Micronization enhanced extractability of polyphenols and anthocyanins in tart cherry puree

Extraction, Purification, Component Analysis and Bioactivity of Polyphenols from Artemisia dracunculus L

A. dracunculus L., is a species of traditional Chinese medicine herbs, widely distributed northwestern China and used as antidiabetic, antibacterial etc., but the active compounds and their abundance have not been systematically investigated. This research focused on the following: (i) optimizing polyphenol extraction/purification from A. dracunculus; (ii) UPLC-QE-based profiling of polyphenolic composition; (iii) FT-IR-assisted structural elucidation; and (iv) functional assessment of antioxidant and antibacterial properties. The results showed that the highest extraction yield of crude polyphenols of A. dracunculus (CPA) reached 5.02 ± 0.04% at an ethanol concentration of 70% of 70 °C with a solid-to-liquid ratio of 1:20 (g/mL). The D101 macroporous resin is the best one for polyphenolpurification of A. dracunculus (PPA), with a purification efficiency of 60.48 ± 1.87%. UPLC-QE analysis identified 36 polyphenolic compounds in PPA, in whic the content of protocatechuic acid is the highest at 1338.05 ± 1.83 ng/mg. The absorption peaks at 1691 cm-1 (carbonyl, C=O), 1605 cm-1and 1518 cm-1 (aromatic C=C), as well as 1275 cm-1 and 1369 cm-1 (C-O stretching), indicated the presence of phenolic acids, flavonoids and tannins in PPA by FT-IR. PPA exhibited significant antioxidant activity, which reached 81.73 ± 1.43% for DPPH, 87.11 ± 1.57% for hydroxyl and 85.74 ± 1.52% for ABTS+. It also demonstrated strong antibacterial activity against nine common pathogenic bacteria, but not to Escherichia coli. A. dracunculus polyphenols demonstrate potent bioactive properties, suggesting potential applications in functional foods and natural preservatives.

Gluten-Free Snacks with Micronized and Freeze-Dried Red Potatoes: Nutritional and Pro-Health Values

The application of micronization to previously freeze-dried red potatoes significantly increased their polyphenol content and antioxidant potential. As a result, they became a valuable additive for enriching gluten-free snacks with bioactive compounds. The aim of this study was to assess the health-promoting potential as well as the content of polyphenols, phytosterols, and vitamin E in gluten-free extrudates, also referred to as gluten-free snacks, with the addition of 10% to 40% freeze-dried and micronized red potatoes. Additionally, the study examined color parameters and nutritional composition, including dietary fiber content. It was found that the extrudates obtained from micronized and freeze-dried red potatoes were characterized by high nutritional value but, most importantly, a strong health-promoting potential due to their exceptionally high content of phenolic acids and anthocyanins, which contributed to their remarkable antioxidant activity. Snacks enriched with freeze-dried and micronized red potatoes contain significantly higher levels of protein (3- to 14-fold increase), ash (4.5- to 22.5-fold increase), and soluble dietary fiber fraction (10- to 26-fold increase) compared to the control sample. Moreover, these snacks exhibited very high concentrations of chlorogenic, cryptochlorogenic, and neochlorogenic acids, as well as elevated levels of pelargonidin and peonidin glycosides-polyphenolic compounds that were not detected in the control sample. These snacks contained substantial amounts of tocopherols and phytosterols, such as stigmasterol and beta-sitosterol (3- to 10-fold increase compared to the control). The study conclusively demonstrated that the 40% addition of freeze-dried and micronized red potatoes to gluten-free extrudates ensures the development of an innovative product with excellent health benefits and strong antioxidant activity.

Development of a novel functional food based on ultrafine grinding and medicinal food raw materials formula

Medicinal food raw materials refer to those raw materials with food and possess medicinal value. They were particularly suitable for developing novel functional food. In this study, a novel functional food based on ultrafine grinding treatment of Ganoderma, yam, wolfberry, Rhizoma polygonati, raspberry, and euryale ferox (GYWRRE) with a specifically designed formula was developed and characterized. The results were shown that the ultrafine GYWRRE powder presented a relatively regular structure and smooth surface. It had notable decreases in fluidity and oil‐holding capacity but increases in characteristic nutrient content and antioxidant capacity. The ultrafine GYWRRE powder also could prevent oxidative stress in C2C12 cells by reducing the contents of reactive oxygen species and methylene diphenyl diisocyanate, inhibiting cell apoptosis, and increasing expressions of heme oxygenase‐1 and NQO1. The results of this study were demonstrated that medicinal food raw materials and ultrafine grinding had great applications potentials in developing functional food.

Practical applications

Medicinal food refers to those natural ingredients that serve both as food and possess medicinal value. Ultrafine grinding technology is a meticulously engineered method capable of grinding raw materials to the micron level, thereby increasing their surface area, improving their bioavailability, and potentially enhancing their medicinal properties and bioavailability. This study developed an ultrafine grinding treatment of Ganoderma, yam, wolfberry, Rhizoma polygonati, raspberry and euryale ferox (GYWRRE) with a specifically designed formula. The characteristics of the ultrafine GYWRRE powder contained particle size, morphology, colorimetry, liquidity, hydration, adsorption, and characteristic nutrients were characterized. The antioxidant capacity in vitro and in cells as well as the possible mechanism were also explored. The results of this study will be helpful for development of novel functional foods.

Phenolic Compounds from Cherries and Berries for Chronic Disease Management and Cardiovascular Risk Reduction

Cardiovascular diseases (CVDs) are a leading cause of mortality worldwide. Therefore, there is increasing interest in dietary interventions to reduce risk factors associated with these conditions. Cherries and berries are rich sources of bioactive compounds and have attracted attention for their potential cardiovascular benefits. This review summarises the current research on the effects of cherry and berry consumption on cardiovascular health, including in vivo studies and clinical trials. These red fruits are rich in phenolic compounds, such as anthocyanins and flavonoids, which have multiple bioactive properties. These properties include antioxidant, anti-inflammatory, and vasodilatory effects. Studies suggest that regular consumption of these fruits may reduce inflammation and oxidative stress, leading to lower blood pressure, improved lipid profiles, and enhanced endothelial function. However, interpreting findings and establishing optimal dosages is a challenge due to the variability in fruit composition, processing methods, and study design. Despite these limitations, the evidence highlights the potential of cherries and berries as components of preventive strategies against CVD. Further research is needed to maximise their health benefits and improve clinical practice.

Continuous-Flow High-Pressure Homogenization of Blueberry Juice Enhances Anthocyanin and Ascorbic Acid Stability during Cold Storage

Blueberries (Vaccinium section Cyanococcus) have a wealth of bioactive compounds, including anthocyanins and other antioxidants, that offer significant health benefits. Preserving these compounds and maintaining the sensory and nutritional qualities of blueberry products such as juice during cold market storage is critical to meet consumer expectations for nutritious, safe, and minimally processed food. In this study, we compared the effects of two preservation processing techniques, high-temperature short-time (HTST) and continuous flow high-pressure homogenization (CFHPH), on blueberry juice quality during storage at 4 °C. Our findings revealed that inlet temperature (Tin) of CFHPH processing at 4 °C favored anthocyanin retention, whereas Tin at 22 °C favored ascorbic acid retention. After 45 days of storage, CFHPH (300 MPa, 1.5 L/min, 4 °C) juice retained up to 54% more anthocyanins compared to control at 0 day. In contrast, HTST treatment (95 °C, 15 s) initially increased anthocyanin concentrations but led to their subsequent degradation over time, while also significantly degrading ascorbic acid. Furthermore, CFHPH (300 MPa, 4 °C) juice had significantly lower polyphenol oxidase activity (>80% less than control), contributing to the overall quality of the juice. This innovative processing technique has the potential to improve commercial blueberry juice, and help meet the rising demand for healthy and appealing food choices.

Preferential role of distinct phytochemicals in biosynthesis and antibacterial activity of silver nanoparticles

Biosynthesis of silver nanoparticles (AgNPs) by plant extracts and its antibacterial utilization has attracted great attention due to the spontaneous reducing and capping capacities of phytochemicals. However, the preferential role and mechanisms of the functional phytochemicals from different plants on AgNPs synthesis, and its catalytic and antibacterial performance remain largely unknown. This study used three widespread arbor species, including Eriobotrya japonica (EJ), Cupressus funebris (CF) and Populus (PL), as the precursors and their leaf extracts as reducing and stabilizing agents for the biosynthesis of AgNPs. A total of 18 phytochemicals in leaf extracts were identified by ultra-high liquid-phase mass spectrometer. For EJ extracts, most kinds of flavonoids participated in the generation of AgNPs by a reduced content of 5∼10%, while for CF extracts, about 15∼40% of the polyphenols were consumed to reduce Ag+ to Ag0. Notably, the more stable and homogeneous spherical AgNPs with smaller size (≈38 nm) and high catalytic capacity on Methylene blue were obtained from EJ extracts rather than CF extracts, and no AgNPs were synthesized from PL extracts, indicating that flavonoids are superior than polyphenols to act as reducer and stabilizer in AgNPs biosynthesis. The antibacterial activities against Gram-positive (Staphylococcus aureus and Bacillus mycoides) and Gram-negative bacteria (Pseudomonas putida and Escherichia coli) were higher in EJ-AgNPs than that in CF-AgNPs, which confirmed the synergistic antibacterial effects of flavonoids combined with AgNPs in EJ-AgNPs. This study provides a significant reference on the biosynthesis of AgNPs with efficient antibacterial utilization underlying effect of abundant flavonoids in plant extracts.