Search Results (1,391)

Background: The use of plant-derived agents is a common approach in integrative care for respiratory conditions. However, the evidence of clinical trials has not yet been comprehensively presented. Aim: To summarize the antibacterial, antiviral, immunomodulatory, antioxidant, and expectorant properties of Echinacea spp., Pelargonium sidoides, Hedera helix, Thymus vulgaris, Althaea officinalis, Sambucus nigra, Zingiber officinale, and Curcuma longa, and to evaluate the evidence level from clinical trials (CTs) involving these agents in patients with respiratory tract infections (RTIs). Methods: We conducted a literature search using the PubMed database focusing on clinical studies of plant-derived agents in upper and lower RTIs. PRISMA-based reporting elements were used only as a guiding tool for comprehensibility of the literature search (Reporting Items for Systematic Reviews and Meta-Analyses guidelines). Results: A summary and structured overview of the properties of these most-cited plant-derived agents in the literature, in the context of RTIs, was provided. A total of 94 reports met the eligibility criteria and were included in our review. Of these, 66 reported randomized and placebo-controlled trials investigating the efficacy and tolerability of these adjuncts in patients with RTIs. The non-randomized and uncontrolled trials were 22. Sufficient evidence to be regarded as an appropriate treatment to reduce the severity and duration of RTIs was found for all discussed plant-derived agents. Robust evidence available was found for Echinacea spp., Pelargonium sidoides, Sambucus nigra, Curcuma longa and Zingiber officinale. Conclusions: Regarding other plant-derived agents reported in the traditional medicine for the treatment of RTIs, further research is needed to clarify the evidence gaps. Full article

The reaction of the HS^•/S^•− radical (pKa ~3.4), generated selectively from H₂S by γ-irradiated N₂-flushed aqueous solutions at pH 5, with purine nucleosides (dG or dA), a 10-mer double-stranded oligodeoxynucleotide (ds-ODNs), and calf thymus (ct) DNA was investigated, under various experimental conditions. Concurrent quantification of the four purine 5′,8-cyclo-2′-deoxynucleosides (cPu) and two 8-oxo-7,8-dihydro-2′-deoxypurines (8-oxo-Pu) by LC-MS/MS analysis using isotopomeric internal standards was achieved. The formation of 8-oxo-Pu is several tens of times larger than cPu. Mechanistic schemes for the formation of the two product groups are proposed. Hydrogen atom abstraction from C5′–H by S^•− produces the cPu via cyclization of the C5′ radical onto C8, forming a new covalent bond, C5′–C8. The unexpected formation of 8-oxo-Pu should be mechanistically more complex. We propose that an S^•− (coupled with H⁺) adds to the base rings, followed by the elimination of HS⁻ to form the corresponding radical cation; subsequent reactions with H₂O and radical disproportionation with another S^•− lead to 8-oxo-Pu. A comparison of S^•− with the available literature data for HO^• reactivity towards ct-DNA in de-oxygenated aqueous solutions is also presented. Before the present findings, cPu lesions were attributed exclusively to HO^• reactivity toward ct-DNA. The reaction of the thiyl radical (HOCH₂CH₂S^•) with ct-DNA was also investigated, yielding results similar to those of S^•− obtained under comparable experimental conditions. Our results contributed to a better understanding of DNA damage induced by reactive sulfur species (RSS), particularly the formation of purine lesions and the relative abundance of cPu versus 8-oxo-Pu. 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

The use of non-biodegradable plastic food packaging materials has become a major environmental concern. These plastics release chemicals and microplastics during degradation, harming wildlife and entering the food chain, posing risks to both environmental and human health. This study aimed to evaluate electrospun poly(vinylpyrrolidone) (PVP) mats incorporating natural antibacterial Thymus vulgaris L. extract (TE) and natural crosslinker citric acid (CA) as alternative food packaging materials. Packaging mats with TE and/or CA combinations in PVP were evaluated for their structural, chemical, optical, and shelf-life-enhancing effects on blueberries. The results show that dissolving PVP in TE extract and adding CA in PVP ethanol-water or TE-based solutions significantly affected the viscosity and conductivity of the electrospinning solutions, thereby influencing the morphology of electrospun mats. FTIR analysis confirmed the incorporation of TE into the polymer and indicated CA induced hydrogen bonding, interactions that may reduce the polymer chain mobility and increase the brittleness of the electrospun mat. In tests with blueberries, it was estimated that the commonly used traditional food film minimized blueberry weight loss, whereas the porous electrospun PVP and PVP/TE mats allowed greater moisture release and preserved better visual quality by reducing wrinkling and dehydration. Overall, electrospun PVP-based mats functionalized with TE show promise as sustainable food packaging materials that balance moisture management with product appearance. Full article

Thyme (Thymus callieri Borbás ex Velen) and summer savory (Satureja hortensis L.) are aromatic plants from the Lamiaceae family widely used in traditional medicine and the food industry. This study provides a comparative analysis of the phytochemical profiles and biological potential of the essential oils (EOs) of these two plant species from Bulgaria. The chemical composition was determined using GC-MS analysis. Biological evaluation included determination of antioxidant activity (DPPH assay), antimicrobial activity (MIC assay), ex vivo anti-inflammatory effects (IL-1β expression in rat stomach smooth muscle preparations), and in vitro antihemolytic activity. GC-MS analysis identified 16 compounds in T. callieri EO, dominated by p-cymene (46.42%) and thymol (35.80%). In contrast, 17 compounds were identified in S. hortensis EO, with carvacrol (58.81%) and γ-terpinene (22.46%) as major constituents. Both EOs exhibited concentration-dependent antioxidant activity, with S. hortensis showing higher radical scavenging potential. In antimicrobial tests, both oils demonstrated broad-spectrum efficacy with MIC values ranging from 0.313 to 2.5 mg/mL. Ex vivo experiments revealed that T. callieri EO significantly increased IL-1β expression, suggesting immune activation, while S. hortensis EO showed a lower effect, indicating higher anti-inflammatory potential. Furthermore, S. hortensis EO demonstrated superior erythrocyte membrane stabilization (antihemolytic activity) compared to T. callieri EO and the reference anti-inflammatory drug Aspirin. In conclusion, the findings highlighted the distinct biological potential of both Bulgarian EOs, suggesting their diverse applicability as natural bioactive agents in the pharmaceutical and food industries. Full article

Snail mucus is increasingly investigated as a biologically compatible source of multifunctional biomolecules for pharmaceutical and dermatological use. However, the chemical profile and biological activities of mucus from the Moroccan endemic terrestrial snail Otala tingitana remain poorly characterized. In addition, the influence of heliciculture diet on the composition and functional properties of the mucus remains unclear. Here, O. tingitana was reared for 140 days under controlled conditions and fed a basal flour diet or the same diet supplemented with 3% Rosmarinus officinalis, Origanum compactum, or Thymus zygis subsp. zygis. Mucus from wild snails was included for comparison. Mucus samples were chemically profiled by GC–MS and evaluated for antibacterial activity, antioxidant capacity, wound-healing efficacy in mice, and histological anti-inflammatory effects, and evaluated semi-quantitatively based on the degree of inflammatory cell infiltration. GC–MS identified 13 compounds and demonstrated clear diet-dependent shifts in dominant components. All mucus samples exhibited broad-spectrum antibacterial activity against Staphylococcus aureus, Listeria monocytogenes, Escherichia coli, and Salmonella Typhimurium (inhibition zones 10.31–14.30 mm; MIC 120–240 µg/mL), with predominantly bactericidal profiles (MBC/MIC < 4) and significantly enhanced activity in plant-supplemented groups (p < 0.05). Antioxidant performance improved markedly with medicinal-plant supplementation, reaching low IC₅₀ values (best ≈ 1.18 mg/mL) compared with basal-diet mucus. In vivo, topical application accelerated wound closure, achieving complete healing in <21 days, versus 28 days in untreated controls. In addition, histological assessment showed faster resolution of inflammatory cell infiltration in treated groups. Collectively, these findings provide the first integrated evidence that O. tingitana mucus possesses antibacterial, antioxidant, wound-healing, and anti-inflammatory activities, and that heliciculture diet is a practical lever to optimize its bioactive profile. Further studies should prioritize standardized manufacturing, contaminant control, and safety/toxicology assessment before translational development. Full article

The transition toward a sustainable agri-food system, aligned with agricultural and environmental policy objectives, has increased interest in aromatic plants as non-synthetic pesticide alternatives. This study focused on evaluating the antifungal potential of five specific aromatic plant species, particularly Lavandula dentata, Origanum vulgare, Thymus vulgaris, Salvia officinalis and Rosmarinus officinalis, against the phytopathogenic soil-borne fungi Fusarium oxysporum f.sp. radicis-lycopersici and Verticillium dahliae. During screening, L. dentata and T. vulgaris extracts exhibited strong in vitro fungicidal activity. Bioactive compounds previously detected in both lavender and thyme were identified in their extracts using a triple quadrupole/linear ion trap mass spectrometer. Assessment of in vitro phytoprotective action of L. dentata extract in solid and liquid growth media demonstrated inhibitory effects against F. oxysporum f.sp. radicis-lycopersici at concentrations above 1% v/v, with inhibitory effects of L. dentata extract being observed at concentrations equal to or above 2% v/v. T. vulgaris extract inhibited V. dahliae growth on solid media at concentrations at 1% v/v or above, while inhibitory effects were observed in broth media containing 2% v/v thyme extract. Seed germination tests of both L. dentata and T. vulgaris revealed a concentration-dependent reduction in their germination index (GI) at concentrations equal or above 2% v/v, apart from the effect of lavender extract on cress, where inhibition occurred at dose application above 5% v/v. In planta experiments demonstrated the complete phytoprotective action of lavender extract against F. oxysporum f.sp. radicis-lycopersici, while a marginal improvement in plant survival was observed during application of T. vulgaris extract. Full article

Oral probiotic-based therapy has emerged as a promising solution with multifaceted benefits for immunosuppression treatment. However, their widespread and clinical utility is severely limited by the poor viability of probiotics under harsh gastrointestinal conditions in the intestine. To address these challenges, a probiotic-based biohybrid (Lr@DGN) was bio-orthogonally fabricated by covalently anchoring the prebiotic β-glucan (GN) to the probiotic Limosilactobacillus reuteri (Lr). Upon oral administration, Lr@DGN colonized intestines with high survival rates, aided by gastrointestinal stress-shielding of GN, leading to immuno-enhancing effects through combining GN and live Lr. Consequently, in a Cy-induced immunosuppression mouse model, oral administration of Lr@DGN significantly mitigated body weight loss, restored the key immune organ indexes (thymus and spleen), ameliorated Cy-induced damage to the small intestine, enhanced the intestinal immune response, and elevated the serum levels of immunoglobulins IgG and IgA. By integrating the effects of a prebiotic shield and a live probiotic, this biohybrid system offers a promising and translatable approach for managing immunodeficiency and related disorders. Full article

Background/Objectives: The itch–scratch cycle is a key driver of exacerbation in atopic dermatitis (AD) and requires objective monitoring, yet patient-reported itch scores are often unreliable in children. This study aimed to evaluate smartwatch-derived nocturnal scratching metrics as digital biomarkers of disease activity and treatment response in pediatric AD. Methods: In this prospective observational study, 50 children (median age 9 years) with physician-diagnosed AD wore an Apple Watch with the Itch Tracker application for 5–14 nights during initiation of topical therapy. Three scratch metrics—scratch count rate (SCR), scratch duration ratio (SDR), and scratch burden index (SBI, duration × intensity)—were analyzed. Associations with clinical outcomes [Eczema Area and Severity Index (EASI), Patient-Oriented Eczema Measure (POEM)], serum thymus and activation-regulated chemokine (TARC), and itch numerical rating scale (NRS) were examined. Logistic regression models were evaluated to examine whether these metrics could identify children who achieved clinically meaningful improvement, defined as EASI-50 plus ≥ 4-point POEM reduction. Results: All scratch metrics correlated with baseline EASI (r = 0.60–0.64, p < 0.001) and serum TARC (r = 0.58–0.60, p < 0.001). Reductions in scratching paralleled clinical improvement (r = 0.67–0.71, p < 0.0001). Among models, the SBI-based logistic regression demonstrated the best discriminative performance (AUC = 0.78, 95% CI: 0.64–0.92). Conclusions: Wearable-derived nocturnal scratching metrics showed moderate but consistent associations with disease severity and short-term improvement. Although predictive capability remains to be established, these metrics may serve as treatment-responsive digital measures. Given the cross-sectional nature of biomarker analyses and other study limitations, further prospective validation is required before clinical application in real-world pediatric AD monitoring. Full article

Due to biodegradability, functionalization, and sustained release, polymer-based films are widely used in different industries. This study explores a bioactive emulsion-based film obtained using high-methoxy pectin (HMP), Origanum onites L. essential oil, and a hydroalcoholic extract of Thymus vulgaris L., prepared using various emulsion recipes. The emulsions obtained were applied to cellulose supports intended for topical applications. Bioactive textiles were analyzed using SEM-EDS elemental mapping, ATR FT-IR spectroscopy, biocompatibility assessment, antimicrobial activity assays, and analysis of comfort indices. SEM images of textile supports treated with bioactive emulsions confirmed the creation of a film surface and that the homogeneity of the film increases with increasing amount of glycerin, which acts as a plasticizer. Infrared spectra combined with their second derivatives and PCA indicate the presence of oregano essential oil, thyme extract, and pectin on the surface of the cotton. The biocompatibility evaluation of functionalized cotton supports revealed minimal cytotoxic effects on HaCaT human keratinocytes after 24 h of exposure. The results of the analyses showed that bioactive textile supports also exhibit antimicrobial activity. Therefore, the active emulsions with pectin, oregano essential oil, and hydroalcoholic extract of thyme provide biocompatible and antimicrobial active films by applying on cellulosic supports. Full article

The widespread use of modern insecticide formulations underscores the need for mechanistic evaluation of their potential renal toxicity. This study investigated the nephrotoxic effects of Ampligo^® 150 ZC, a binary formulation of lambda-cyhalothrin and chlorantraniliprole, in female rabbits under subacute exposure conditions, with particular emphasis on apoptosis-related and epithelial integrity biomarkers, and evaluated the protective effects of thyme essential oil (TEO) and vitamin C. Rabbits were allocated into four groups: control, AP, AP + TEO, and AP + TEO + vitamin C. Ampligo (AP) exposure resulted in significant renal dysfunction, as evidenced by elevated biochemical biomarkers and marked histopathological lesions. At the molecular level, AP induced p53 upregulation alongside Bcl-2 and Cyclin D1 downregulation, suggesting apoptosis induction and cell cycle dysregulation. Moreover, reduced E-cadherin and β-catenin expressions indicated disruption of epithelial junction integrity and impaired renal structural homeostasis. Notably, co-administration of TEO and vitamin C markedly attenuated these alterations, improving biochemical, histopathological, and immunohistochemical parameters. Overall, these findings suggest that AP-driven nephrotoxicity may involve apoptotic and epithelial pathways under subacute exposure conditions, whereas antioxidant co-treatment may mitigate kidney injury, supporting the potential of natural antioxidants as adjuncts against pesticide-induced renal injury. Full article

The gut microbiota serves as a critical interface for host immunity, making it a promising target for probiotic intervention. In this study, we investigated the immunomodulatory potential of the strain Bifidobacterium breve (B. breve) MN15965 and the underlying role of gut bacterial communities in this process. We first assessed its in vitro immunomodulatory activity by measuring nitric oxide and cytokine secretion in THP-1 macrophages. Subsequently, an immunosuppressed mouse model was established by treating BALB/c mice with cyclophosphamide (CTX), a chemotherapeutic agent known to cause immune dysfunction and mucosal damage. In this model, we performed a series of analyses, including H&E staining, measurement of hematological parameters and serum cytokines/immunoglobulins, quantification of fecal short-chain fatty acids (SCFAs) by gas chromatography, and profiling of gut microbiota composition via 16S rRNA gene amplicon sequencing. The results showed that MN15965 supernatant enhanced TNF-α, IL-1β, and GM-CSF secretion in THP-1 cells, promoting M1 macrophage activation in vitro. In the in vivo model, MN15965 administration restored spleen and thymus tissue integrity and improved physiological indices, hematological parameters, and immunoglobulin levels. Furthermore, MN15965 increased fecal SCFAs, particularly butyric and valeric acid, increased gut bacterial diversity, and enriched potentially beneficial SCFA-producing taxa, including Lachnospiraceae and Eubacterium. These findings demonstrate that B. breve MN15965 alleviated CTX-induced immunosuppression by activating immune responses, regulating gut bacterial communities, and boosting SCFA production. Full article

Attention-Deficit/Hyperactivity Disorder (ADHD), affecting 5–10% of children globally, faces treatment limitations due to adverse effects and uncertain long-term risks of current pharmacotherapies. This study investigated the therapeutic potential of sepia ink (SI), a marine-derived natural complex from cuttlefish, in a scopolamine-induced ADHD-like mouse model. The chemical constituents of SI were characterized via Ultra-Performance Liquid Chromatography-Mass Spectrometry (UPLC-MS). The behavioral assessments, histopathological examinations, flow cytometry, and complete blood counts were utilized to evaluate its effects on ADHD-like phenotypes, neuroinflammation, and immune function. Integrated transcriptomic, plasma metabolomic, and 16S rRNA sequencing were used to explore the underlying mechanisms. SI significantly alleviated hyperactivity and improved spatial learning and memory deficits. It reduced hippocampal neuronal damage, attenuated neuroinflammation, and reversed scopolamine-induced immunosuppression in spleen and thymus. SI also restored the balance of immune cell subsets in both mesenteric lymph nodes and spleen, and the peripheral blood cell counts. Multi-omics analyses suggested that the beneficial effects of SI were associated with reduced neuroinflammation, rebalanced systemic immune responses, partial correction of lipid metabolic disturbances, and restoration of gut microbiota homeostasis. Collectively, our findings indicate that SI effectively mitigates the in vivo ADHD-like impairments by coordinating immune, metabolic, and gut microbiota-related processes, thereby supporting its potential as a marine-derived therapeutic candidate for further ADHD treatment. Full article

Carcinoma showing thymus-like differentiation (CASTLE) is a rare malignancy arising in the thyroid or neck, with an uncertain cellular origin that complicates both diagnosis and treatment. To better understand its molecular underpinnings and identify potential therapeutic avenues, we conducted integrated whole-exome and transcriptome sequencing on six CASTLE and six thymic carcinoma samples. Whole-exome sequencing (WES) was performed on all 12 samples, while RNA sequencing was successful for 1 CASTLE and 6 thymic carcinoma samples. Our analysis included somatic mutation profiling, mutational signature deconvolution, differential gene expression, and characterization of tumor microenvironment for the cases with available data, with comparisons to genomic data from other thyroid cancers. CASTLE tumors demonstrated a higher median tumor mutational burden than thymic carcinoma and lacked the common BRAF and RAS mutations typically found in thyroid cancers. They harbored alterations in genes such as TRHDE, cilia-associated genes (ANKS6, CFAP46, DNAH6), and Wnt signaling components (TRRAP, BCL9L), as well as mutational signatures suggestive of mismatch repair deficiency and oxidative damage. MSIsensor-pro analysis of the WES data provided support for the potential for mismatch repair deficiency in a subset of CASTLE samples. Exploratory transcriptomic analysis from a single CASTLE case showed downregulation of thyroid follicular markers and an “immune-hot”, lymphocyte-rich microenvironment, closely resembling that of thymic carcinoma. While these findings require validation in larger cohorts, they support a thymic origin for CASTLE and establish its molecular distinction from follicular-derived thyroid cancers. The immunogenic tumor landscape suggests that immune checkpoint inhibitors, particularly those targeting PD-1/PD-L1, may be a promising therapeutic strategy, alongside emerging targets for precision oncology. Full article

Purpose: Thymic involution, a hallmark of immune ageing, is associated with chronic low-grade inflammation (“inflammaging”) and has been implicated in age-associated inflammatory diseases, including atherosclerosis. This study aimed to evaluate the association between persistent thymus and coronary artery calcification based on the Agatston score. Materials and Methods: In an exploratory effort, we retrospectively analyzed 206 patients aged 40–64 years who underwent ECG-triggered thoracic CT between 2019 and 2024. Coronary artery calcifications were quantified on virtual non-contrast reconstructions using the Agatston score. Thymic tissue was graded on a five-point scale based on the extent of fatty replacement, with higher grades indicating greater thymic preservation. Results: The cohort included 126 men and 80 women. Complete fatty replacement of the thymus (Grade 0) was seen more often in men compared to women (51/126 vs. 18/80; p = 0.011). Linear regression analysis revealed a significant inverse association between thymus grade and coronary Agatston score (Beta (B) = −28.8 (95% CI −45.3 to −12.3); p = 0.001). After adjusting for age and sex, higher thymic grades remained significantly associated with lower coronary Agatston scores (B = −22.2 (95% CI: −41.7 to −2.6); p = 0.03). Further analysis with adjustments for cardiovascular risk factors was not performed. Conclusions: Residual thymic tissue was significantly inversely associated with coronary artery calcification, and this association persisted after adjustment for age and sex. These findings support the hypothetical concept that morphologically detectable thymic remnants may reflect interindividual differences in immune ageing and inflammaging that are associated with age-related inflammatory disease phenotypes. The results of this hypothesis-generating study give incentive to further investigate the nature and strength of these associations in prospective studies. Full article