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Krishna Foundation Jaywant Institute of Pharmacy Wathar Maharashtra, India
Ultraviolet radiation is a major environmental factor responsible for acute and chronic skin damage, including erythema, photoaging, immunosuppression, and carcinogenesis. Continuous exposure to UVA and UVB radiation induces oxidative stress through reactive oxygen species generation, leading to cellular and molecular alterations in skin tissues. Conventional synthetic sunscreens, though effective, have raised concerns regarding skin irritation, hormonal disruption, and environmental toxicity, particularly their impact on marine ecosystems. These limitations have driven increasing interest toward herbal sunscreen formulations that utilize plant derived bioactive compounds with inherent photoprotective and antioxidant properties.Herbal sunscreen lotions are formulated using phytoconstituents such as flavonoids, polyphenols, carotenoids, and tannins, which possess the ability to absorb ultraviolet radiation and neutralize free radicals. The formulation process involves careful selection of excipients, optimization of emulsification techniques, and stability considerations to ensure product efficacy and safety. Evaluation parameters include physical, chemical, microbiological, and biological assessments, along with in vitro and in vivo determination of Sun Protection Factor. Regulatory frameworks governing herbal sunscreens vary across regions, with classification as cosmetic or drug products depending on their claims and composition. Authorities such as CDSCO, US FDA, and EMA impose guidelines for safety, efficacy, labeling, and quality control. Despite challenges such as variability in herbal extracts and lower SPF values, advancements in nanotechnology and delivery systems offer promising solutions. Herbal sunscreens represent a sustainable and biocompatible alternative with significant future potential in dermatological and cosmetic applications.
Solar radiation reaching the earth’s surface consists primarily of ultraviolet A radiation with wavelengths ranging from 320 to 400 nm and ultraviolet B radiation ranging from 290 to 320 nm, while ultraviolet C radiation between 100 and 290 nm is largely absorbed by the atmospheric ozone layer and does not significantly reach the skin surface (1). Among these, ultraviolet A penetrates deeply into the dermis and is primarily responsible for photoaging and oxidative damage, whereas ultraviolet B mainly affects the epidermis and induces erythema, sunburn, and direct DNA damage leading to mutagenesis and carcinogenesis (2). Prolonged exposure to ultraviolet radiation results in cumulative skin damage characterized by collagen degradation, elastin fiber disruption, pigmentation disorders, and increased risk of non-melanoma and melanoma skin cancers (3). The underlying mechanism of ultraviolet induced skin damage involves the generation of reactive oxygen species, which initiate lipid peroxidation, protein oxidation, and nucleic acid damage. These processes activate signaling pathways such as nuclear factor kappa B and activator protein one, leading to inflammation, immunosuppression, and premature aging of the skin (4). Therefore, photoprotection has become an essential component of dermatological care and cosmetic science. Synthetic sunscreen agents, including organic ultraviolet filters such as oxybenzone and avobenzone and inorganic filters like titanium dioxide and zinc oxide, have been widely used due to their high sun protection factor and broad-spectrum coverage. However, concerns have been raised regarding their potential adverse effects, including skin irritation, allergic reactions, endocrine disruption, and environmental hazards such as coral reef bleaching (5). These limitations have prompted the exploration of safer and eco-friendly alternatives. Herbal sunscreens, formulated using plant derived bioactive compounds, have gained considerable attention due to their natural origin, biocompatibility, and multifunctional properties. Phytoconstituents such as flavonoids, polyphenols, tannins, and carotenoids exhibit significant ultraviolet absorption and antioxidant activity, thereby providing effective photoprotection while minimizing adverse effects (6). Additionally, many herbal ingredients possess anti-inflammatory, antimicrobial, and skin nourishing properties, enhancing their suitability for topical applications. The formulation of herbal sunscreen lotions requires a systematic approach involving the selection of appropriate plant extracts, optimization of excipients, and evaluation of physicochemical and biological parameters to ensure stability, efficacy, and safety. Despite promising advantages, challenges such as variability in plant sources, standardization of active constituents, and comparatively lower sun protection factor values must be addressed through advanced formulation strategies and scientific validation (7). The present review aims to provide a comprehensive overview of herbal sunscreen lotions, focusing on their formulation approaches, evaluation techniques, and regulatory status. It also highlights the scientific basis of photoprotection offered by herbal agents and discusses recent advancements and future perspectives in the development of safe and effective natural sunscreen products.
Mrunali Patil*, Krunal Sabale, Sahil Prajapati, Prathamesh Salunkhe, Shital Jadhav, Bhagyesh Janugade, A Comprehensive Review on Herbal Sunscreen Lotions: Formulation Approaches, Evaluation Methods, and Regulatory Status, Int. J. Sci. R. Tech., 2026, 3 (4), 111-122. https://doi.org/10.5281/zenodo.19393816
10.5281/zenodo.19393816