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Prinsepia utilis Royle, widely recognized in Chinese and Indian traditional medicine, has attracted significant interest in the realms of phytochemistry and bioactivity research. This deciduous shrub from the Rosaceae family thrives in the Himalayan region at altitudes between 1000 and 3000 meters. The current paper aims to consolidate existing knowledge on P. utilis, providing an updated database of its phytochemical constituents and related bioactivities. Investigations have revealed a wealth of secondary metabolites, including alkaloids, flavonoids, phenolics, and terpenoids. Research has shown that extracts, fractions, and isolated compounds of P. utilis exhibit notable antioxidant, anti‐inflammatory, antimicrobial, enzymatic inhibitory, immunosuppressive, and cytotoxic properties. In vivo studies confirm its traditional uses, demonstrating anti‐inflammatory, anti‐benign prostatic hyperplasia, osteoprotective, and hypoglycemic effects. Effective formulations using P. utilis extract have been developed for atrophic dermatitis and acne vulgaris. These findings underscore the plant's potential as a source of new therapeutic agents and functional additives. Nonetheless, further research is essential to advance pharmacological assessments, clinical trials, and sustainable cultivation methods to fully harness its pharmaceutical and industrial applications.
Prinsepia utilis Royle, widely recognized in Chinese and Indian traditional medicine, has attracted significant interest in the realms of phytochemistry and bioactivity research. This deciduous shrub from the Rosaceae family thrives in the Himalayan region at altitudes between 1000 and 3000 meters. The current paper aims to consolidate existing knowledge on P. utilis, providing an updated database of its phytochemical constituents and related bioactivities. Investigations have revealed a wealth of secondary metabolites, including alkaloids, flavonoids, phenolics, and terpenoids. Research has shown that extracts, fractions, and isolated compounds of P. utilis exhibit notable antioxidant, anti‐inflammatory, antimicrobial, enzymatic inhibitory, immunosuppressive, and cytotoxic properties. In vivo studies confirm its traditional uses, demonstrating anti‐inflammatory, anti‐benign prostatic hyperplasia, osteoprotective, and hypoglycemic effects. Effective formulations using P. utilis extract have been developed for atrophic dermatitis and acne vulgaris. These findings underscore the plant's potential as a source of new therapeutic agents and functional additives. Nonetheless, further research is essential to advance pharmacological assessments, clinical trials, and sustainable cultivation methods to fully harness its pharmaceutical and industrial applications.
BackgroundMontrichardia linifera (Arruda) Schott is popularly known as “aninga,” “aningaçu,” “aningaíba,” and “aninga-do-igapó.” Compresses and plasters made from the leaves of this medicinal plant are used to treat abscesses, tumors, and pain caused by stingray stings.Aim of the studyThis study aimed to chemically characterize the methanolic extract of M. linifera leaves (MEMLL), as well as to verify their acute oral toxicity and antinociceptive potential.Materials and methodsThe leaves were collected during the rainy season, and the methanolic extract was obtained after gradient extraction using different solvents. MEMLL was analyzed using high-performance liquid chromatography (HPLC) and nuclear magnetic resonance (NMR). Acute oral toxicity testing followed the Organization for Economic Co-operation and Development (OECD) guideline 423. Subsequently, acetic acid, hot plate, and formalin tests were used to evaluate the analgesic effects.ResultsIn the chemical characterization of MEMLL by HPLC, three flavonoids were identified: rutin, quercetin, and epicatechin. In addition, when NMR spectroscopy was performed, rutin and quercetin were again identified, as well as the chemical compounds luteolin and chrysoeriol. In the acute oral toxicity test, MEMLL showed no physiological or behavioral changes. In the nociceptive study, MEMLL showed an effect at doses of 50 and 100 mg/kg in the 0.6% acetic acid test, i.e., 51.46% and 75.08%, respectively. In the hot plate test, the MEMLL group at a dose of 50 mg/kg was effective at times of 30 and 60 min, i.e., 164.43% and 122.95%, respectively. Similarly, the MEMLL group at a dose of 100 mg/kg was also effective in increasing latency at times of 30 and 60 min, i.e., 162.62% and 136.68%, respectively. In the formalin test, MEMLL showed an antinociceptive effect on neurogenic pain at doses of 50 and 100 mg/kg when compared to the control group, 35.25% and 52.30%, respectively. In the inflammatory phase, inhibition was observed in the MEMLL at doses of 50 and 100 mg/kg, i.e., 66.39% and 72.15%, respectively.ConclusionMEMLL has analgesic properties and is non-toxic, validating the Brazilian ethnopharmacological use of this plant for pain treatment. The leaves of the species M. linifera showed central and peripheral antinociceptive effects.
Air pollution significantly impacts cardiovascular health, yet pollution reduction strategies in cardiovascular disease prevention remain limited. Dietary flavonoids show promise in protecting cardiovascular health, but their potential to mitigate air-pollution-induced risks is unexplored. This study investigates this research gap. Following PRISMA-ScR guidelines, literature from 2014–2024 was searched across MedLine/PubMed, ScienceDirect, and MDPI databases. Of 463 identified studies, 53 were eligible for analysis based on PICO criteria. Findings revealed significant impacts of air pollution on cardiovascular health, including increased disease risks and mortality. Flavonoid intake demonstrated protective effects against these risks. Flavonoid mechanisms include improved endothelial function, antioxidant and anti-inflammatory effects, blood pressure regulation, antiplatelet effects, cardioprotection, and enhanced lipid and glucose metabolism. Higher flavonoid intake was consistently associated with reduced cardiovascular risks. While reducing pollution remains crucial, promoting flavonoid-rich diets is a promising complementary strategy. Public health initiatives should raise awareness about these benefits. Further research on direct interactions between flavonoid intake and air pollution exposure is needed. Current evidence supports integrating dietary interventions into broader strategies to reduce air pollution’s cardiovascular impacts.
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