Phytoconstituents‐loaded nanomedicines for the management of acne

Abstract Background According to epidemiological data, a large percentage (80–90%) of adolescents suffer from acne vulgaris and approximately 30% of them need treatment. Possible outcomes of the inflammatory acne lesions are acne scars which, although they can be treated in several ways, may have a negative psychological impact on social life and relationships. There are three levels of acne: mild, moderate, and severe. The main types of acne scars are atrophic and hypertrophic scars. The pathogenesis of acne scarring is still not fully understood, but several hypotheses have been proposed. Aim The aim of this review is phytoconstituents‐loaded nanomedicines for the management of acne. Materials and methods An online literature assessment was steered for the acne, phytochemical composition, and nanomedicines, types of acne, types of nanotechnology. Appropriate information were taken from different electronic scientific databases such as Web of Science, Elsevier, Science Direct, Springer, PubMed, Google Scholar, etc., Additional data was summarized from textbooks, local prints, and scripts. Results Nanotechnology‐based nanomedicines provide a great coincidence for the enhancement in the efficacy and safety of pharmaco‐therapeutic agents for acne. Discussion In this review, we discuss the phytoconstituent that are natural compounds present in plants extensively used for the anti‐acne activity. Phytochemicals target cytokine signaling pathways and thus exhibit their anti‐acne activity. We further outline the advantages of loading phytoconstituents as a drug in nanocarriers such as emulsion, niosomes, SLN, and nanocrystal for better and improved topical treatment. Conclusion This review is mainly focused on the usage of herbal nanomedicines in acne, nano delivery carriers used in the delivery of phytoconstituents with an improved therapeutic profile and reduced toxicity. In recent years, phytoconstituents showing their anti‐acne potential, and phytoconstituents‐loaded nanomedicines have high treatment potential in the management of acne.