Sub-chronic toxicity evaluation of Dryopteris filix-mas (L.) schott, leaf extract in albino rats

Insights into Chemical Diversity and Potential Health-Promoting Effects of Ferns

The scientific community is focusing on how to enhance human health and immunity through functional foods, and dietary supplements are proven to have a positive as well as a protective effect against infectious and chronic diseases. Ferns act as a taxonomical linkage between higher and lower plants and are endowed with a wide chemical diversity not subjected to sufficient scrutinization before. Even though a wealth of traditional medicinal fern uses were recorded in Chinese medicine, robust phytochemical and biological investigations of these plants are lacking. Herein, an extensive search was conducted using the keywords ferns and compounds, ferns and NMR, ferns and toxicity, and the terms ferns and chemistry, lignans, Polypodiaceae, NMR, isolation, bioactive compounds, terpenes, phenolics, phloroglucinols, monoterpenes, alkaloids, phenolics, and fatty acids were utilized with the Boolean operators AND, OR, and NOT. Databases such as PubMed, Web of Science, Science Direct, Scopus, Google Scholar, and Reaxys were utilized to reveal a wealth of information regarding fern chemistry and their health-promoting effects. Terpenes followed by phenolics represented the largest number of isolated active compounds. Regarding the neuroprotective effects, Psilotium, Polypodium, and Dryopteris species possessed as their major phenolics component unique chemical moieties including catechins, procyanidins, and bioflavonoids. In this updated chemical review, the pharmacological and chemical aspects of ferns are compiled manifesting their chemical diversity in the last seven years (2017-2024) together with a special focus on their nutritive and potential health-promoting effects.

Toxicologic, transcriptomic, and metabolomic insights into the effect of a mixture of 26 veterinary antimicrobials on rat liver

To evaluate the maximum possible hazard of veterinary antimicrobial mixtures at doses accessible to humans, Sprague-Dawley male rats were orally dosed with a mixture of 26 commonly used veterinary antimicrobials for 90 consecutive days. The daily dosage of each component was 100 times (G1), 10 times (G2) and, 1 time (G3) of acceptable daily intake (ADI) in China. Hematology analysis and biochemical analysis found significant changes of several parameters, suggesting liver damage. Histopathological examination further indicated that mixtures of veterinary drugs at three levels caused obvious hepatotoxicity, and the severity of damage increased with dosage. LC-MS-based metabolomics analysis was carried out to detect metabolite changes in liver tissue. In G1, G2, and G3, 208, 165, and 195 differential accumulated metabolites (DAMs) compared with the Ctrl group were filtered, respectively. Similarly, RNA-seq helped us to filter a total of 183, 118, and 38 differentially expressed genes (DEGs) in G1, G2, and G3 compared with the Ctrl group, respectively. By integrating with the transcriptomic and metabolomic data, we revealed that mineral absorption, ascorbate and aldarate metabolism may be the major pathways affected by the veterinary antimicrobial mixtures in our study. This study provided useful data for the risk assessment of multiple chemicals.

European ferns as rich sources of antioxidants in the human diet

Wild edible plants have become an attractive variation of the human diet, especially in East Asia, North America, and Oceania. However, their potential in nutrition is only rarely considered in Europe. This study aims to reveal the nutritional and antioxidant potential of mature fern leaves from 13 families grown in Europe. We found that most of the examined fern species displayed a high antioxidant capacity, exceeding 0.5 g Trolox equivalent per gram of extract dry weight in ORAC assay and reaching IC₅₀ values lower than 30 µg·mL^-1 in DPPH assay (with the value for Trolox 7 µg·mL^-1). Most of the species also appeared to be a good source of carotenoids, especially of lutein (205 µg·g^-1 DW on average) and β-carotene (161 µg·g^-1 DW on average) when compared to the reference leafy vegetables spinach and rocket. A cytotoxicity test using ovine hepatocytes showed a non-toxicity effect of fern leaf extracts.

Nutritional and Antioxidant Potential of Fiddleheads from European Ferns

Ferns are part of the diet and traditional medicine in East Asia, North America, and Oceania, however, their importance has been forgotten in Europe. Here, the nutritional and antioxidant potential of young fern fronds (fiddleheads) of eight families were studied. Most of the tested fern species excelled in high antioxidant capacity when compared to the reference leafy vegetables spinach and rocket. On average, the total phenol content reached 220 mg·g-1 of extract dry weight for all fiddleheads, and 15 out of 24 tested species exceeded 1 g Trolox equivalent per gram of extract dry weight in Oxygen Radical Absorbance Capacity (ORAC) assay. On the other hand, fiddleheads contained a comparable amount of carotenoids and ascorbic acid with the reference vegetables. In the case of fatty acid composition, fiddleheads contained especially high amounts of essential omega-3 (n3) and omega-6 (n6) polyunsaturated fatty acids with a beneficial n6/n3 ratio. The n6/n3 ratio in all tested species was between 2 and 6.4, whereas the ratio in the reference vegetables was below 0.4. All in all, fiddleheads from European ferns are a rich source of valuable antioxidants and essential fatty acids with a desirable n-6/n-3 ratio and may thus form an alternative source of these compounds, especially for those people not consuming fish and fish products.