Search Results (109)

The aim of the study was to investigate the effect of enriching carrot slices by NFC (not from concentrate) juices from chokeberry (CH), sea buckthorn (SB), cherry (CHE) and carrot (CA) before microwave-vacuum (MVD) and freeze-drying (FD) carrot on the physicochemical and thermal properties. While water activity (AW) was not dependent on enrichment treatment but only on drying method, NFC juices significantly enriched carrot slices with biocomponents. Freeze-dried samples, as a reference, had significantly lower AW than those dried by the MVD method. Both FD and MVD-dried samples had comparable polyphenol content and DPPH antioxidant activity (AA), but the MVD-dried samples exhibited higher ABTS antioxidant activity. Carrot enrichment in chokeberry and cherry juices resulted in up to six and 10 times higher TPC than in the raw material. In addition, samples enriched in these juices and dried with FD proved to be the most stable in terms of water state and glass transition temperature (61.4 and 69.6 °C) and water activity (approx. 0.10). In FTIR analysis, all samples exhibited similar spectral shapes, indicating similar chemical composition and functional group composition. Only in the spectral region below 900 cm⁻¹ were unique molecular vibrations induced by various organic compounds present. Enriching carrot in juices and MVD can lead to increased hardness (Fmax and breaking work), although this is associated with increased crispness, resulting from the microstructure with a large number of small pores, especially in MVD samples enriched with cherry, chokeberry, and carrot juices, with scores of 8.0–8.4 In this respect, the average crispness rating of the MVD samples (7.2) exceeded that of the FD samples (6.8). If there is a requirement for crunchiness in the future production of dried vegetables as snacks, changes in hardness should be prioritized, along with color and biocomponent content. Full article

Background: The absence of disease-modifying treatments for Parkinson’s disease (PD)—a neurodegenerative condition with escalating global incidence—represents a critical unmet medical need. Traditionally utilized for both dietary consumption and medicinal preparations, the fruit derived from Rosa roxburghii Tratt demonstrates a remarkably rich profile of biologically active compounds, with flavonoids, triterpenoids, and organic acids representing the predominant classes. Experimental evidence indicates that these compounds elicit robust antioxidative, anti-inflammatory, and neuroprotective effects, making them promising candidates for neurodegenerative disease modulation. This study aimed to systematically evaluate the neuroprotective effects of Rosa roxburghii Tratt juice concentrate powder (RRJCP) across the preventive, interventional, and therapeutic stages of PD and to elucidate its underlying molecular mechanisms. Methods: Rosa roxburghii Tratt juice was subjected to rotary evaporation concentration and vacuum freeze-drying to obtain the juice concentrate powder. C57BL/6 mice were randomly assigned to three main groups (prevention, intervention, and treatment), each containing subgroups including a normal control, an MPTP model group, low-, medium-, and high-dose RRCJP groups (50, 100, and 200 mg/kg), and a positive control Madopar group, totaling 18 subgroups. A chronic MPTP-induced PD mouse model was established. Motor function was assessed via the open field test, pole test, and wire hang test. Substantia nigra neuronal morphology was examined by hematoxylin and eosin staining. The area of tyrosine hydroxylase (TH)-positive regions was measured by immunohistochemistry. The levels of oxidative stress indicators in serum were measured using biochemical kits. Network pharmacology was employed to predict core targets, and the expression of PI3K/AKT pathway and apoptosis-related proteins was determined by Western blotting. Results: Compared with the MPTP model group, RRCJP (200 mg/kg) significantly increased the total distance traveled in the open field, shortened the pole climbing time, and improved the wire hang score. It attenuated the morphological disorganization and nuclear pyknosis of substantia nigra neurons, increased the TH-positive area and TH protein expression, reduced serum MDA content, and elevated the activities of SOD and GSH-Px. Network pharmacology analysis indicated that the PI3K/AKT signaling pathway was among the core targets. Western blotting results further showed that the juice concentrate powder upregulated the expression of p-PI3K, p-AKT, and Bcl-2, while downregulating Bax and Cleaved Caspase-3 levels, which was consistent with the network pharmacology prediction. Conclusions: RRCJP exerts neuroprotective effects across the preventive, interventional, and therapeutic stages in PD model mice, the mechanisms of which may be associated with activation of the PI3K/AKT signaling pathway, attenuation of oxidative stress, and inhibition of neuronal apoptosis. Full article

The valorization of agro-industrial by-products is of increasing importance within circular economy strategies. Aronia melanocarpa pomace, a by-product of juice production, represents a valuable source of polyphenols with potential applications in food, nutraceutical, and cosmetic formulations. This study aimed to evaluate the effect of different preservation methods on the polyphenolic composition of Aronia pomace and to optimize accelerated solvent extraction (ASE). Pomace samples were subjected to drying, freeze-drying, freezing (−18 °C), and deep freezing (−80 °C). UAE was applied as a rapid screening method for polyphenol extraction, while ASE was used as an advanced technique for efficient recovery of target compounds. ASE parameters, including temperature (40–120 °C), methanol concentration (40–100%), and number of extraction cycles (1–3), were optimized using response surface methodology (RSM) based on a Box–Behnken design. Qualitative and quantitative analyses were performed using UHPLC–MS and HPLC–DAD. The developed models were statistically significant (p < 0.01) with high coefficients of determination (R² = 0.88–0.97). Temperature had a positive effect on phenolic acid extraction but negatively affected anthocyanins due to thermal degradation. Optimal extraction conditions differed between compound groups: phenolic acids were maximized at 120 °C and 75% methanol (two cycles), while anthocyanins required milder conditions (82 °C, 92% methanol, three cycles). Moreover, our study showed that drying significantly reduced the content of several compounds, particularly anthocyanins, whereas low-temperature methods had minimal impact. The results highlight the importance of tailored extraction strategies and support the sustainable utilization of Aronia pomace as a source of bioactive compounds. Full article

Promising approach for the expansion of the functional food sector is combining various ingredients with potential health benefits. The aim of this study was to create protein aggregates by freeze-drying encapsulation. Rice or pea proteins were used as carriers for encapsulation of chokeberry juice polyphenols. Additionally, disaccharides (sucrose and trehalose) were added to explore possible enhancement of encapsulation of polyphenols. Two methods were employed for complexation of ingredients prior to freeze-drying: one based on complexation of all ingredients at the same time and the other on complexation first of proteins with disaccharides and then with chokeberry juice. All parameters affected the binding of polyphenols on proteins. Total polyphenols, proanthocyanidins, individual polyphenols, and antioxidant potentials of created protein aggregates were determined. When rice protein was the main carrier, the addition of disaccharides caused a decrease in total polyphenols and proanthocyanindins contents (22.41–24.01 mg GAE/g and 6.36–7.28 mg PB2E/g, respectively) in comparison to aggregates without their addition (28.03 mg GAE/g and 8.57 mg PB2E/g, respectively). In the case of pea proteins, a different trend was observed. Aggregates without disaccharide addition had a lower amount of total polyphenols and proanthocyanindins (21.25 mg GAE/g and 5.56 mg PB2E/g, respectively) than those with disaccharide addition (21.42–26.44 mg GAE/g and 6.37–9.45 mg PB2E/g, respectively). Interactions between compounds were proven through IR spectra, and they included changes in amid structures, as well as hydrogen bonds and hydrophobic interactions. Such formulated plant-based protein aggregates can be used in the food industry for the enrichment of foods with polyphenols, incensement of antioxidant potential, and prolonging stability of products. Full article

Background/Objectives: Recent studies have revealed that plants produce lipid-derived microvesicles with potent anti-inflammatory properties. In turmeric (Curcuma longa L.), such microvesicles have been identified in rhizome juice and shown to exert beneficial effects in murine models of colitis. In this study, we investigated whether turmeric extracts commonly used in phytotherapy (30% ethanolic or aqueous extracts, and freeze-dried or spray-dried preparations) contain Curcuma-derived microvesicles (CuMVs), and we evaluated the influence of extraction processes on their aggregation and morphology. Methods: All extracts were processed using a standardized protocol involving differential centrifugation, filtration, and ultracentrifugation. CuMVs with sizes from 50 to 200 nm were detected in all pellets, but CuMVs from dehydrated extracts were markedly aggregated compared to those from liquid preparations. Results: The 30% ethanolic extract yielded the most polydisperse CuMVs and was therefore selected for functional immunomodulatory analyses on macrophages. Protein quantification indicated that 600 mL of 30% ethanolic extract contained approximately 60 µg of CuMVs which contained curcumin and its derivatives demethoxycurcumin (DMC), and bisdemethoxycurcumin (BDMC) identified by high-performance thin-layer chromatography (HPTLC). Green fluorescence in the form of small dots close to the nuclei was detected in recipient THP-1 macrophages, indicating the incorporation of CuMVs and therefore the transfer of the naturally fluorescent curcumin. CuMV treatment reduced ROS production, downregulated CD86, and upregulated CD163 expression. Furthermore, CuMVs increased the expression of IL-10 and TGF-β, as well as antibacterial cytokines (IL-1β, IL-6, and TNF-α), and enhanced RAW macrophage migration. Depletion of CuMVs from turmeric extracts markedly reduced their immunomodulatory effects. Conclusions: Collectively, these findings emphasize the importance of preserving CuMVs during the industrial processing of turmeric, as they play a crucial role in curcuminoid delivery and in mediating the immunomodulatory properties of turmeric extracts. Full article

Consumers prefer snacks that are tasty, healthy, and crunchy. However, optimizing crunchiness using sensory methods is time-consuming and expensive. Therefore, this paper proposes a new approach to measuring instrumental crunchiness. Whole strawberries of the “Honeoya” variety were osmotic dehydrated in a sucrose solution or chokeberry juice concentrate for 1, 2, and 3 h before freeze-drying. Texture was analyzed using acoustic emission (AE) and a compression test. The crunchiness index was calculated taking into account the number of AE events and mechanical energy. The content of bioactive substances, water activity, and porosity of the freeze-dried products were also assessed. Freeze-dried fruits that were osmotically dehydrated in chokeberry juice concentrate were characterized by lower final water activity and higher content of bioactive substances, but their crunchiness was the lowest. The crunchiest, loudest, and least hard were freeze-dried strawberries osmotically dehydrated in the sucrose solution. The tested freeze-dried strawberries differed in the range of sound frequencies generated, which indicates a different cracking mechanism. Full article

Apple pomace, a by-product of juice production, is a rich source of dietary fiber and bioactive compounds, making it a promising functional ingredient for bakery applications. This study evaluated the physicochemical and sensory properties of shortbread cookies enriched with apple pomace dried under different conditions, while also analyzing the drying process, focusing on drying kinetics and powder characteristics. Pomace dried by either contact drying or freeze-drying was ground and used to replace 20% of wheat flour in the cookie formulation. Drying kinetics were best described by the modified Page model, and freeze-dried pomace showed higher grindability than contact-dried samples. Cookies enriched with pomace exhibited similar overall composition, with differences mainly observed in fiber content (9.82–11.75%). Those containing freeze-dried pomace were lighter, with reduced red and increased yellow tones, and were firmer, requiring approximately 30% higher cutting force. Despite differences in physical properties, enriched cookies were consistently rated higher in overall acceptability than the controls. The results indicate that the drying method and temperature influence the physicochemical properties of apple by-product and the resulting cookies, while having mainly minor effects on sensory acceptance, confirming the potential of apple pomace as a functional ingredient in bakery products. Full article

Rosa canina L. powders are rich in bioactive compounds; however, thermal processing and carrier addition can markedly alter their composition, affecting nutritional quality, safety and potential health effects. This study assessed the impact of juice pasteurization, followed by freeze-drying and spray drying with maltodextrin, inulin, trehalose, or palatinose, on amino acids, sugars, phenolic compounds, and Maillard reaction products. In carrier-added samples, total amino acid content ranged from 364.6 to 430.4 mg/100 g dry matter (DM). Tryptophan and γ-aminobutyric acid (GABA) were proposed as indicator compounds, with their distinct stability patterns under pasteurization and drying providing a reliable measure of processing effects while representing both essential (tryptophan) and non-essential (GABA) amino acids of nutritional relevance. Carriers reduced total sugar content ≈ 2.5-fold (from 16.7 to 6.7 g/100 g powder DM) but modified sugar profiles. Powders obtained from pasteurized juice with inulin showed the highest level of free amino groups (0.49 g N-α-acetyl-L-lysine/100 g powder DM), the lowest fructosamine content (44.8 mmol DMF/100 g powder DM), and total phenolics of 10.4 g GAE/100 g powder DM. Fructosamine, an early Maillard reaction marker, proved valuable for predicting powder quality, with lower levels linked to pasteurization and carriers with low glycation potential. Acrylamide was absent in all samples (LC–MS/MS), confirming chemical safety. Processing parameters and carrier type were key determinants of nutritional composition and safety, with inulin-based powders from pasteurized juice offering a balanced profile of free amino acids and phenolics, while minimizing fructosamine formation. The combined use of amino acid profiling, phenolic quantification, and early Maillard reaction markers provides a powerful approach for quality evaluation of fruit-based powders within glycoscience. Full article

The aim of the study was to use vacuum impregnation (VI) with onion and beetroot juices as a pre-treatment before drying to develop innovative dried kohlrabi products. Two modern drying techniques were used: freeze-drying (FD) and vacuum drying (VD). The physicochemical properties were determined, including color, water activity, dry matter, density, volumetric gel index, texture, antioxidant capacity, total phenolic content (TPC), and volatile organic compounds (VOCs). It was shown that vacuum impregnation reduced the color lightness and springiness of kohlrabi. In addition, vegetables after VI showed an increase in dry matter, water activity, bulk density, volume gel index, color attributes a* and b*, color difference, hardness, and chewiness. Furthermore, the pre-treatment allowed for the introduction of additional VOCs characteristic of onions (1-Heptene, 2-methyl-(19.81%), Pentyl formate (19.81%), and 4-(Methylthio)butyl isothiocyanate (18.22%) in kohlrabi with onion juice: dimethyl trisulfide, methyl prop(en)yl disulfide, and 3,5-diethyl-1,2,4-trithiolane) and beetroot (dimethyl trisulfide), myrcene. The vacuum impregnation process significantly increased antioxidant capacity and total polyphenol content compared to raw samples. The results of dry weight, water activity, density, TPC, antioxidant capacity and texture in the case of freeze-dried products confirm that FD is a more advantageous method. In addition, freeze-drying allowed for significant preservation of volatile compounds and the color of kohlrabi. The results indicate the potential of VI as a method for modifying the properties of kohlrabi and producing functional and innovative dried products. Full article

Fruit pomace, generated as a by-product of juice processing, is a valuable source of bioactive compounds but requires sustainable extraction approaches to enable its valorisation. Supercritical CO₂ extraction (SFE-CO₂) represents a promising green technology due to its efficiency, solvent-free character, and tuneable selectivity. In this study, the response surface methodology (RSM) was applied to evaluate the effects of pressure, temperature, and time on the recovery of fat, protein, and total phenolic compounds (TPCs) from blackcurrant (Ribes nigrum) and redcurrant (Ribes rubrum) pomace subjected to conventional- and freeze-drying. The highest protein content (14.5%) was obtained in freeze-dried blackcurrant at 400 bar, 60 min, and 30 °C, while the maximum TPCs (24.60 mg GAE/g d.w.) was reached at 500 bar, 60 min, and 40 °C. The redcurrant samples consistently showed lower extractable values across all the responses. Pressure and time were identified as the most influential process variables, enhancing the solvent density and mass transfer during extraction. These results demonstrate that both the drying pre-treatment and raw material type significantly affect the SFE efficiency and confirm the potential of optimised SFE-CO₂ as a viable strategy for converting fruit pomace into functional ingredients for food, nutraceutical, and cosmetic applications. Full article

Aim: To prepare two different kinds of wound care creams containing plant extracts and examine their effectiveness in comparison with a placebo cream and a commercial wound care cream, Madecassol^®. Methods: The two cream formulations were developed using the same placebo cream (PC) as base cream. One formulation contained balsam of oriental sweet gum, or Levant storax, named as Levant Storax Cream (LSC); the other contained oil of Calendula, extract of St. John’s Wort, aescin (an extract of horse chestnut), and freeze-dried powder from Aloe vera (L.) Burm. f. leaf juice, designated as Complex Cream (CC). In the characterization of the creams, organoleptic properties, pH, viscosity, size distribution, and zeta potential of oil globules were measured. Furthermore, the stability of the creams was assessed under different environmental conditions. In vitro studies were performed by using an excisional wound model in rats to assess the potential of the creams for stimulating wound healing. The efficacy of LSC and CC was compared with a commercial reference cream, Madecassol^® (M), and the placebo control. The study was also designed with a negative control group of rats that were not treated but handled the same way as the other treatment groups. The wound contraction rate, total skin thickness recovery, and results of histopathological parameter examinations were used to compare the effectiveness of the treatments. Results: The stability of formulated creams confirmed that they were stable for the duration of the study. In vivo studies showed that rats treated with LSC achieved the highest wound healing rates when compared with the other groups. A better response was recorded for the CC-treated population when compared to both control and placebo groups, but there was no significant difference seen in healing score between CC and M groups. Full article

In this study, we evaluated the antioxidant activity, physicochemical properties, and sensory characteristics of Yanggaeng made with grapes. Freeze-dried powders and juices were prepared from three grape varieties (Campbell Early, Kyoho, and Shine Muscat). Yanggaeng was then prepared at concentrations of 2, 4, and 8%. Antioxidant activity was evaluated by measuring total polyphenols and DPPH and ABTS radical-scavenging activities. The physicochemical properties measured included solid content, Brix, pH, total acidity, moisture content, color, and texture profile analysis (TPA). The results showed that the total polyphenol content increased as the number of grapes increased, with the 8% Shine Muscat juice (JS 8%) sample having the highest polyphenol content and ABTS radical-scavenging activity. The highest moisture content was observed in the control treatment. The L* value decreased, whereas the a* and b* values increased as the grape concentration increased. The 8% Campbell Early (JG 8%) sample exhibited extremely high a* and b* values. When freeze-dried powder was used, the pH decreased and the total acidity increased compared to that using the juice samples. Full article

The use of vacuum impregnation with onion and beetroot juice can help with the challenge of modifying plant tissue and fits in with current trends in the development of plant-based snacks. This study aimed to determine the effect of vacuum impregnation (VI) as a pretreatment before drying on the volatile compounds, texture profile, color, dry matter, water activity, and density of cauliflower. The pretreatment was carried out at a pressure of 0.06 MPa, and the total process time was 21 min. Two types of impregnation solutions were used: onion juice and beetroot juice. The samples were dried by freeze-drying and vacuum. Numerous volatile compounds were identified: twenty-two for raw cauliflower, twenty-nine for cauliflower after VI with beetroot juice, and twenty-four for cauliflower after vacuum impregnation with onion juice. The following volatile compounds were present in the highest amounts: 1-heptene, 2-methyl-(>60%), 2-ethylcyclobutanol (>4%), nona-3,5-dien-2-one (>1.8%), and two unidentified compounds, unknown 1 (probably an isomer of nona-3,5-dien-2-one (>1.8%)) and unknown 2 (probably a fatty acid) (>9.8%). The pretreatment had a significant effect on water activity, density, texture profile and color. The freeze-drying method proved to be effective in obtaining lower values of water activity and density. In addition, dried products obtained by this method were characterized by a higher degree of color recovery after rehydration and textural properties similar to fresh raw material. The use of different impregnation solutions had a significant impact on the properties studied. The greatest color change occurred in cauliflower treated with beetroot juice. Full article

The production of functional bread has been of great interest lately to the Food Industry. Regarding this, the enrichment of bread with natural raw materials rich in phenolic antioxidants, such as fruits, has become a new trend. Likewise, the aim of the current study was to evaluate novel supplements based on freeze-dried Cornelian cherry juice, both unfermented and fermented by probiotic L. plantarum ATCC 14917, in sourdough bread production. The outcome showed that the fermented supplement led to sourdough bread with elevated nutritional features in terms of its total phenolic content (99.5 mg GAE/100 g) and antioxidant activity (213 mg TE/100 g for ABTS and 4.7 μmol TE/g for DPPH), as well as a reduction in phytic acid (93.3%) compared with all the other bread samples. In addition, the same sample contained higher amounts of lactic (2.91 g/Kg bread) and acetic acid (1.23 g/Kg), as well as formic (0.11 g/Kg), n-valeric (0.12 g/Kg) and caproic (0.05 g/Kg) acids compared with all the other samples, leading to a higher preservation time (13 days) regarding rope and mold spoilage. All breads exhibited the same sensorial characteristics, proving that the supplement did not affect bread quality. This outcome is very interesting since powdered supplements have recently been endorsed in the bread industry for enabling nutritional and technological improvements. Full article

The aim of this work was to determine the impact of pulsed electric field treatment of beetroots on select physicochemical properties of the obtained juice, spray-dried juice, and freeze-dried pomace. Pulsed electric field pretreatment of beetroots was conducted with a different number of pulses (3 or 44 pulses) at a constant electric field strength of E = 1.07 kV/cm, which resulted in the total energy levels of 0.5 and 4 kJ/kg. The juice was dehumidified and air spray-dried with NUTRIOSE^® as a drying carrier at 90/60 °C, while pomace was freeze-dried at 0.63 Pa and a shelf temperature of 20 °C. Pulsed electric field (PEF) treatment caused an increase in pigment content in beetroots and the juice. In the case of powders, the following effects were noted: a decrease in drying efficiency, changed powder color, decreased powder particle diameter. Dried juice and pomace treated with a higher pulsed electric field (PEF) treatment were characterized by the highest hygroscopicity. Full article