsions/chemistry , Emulsions/pharmacology , Female , Mice , Oxidative Stress/drug effects , Particle Size , Rats , Rats, Wistar , Surface PropertiesABSTRACT
BACKGROUND: Green formulations with herbal oils and natural nonionic emulsifiers project several advantages, like favorable viscosity profiles, for use as topical applicants. Their inherent constituents also protect the skin against free radical damage and lipid peroxidation. They may hence serve as alternatives for synthetic chemical-based formulations. OBJECTIVE: Formulation and characterization of Helianthus annuus-alkyl polyglucoside cream for topical application has been attempted. Its inherent sun protection factor has been measured and compared with a similar commercial formulation. It is well known that the internal network of liquid crystals of such emulsifiers can store depot water to maintain moisturization for long time, thus bestowing beneficial dermatological effects. METHODS: Physicochemical characterization of the oil was done. The formulation process for the cream was optimized for reduced particle size with respect to ultrasonication conditions. It was characterized extensively; its inherent sun protection factor was measured and compared with a similar commercial cream. RESULTS: The cream was smooth, creamy, and showed non-Newtonian thixotropic behavior and good shear-thinning features with an SPF of 6.3 that compared favorably with a similar commercial cream. CONCLUSIONS: The cream may serve as a good topical applicant and also help in skin hydration due to the inherent nature of the emulsifier. It may protect against UV radiations due to the antioxidant and anti-inflammatory nature of the natural oil constituents. It may be used as a low-SPF formulation.