Search Results (97)

Background/Objectives: Achillea millefolium is a well-known plant used in traditional medicine for the treatment of inflammation, gastrointestinal disorders, respiratory diseases, hypertension, and diabetes, among others. These effects are attributed to the metabolite content of flavonoids and terpenes such as achillin (1) and leucodin (2). Thus, the current investigation aims to standardize the extracts from A. millefollium based on the presence of 1 and 2 and relate them to their relaxant effect in ex vivo assays. Methods: A validated High-Performance Liquid Chromatography (HPLC) method was used to determine the concentration of the main compounds, employing standard molecules previously isolated from the same species and characterized by nuclear magnetic resonance (NMR) and X-ray diffraction. Also, the relaxant effects of both compounds and their combinations were assayed on aortic and tracheal rat rings in an organ bath. Results: Compounds (1) and (2) are the main compounds in hexane, dichloromethane, and hydroalcoholic extracts, present in different proportions. The relaxant effects in ex vivo models of the aorta and trachea showed that the sesquiterpene lactones achillin (1) [Trachea, maximum effect (Emax): 67.67 ± 5.01%, medium effective concentration (EC50): 304.44 ± 2.61 µM; Aorta: Emax: 63.94 ± 6.28%, EC50: 225.73 ± 4.49 µM)] and leucodin (2) (Trachea: Emax: 76.71 ± 4.73%, EC50: 266.40 ± 2.05 µM; Aorta, Emax: 72.96 ± 1.73%, EC50: 163.29 ± 2.99 µM) are responsible for the relaxant effects shown by the extracts. The observed effect is proportional to the concentration of these molecules, with hexane extracts being more active. Additionally, we demonstrate the safety of molecules 1 and 2 through toxicological studies recommended by the OECD. Conclusions: The isolated compounds achillin and leucodin are the primary constituents in the flowers of A. millefolium, with higher concentrations found in hexane extracts, particularly of achillin, which shows a correlation of 2.33 with respect to leucodin. This correlation is closely related to their relaxant effect, as these compounds are the main contributors to the relaxant response in the trachea and aorta, being more effective when used together. Full article

Plant-derived corrosion inhibitors are increasingly investigated due to their rich content of adsorption-active phytochemicals. Four extracts obtained from Achillea millefolium were biochemically characterized through spectrophotometric and chromatographic analyses, confirming a substantial polyphenolic content and associated antioxidant capacity. In addition, the hydroethanolic extract (1:1) was examined for its ability to inhibit the corrosion of S235 mild steel in 1 M HCl and neutral medium of 3.5% NaCl by gravimetry, potentiodynamic polarization, open-circuit potential, and electrochemical impedance spectroscopy methods, suggesting that its antioxidant molecules may contribute to the passivation of the metal surface, but in different mechanistic ways. The inhibitory efficiency determined by both the gravimetric method and the Taffel polarization curve method reaches values of 78.53% in HCl 1 M and of 79.65% in NaCl 3.5%, thus demonstrating the contribution of polyphenols from the Achillea millefolium extracts to the inhibition of corrosion. Full article

Background/Objectives: Achillea millefolium is a well-known medicinal plant recognized in several pharmacopeias, while the Balkan endemic species Achillea clypeolata lacks a pharmacopeial monograph and remains insufficiently studied despite its traditional use. This study aimed to comparatively evaluate the phytochemical composition and biological potential of both species. Methods: Chemical composition was studied using UHPLC-MS/MS, HPLC, and FT-IR; anti-inflammatory potential was analyzed by erythrocyte membrane stabilization assay (heat- and hypotonicity-induced hemolysis); and enzyme-inhibitory activity was tested against collagenase, elastase, hyaluronidase, and tyrosinase. In addition, antioxidant activity was evaluated using DPPH, ABTS, and DCFDA assays; antimicrobial activity was determined using the broth microdilution method; and cytotoxic potential was investigated by the MTT assay. Results: The major constituents in water–ethanolic extracts were quinic acid derivatives, flavonoids, phenolic acids, and coumarins, with chlorogenic acid, 3,5-dicaffeoylquinic acid, cosmosiin, cynaroside, rutin, and hyperoside as dominant in both species. Extracts exhibited marked anti-inflammatory activity, where A. millefolium provided greater protection under heat-induced hemolysis, and both extracts showed comparable efficacy under osmotic stress. Concentration-dependent inhibition of collagenase, elastase, hyaluronidase, and tyrosinase (concentration from 62.5 to 1000 µg/mL), along with significant antioxidant activity in ABTS and DPPH assays, was observed. In MRC-5 cells, the extracts reduced AAPH-induced ROS levels up to 50 µg/mL, while higher concentrations showed diminished effects. Moderate cytotoxicity was observed, with A. clypeolata displaying stronger effects at 50–100 µg/mL. Both Achillea species exhibited broad-spectrum antimicrobial activity, with pronounced effects against Gram-positive bacteria. Conclusions: The results support the traditional use of Achillea species and highlight A. clypeolata as a promising, yet underexplored, source of bioactive compounds for dermatological and pharmaceutical applications. Full article

Wound-associated infections persist as a major global health concern, particularly in the context of increasing antimicrobial resistance and reduced efficacy of conventional therapies. Essential oils (EOs) obtained from medicinal plants represent promising alternatives due to their antimicrobial and wound-healing properties. This study evaluated the chemical composition, antimicrobial activity, and interaction effects of Hypericum perforatum (HP) and Achillea millefolium (AM) EOs, tested individually and in fixed-ratio combinations. Chemical profiling by GC–MS revealed that HP EO is dominated by caryophyllene (20.74%) and β-thujone (18.47%), while AM EO is characterized by aromadendrene (19.12%), caryophyllene (12.97%), and chamazulene (10.13%). Antimicrobial activity was assessed against wound-associated microorganisms using MIC and MBC/MFC assays, and interactions were assessed by the fractional inhibitory concentration index (FICI) and heatmap analysis. The results displayed higher susceptibility of Gram-positive bacteria, particularly Staphylococcus epidermidis, with MIC values as low as 0.56 µL/mL in EO combinations. Synergistic effects were observed exclusively for S. epidermidis in mixtures enriched in HP EO (60:40 and 70:30; FICI = 0.34), while Gram-negative bacteria and Candida albicans exhibited predominantly indifferent responses. These findings indicate that optimized EO combinations may enhance antimicrobial efficacy and support their potential application in wound management. Full article

The aim of this study was to analyze the composition and dual beneficial and toxic effects of Achillea millefolium L., Mentha longifolia L., and Thymus serpyllum L. extracts. The phenolic profile, total phenolic content (TPC), antioxidant activity, and drosopterin eye content (DEC) were determined by modern methods. The viability and developmental time of D. melanogaster were assessed by a diet-dependent viability test. The results show that the phenolic profile varied depending on the extract type and plant species. The TPC ranged between 5.32 and 29.32 mg GAE/g dry weight. All the plant extracts exert antioxidant effect in the applied in vitro tests. In the case of D. melanogaster fed with a normal diet supplement with different concentrations of the plant A. millefolium L. extract, a biphasic effect was observed. A more complex effect was recorded for the M. longifolia L. and T. serpyllum L. extracts. On a high-sugar diet, all the extracts were toxic. All the plant extracts in tested concentrations influenced the DEC, suggesting an impact on gene expression. This study contributes to the expanding knowledge about the beneficial and toxic effects of local medicinal plants, suggesting the need for future studies to elucidate the appropriate use of natural products in therapy. Full article

In this study, we investigated the antifungal potential of methanolic extracts and essential oils obtained from five medicinal plants (Salvadora persica, Mentha spicata, Achillea millefolium, Matricaria chamomilla, and Zingiber officinale) against 25 clinical isolates of Candida albicans collected from patients with denture stomatitis. Antifungal susceptibility was assessed using broth microdilution as the primary method, with agar diffusion assays performed to provide complementary visual confirmation. Nystatin was included as a reference control. Across the tested samples, essential oils consistently showed stronger antifungal effects than the corresponding methanolic extracts. Notably, Z. officinale essential oil exhibited the highest level of activity, inhibiting 15 out of 25 isolates and, in several cases, demonstrating efficacy comparable to or exceeding that of nystatin. Chemical profiling by GC–MS indicated that the ginger essential oil was dominated by sesquiterpene and monoterpene hydrocarbons, with zingiberene (21.49%) being the major constituent, followed by β-sesquiphellandrene, α-curcumene, sabinene, and α-citral. This terpene-rich composition may contribute to the observed antifungal activity, potentially through the disruption of fungal cell membrane integrity. Taken together, these results suggest that Z. officinale essential oil represents a promising natural antifungal candidate for the management of denture-associated C. albicans infections. Further studies, including biofilm-based assays and in vivo evaluations, will be necessary to confirm its clinical applicability. To the best of our knowledge, this study is among the first to comparatively assess these five medicinal plants against clinical C. albicans isolates derived specifically from denture stomatitis patients. Full article

This study investigates the influence of agronomic management on the accumulation of bioactive compounds and the antioxidant capacity of Achillea millefolium L., a medicinal species of increasing relevance for pharmaceutical and nutraceutical applications. Different cultivation strategies were applied, including controlled drought stress, foliar fertilization, and inoculation with plant growth–promoting rhizobacteria (PGPR), in order to evaluate their impact on tissue-specific metabolic responses. The total antioxidant capacity (TAC) of flowers and roots was determined using FRAP, DPPH, and ABTS spectrophotometric assays, while metabolite profiling was performed by UHPLC–MS/MS analysis. Clear differences in antioxidant activity were observed among plant organs and cultivation treatments. Flower extracts showed intermediate antioxidant capacity, with FRAP values ranging from 55.86 to 66.55 mg TE g⁻¹ extract and the highest activity consistently recorded for treatment F_010 (addition of K, P fertilizers under water stress conditions and PGPR absence) across all assays. Root extracts exhibited substantially lower antioxidant values (FRAP 19.40–33.69 mg TE g⁻¹), although samples R_000 (no foliar fertilization, under water stress conditions and PGPR absence) and R_100 (no foliar fertilization, under water stress conditions and presence of PGPR) displayed comparatively higher radical scavenging activity. Metabolic profiling revealed a shared presence of caffeic acid derivatives and flavonoids, including mono- and di-caffeoylquinic acids and apigenin-related compounds, with marked quantitative differences among tissues. Overall, the results demonstrate that agronomic practices significantly influence the accumulation and distribution of antioxidant metabolites in A. millefolium L., highlighting the importance of cultivation strategies for optimizing the production of bioactive phytochemicals. Full article

Medicinal plants represent important sources of bioactive compounds with beneficial effects on human health. However, many medicinal species are ruderal plants capable of growing in soils with elevated contents of potentially toxic elements (PTEs) such as Cd, Pb, and Zn. In addition to the potential accumulation of PTEs in plant biomass, the response of the plant metabolome—including bioactive substances with beneficial health effects—to elevated PTE levels in plants should also be considered. The potential impact of soil PTEs on the plant metabolome was investigated in three widely used medicinal plants, Taraxacum sp., Achillea millefolium, and Hypericum maculatum, sampled in an area polluted with PTEs. The total soil contents of the PTEs ranged between 7.7 and 65 mg/kg for Cd, 1541 and 3897 mg/kg for Pb, and 245 and 6553 mg/kg for Zn. A qualitative analysis of the whole plant metabolomes of the three plant species indicated close interrelationships between the selected metals and bioactive substances. Subsequently, a model pot experiment was conducted in which Taraxacum sp. plants were cultivated in three soils with stepwise increasing Cd, Pb, and Zn contents, and selected bioactive compounds were quantified. The results showed a decrease in the concentrations of some phenolic compounds in the aboveground parts of Taraxacum sp. grown in extremely polluted soil, supporting the hypothesis that stress induced by PTEs may affect the metabolic pathways of these compounds. In contrast, higher levels of phenolic compounds were observed in Taraxacum sp. roots grown in moderately contaminated soil, suggesting that milder soil contamination may activate defence mechanisms and stimulate phenolic metabolism. However, although the contents of bioactive compounds in plants indicate an improvement of the quality of these medicinal plants, the elevated element contents in the plant biomass can represent a potential risk for consumers. Full article

In greenhouse systems, secondary plants are used to attract and support the multiplication of beneficial arthropods, thereby improving biological control. Three plants were selected for this study: alyssum (Lobularia maritima (L.) Desv.), yarrow (Achillea millefolium L.), and dill (Anethum graveolens L.). This study was performed in two years, 2021 and 2025, and focused on Orius laevigatus (Fieber) (Hemiptera, Anthocoridae), one of the most important predators of Thysanoptera pests in greenhouse crops. Four ornamental crops (carnation, sweet William, statice, and gerbera daisy) were included to analyse the movement and installation of the predator. Alyssum and yarrow housed O. laevigatus in both years (total mean values per sampling date of 3.0 ± 1.3 and 2.7 ± 1.0 on alyssum and 7.0 ± 2.8 and 1.8 ± 0.8 on yarrow in 2021 and 2025, respectively), increasing its population in the greenhouse. Dill was unsuitable for sustaining predator populations and attracted additional potential pests. Its short flowering period and rapid decline further limited its usefulness. Orius laevigatus adults did not show great mobility during the study and had small populations among the ornamental crops in the greenhouse. Ornamental plant statice (Limonium sinuatum (L.) Mill.) had the highest predator population. The interest of the secondary plants is discussed, highlighting their potential for biological control in greenhouses. Full article

Objective: This study aimed to design and clinically evaluate a bespoke cosmetic formulation tailored to individual skin characteristics and user preferences, focusing on hydration and barrier recovery in mature, therapy-affected skin. In addition, this study aimed to explore the feasibility and short-term outcomes of a structured, biometry-driven personalization approach applied within a single-subject case study design. Materials and Methods: A personalized dermato-cosmetic formulation incorporating melatonin, astaxanthin, low-molecular-weight hyaluronic acid, allantoin, yarrow oil (Achillea millefolium), lecithin, cholesterol, and arginine was developed based on objective biophysical assessment of the skin. A clinical case evaluation was conducted in a male subject over 55 years of age (Fitzpatrick phototype III) presenting persistent xerosis and dehydration following completed oncologic therapy. Quantitative skin biometry was performed at baseline and after 28 days of daily application, assessing hydration at six anatomical sites, sebum secretion, pigmentation and erythema indices, elasticity, and stratum corneum turnover and scaling. Results: After 28 days, sebum secretion increased by more than 100%, indicating partial restoration of the lipid barrier. Hyperpigmented areas decreased from 7.2% to 2.3%, while skin elasticity improved from 25% to 44%. A reduction of 8% in the erythema index suggested decreased vascular reactivity. Hydration levels improved consistently across all evaluated sites, and epidermal renewal was enhanced, as evidenced by reduced scaling and smoother skin surface. The melanin index remained stable throughout the study period. Conclusions: This pilot evaluation shows that bespoke cosmetic formulations, customized to individual skin biometry and preferences, can yield measurable improvements in hydration, barrier repair, elasticity, pigmentation uniformity, and epidermal renewal within 28 days, even in skin compromised by previous oncologic therapy. Given the single-subject nature of this pilot evaluation, these findings cannot be generalized to broader populations but rather highlight the importance of personalization and objective skin assessment in guiding individualized dermato-cosmetic formulation strategies. Personalized dermato-cosmetology using objective biophysical assessment may be a promising future strategy for effective, consumer-centered skincare. Full article

Oregano (Origanum vulgare L.), basil (Ocimum basilicum L.), rosemary (Rosmarinus officinalis L.), yarrow (Achillea millefolium L.), and thyme (Thymus vulgaris L.) are aromatic medicinal plants rich in bioactive volatile compounds with antioxidant, antimicrobial, and anti-inflammatory properties. This study presents a simple, solvent-free, and eco-friendly headspace GC-MS method for VOC profiling. Optimized thermal pretreatment (40–90 °C) enhanced compound detection, particularly at 70–90 °C, without loss of reproducibility. The approach lowers analytical costs and waste generation, supporting green analytical practices and the sustainable valorization of medicinal herbs as natural functional ingredients. Full article

The agar diffusion method was used to test the antibacterial activity of 12 plant species against Agrobacterium tumefaciens, the bacterium that is responsible for crown gall disease. Leaf, root, or flower extracts were prepared, but not all parts were used for each of the 12 plants listed. Plant extracts from leaves exhibited higher antibacterial activity than those from flowers and roots. Furthermore, the type of solvent had a significant influence on both the antibacterial activity and the flavonoid and polyphenol content. Acetone and alcohol extracts contained higher contents of these compounds than water extracts. The strongest bacteriostatic effect was of the leaf extracts of eucalyptus (Eucalyptus nicholii L.) and St. John’s wort (Hypericum perforatum L.). Based on HPTLC analysis, eucalyptus extracts contained, among others, chlorogenic acid, hyperoside, and quercetin, while St. John’s wort extracts contained rutin, hyperoside, and quercetin. The tansy leaf extracts (Tanacetum vulgare L.) were also rich in flavonoids and phenolic acids, such as kaempferol-3-glucoside, luteolin, chlorogenic acid, cynarine, and rutin. However, a moderate inhibitory effect against the tested bacterium was found in tansy extracts, as well as hop (Humulus lupulus L.), wormwood (Artemisia absinthium L.), peppermint (Mentha piperita L.), yarrow (Achillea millefolium L.), and nettle (Urtica dioica L.) extracts. The least effective were the root extracts of dandelion (Taraxacum officinale F.H. Wiggers coll.) and valerian (Valeriana officinalis L.), as well as the flower extracts of chamomile (Matricaria chamomilla L.) and marigold (Calendula officinalis L.). Given the lack of effective chemical products and the unavailability of commercially resistant cultivars, the use of plant-based extracts for protecting against crown gall appears to be of particular interest. The preliminary results are promising and suggest that eucalyptus and St. John’s wort extracts are the most promising for controlling A. tumefaciens. Full article

Synthetic anthelmintic drugs not only contribute to the development of pathogen resistance and environmental pollution but also to the development of pathogen resistance. Therefore, identifying the anthelmintic properties of widely used medicinal plants could be of great practical interest to veterinary and human medicine. In our experiment, we evaluated the in vitro survivability of the noninvasive and invasive (L_1–2 and L_3, respectively) larvae of Strongyloides papillosus and Haemonchus contortus subject to aqueous solutions of ethanolic tinctures of traditional medicinal plants (46 species). Most of the plant species we studied belonged to the families Asteraceae (Achillea millefolium, Arctium lappa, Artemisia absinthium, Bidens tripartita, Calendula officinalis, Cynara cardunculus var. scolymus, Echinacea purpurea, Helichrysum arenarium, Inula helenium, Matricaria chamomilla, Silybum marianum, Tanacetum vulgare, Taraxacum officinale, Tragopogon porrifolius), Rosaceae (Agrimonia eupatoria, Fragaria vesca, Sanguisorba officinalis), and Lamiaceae (Leonurus cardiaca, Mentha × piperita, Origanum vulgare, Salvia officinalis, Thymus vulgaris). Other plant families were represented by 1–3 species: Fabaceae (Glycyrrhiza glabra, Hedysarum alpinum, Trifolium pratense), Salicaceae (Populus nigra, P. tremula, Salix alba), Fagaceae (Quercus robur), Betulaceae (Betula pendula), Juglandaceae (Juglans regia), Rhamnaceae (Frangula alnus), Acoraceae (Acorus calamus), Apiaceae (Foeniculum vulgare), Caprifoliaceae (Valeriana officinalis), Cucurbitaceae (Cucurbita pepo), Equisetaceae (Equisetum arvense), Ericaceae (Vaccinium vitis-idaea), Gentianaceae (Centaurium erythraea), Hypericaceae (Hypericum perforatum), Malvaceae (Althaea officinalis), Plantaginaceae (Linaria vulgaris, Plantago major), Poaceae (Zea mays), Polygonaceae (Polygonum aviculare), and Ranunculaceae (Nigella sativa). We determined Artemisia absinthium, Inula helenium, Matricaria chamomilla, Salvia officinalis, and Populus nigra, whose aqueous solutions of alcohol tinctures demonstrated nematocidal properties. The other plants we studied did not affect the viability of parasitic nematode larvae. Full article

Numerous ingredients in trichological shampoos are advertised as “active against hair loss”; however, the body of evidence behind such claims seems very limited or, in many cases, nonexistent. The aim of this study was to compile an inventory of substances advertised by shampoo manufacturers as “active” against hair loss and systematically review available evidence from clinical trials that would corroborate such claims. We screened declared compositions of trichological shampoos for ingredients advertised as active against hair loss or promoting hair growth. The second step was a systematic review of clinical trials of these substances used topically in the treatment of hair loss. A query in PubMed, Scopus, and Web of Science followed PRISMA and PICO guidelines with the strength of evidence assessed according to GRADE guidelines. We identified 43 trichological shampoos in which 112 individual ingredients were advertised as “active”. Of these, 36 ingredients were indicated as “active” in at least two shampoos and were subject to further study. In the search for evidence, 103,639 articles were screened for relevant information. Ultimately, we identified 29 clinical trials that tested 16 of the 36 ingredients for efficacy against hair loss. Only four ingredients were tested individually: adenosine (four trials; highest strength of evidence: moderate), caffeine (four trials; moderate), placental protein (two trials; low), and melatonin (one trial; moderate). Another 12 ingredients of interest were only tested as parts of complex preparations: Achillea millefolium extract, arginine, biotin, hydrolyzed wheat protein, hydrolyzed soy protein, Panax ginseng, panthenol, piroctone olamine, Prunus amygdalus dulcis, Rosmarinus officinalis, Serenoa serrulata, and Urtica dioica. Such a study design made it impossible to attribute the observed effects to any specific ingredient. No clinical trials of efficacy could be found for the remaining 20 (55.6%) substances repeatedly cited as “active”. At the present stage, scientific evidence for efficacy against hair loss is available only for caffeine, adenosine, placental proteins, and melatonin, but the overall strength of evidence is low. Moreover, a substantial majority of topical ingredients promoted as “active against hair loss” were never actually tested in clinical trials to verify such claims. While unsubstantiated claims of supposed beneficial properties often refer to alleged scientific evidence, there are major gaps to be filled in the field of non-prescription treatments for hair loss. Full article

Skin aging, including photoaging, is primarily triggered by chronic exposure to solar radiation, which induces free radical formation, cellular deoxyribonucleic acid (DNA) damage, and structural skin alterations. Achillea millefolium L. (Asteraceae) is rich in phenolic compounds and alkamides, substances known for their antioxidant activity. This study aimed to develop and characterize a photoprotective phytocosmetic nanoemulsion containing crude root extract of A. millefolium. The extract exhibited a total phenolic content of 3.067 ± 1.911 µg GAE/mL, potent antioxidant activity (EC₅₀ = 69.11 ± 8.899 µg/mL), moderate tyrosinase inhibition (19 ± 1.8%), and no cytotoxicity in keratinocytes. The extract was incorporated into nanoemulsions at concentrations of 0.1%, 0.5%, and 1%. The resulting droplets showed mean diameters of 217 to 230 nm, with a significant increase in the polydispersity index (PDI) after extract addition (p < 0.05). Transmission electron microscopy (TEM) confirmed the spherical morphology of the droplets. The in vitro sun protection factor (SPF) was 14 ± 0.9 in the control formulation and increased to 15 ± 2.0 (0.1%), 22 ± 5.2 (0.5%), and 17 ± 1.0 (1%), suggesting a synergistic effect between the extract and chemical filters. All formulations demonstrated UVA/UVB ratio > 0.6, a pH near to 5, occlusive properties, and good spreadability. The results indicate that A. millefolium extract holds potential for safe photoprotective formulations, offering a valuable antioxidant and depigmenting activity in addition to enhancing the SPF. This position is an innovative alternative to phytocosmetic development. Full article