Your search keyword '"Kurek MA"' showing total 35 results

1. Application of variable equivalent amplitude for determination of fatigue life of elements subjected to block loading

Author

Obrał Justyna, Kurek Marta, Łagoda Tadeusz, and Głowacka Karolina

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

This paper contains a proposition of a new method of determining the fatigue life of elements subjected to non-stationary loads. The model was based on the determination of the time-variable equivalent weighted amplitude. This amplitude is derived on a continuous basis as the arithmetic mean of nth root of the amplitudes that occur up to a given time. The analysis of the proposed model was carried out on the basis of selected literature insights based on specimens made of P91 and P92 steels. The experimental tests were performed under block loading with a zero mean value in the conditions of tension-compression with a small number of cycles.

Published

2021

2. Effect of print orientation using DMLS method on strength of materials

Author

Miozga Rafael and Kurek Marta

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

The paper reported the results of a study concerned with the principle of operation of the 3D printing technology using the method of selective sintering of metallic powders, and taking into account their advantages and drawbacks. The principle of the operation of 3D printing technology applying the DMLS (Direct Metal Laser Sintering) method is presented. On the basis of the performed tests, the anisotropy of the printed materials is demonstrated. The reasons responsible for this phenomenon are identified. The paper presents the results of the strength tests which indicate that the crack during the test occur in the building direction of the layers during printing. The results were compiled for two different types of specimens and two different testing machines.

Published

2021

3. The generalized criterion of multiaxial random fatigue based on conception proposed by prof. Macha

Author

Łagoda Tadeusz, Kurek Marta, and Łagoda Karolina

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

This criterion has been repeatedly verified, analyzed and special cases of this criterion reducing complex stress to equivalent uniaxial were taken into account. Since both normal and shear stress are vectors, we encounter the mathematical problem of adding these vectors, and the question arises how to understand the obtained equivalent stress, because two perpendicular vectors are added with weighting factors. Therefore, in this work it was proposed to adopt a system of complex numbers. Normal stress was defined as the real part and shear stress as imaginary part. As a result, on the basis of the defined complex number and basing on pure bending and pure torsion after transformations, the expression for equivalent stress was identical to the previously proposed criteria defined on the basis of the concept of prof. Macha.

Published

2019

4. Including the normal to shear stresses ratio in fatigue life estimation for cyclic loadings

Author

Kurek Marta

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

The paper presents the estimation of the fatigue life under multiaxial cyclic loading of two construction materials. The main aim of this paper is to present a new method which allows evaluation of fatigue life during the design and construction phase of machine elements. In paper three well known multiaxial fatigue criteria based on the critical plane approach verified. This paper contains a proposition to define a new way of determining an orientation angle of the critical plane. The comparison between experimental and theoretical results varying the critical plane orientation appears to be satisfactory.

Published

2019

5. Verification of new model for determining the critical plane orientation angle

Author

Kurek Marta

Subjects

Environmental sciences, GE1-350

Abstract

The principal objective of this study is to establish a method which can enable the assessment of fatigue life at the stage of the design and building of machine parts and equipment. The paper contains a description of a manner in which the angle of a critical plane can be determined, which is coupled with its adequate verification. The study in the paper is based on an assumption of an idea of a critical plane which adopts that the occurrence of a fatigue crack of a material is caused by the occurrence of strain in the critical plane of a material. The conclusion from this study takes the form of a comparison between the experimental and calculated results performed by adoption of the developed model. The results demonstrate satisfactory level of conformity between the two.

Published

2017

6. Rapid and efficient high-performance liquid chromatography-ultraviolet determination of total amino acids in protein isolates by ultrasound-assisted acid hydrolysis.

Author

Custodio-Mendoza JA, Pokorski P, Aktaş H, and Kurek MA

Subjects

Hydrolysis, Chromatography, High Pressure Liquid methods, Ultrasonic Waves, Plant Proteins analysis, Plant Proteins chemistry, Time Factors, Hydrogen-Ion Concentration, Spectrophotometry, Ultraviolet methods, Sonication methods, Amino Acids analysis, Amino Acids chemistry

Abstract

This study presents the optimization and validation of an ultrasound-assisted acid method for the HPLC-UV determination of amino acids in plant-based proteins. The research focuses on enhancing hydrolysis efficiency and reducing environmental impact. Ultrasound treatment significantly accelerated hydrolysis by creating cavitation, which increases local pressure and temperature, leading to faster reaction rates. The optimal condition was a 30-minute treatment at 90 °C with 6 M hydrochloric acid. The 9-fluorenylmethyloxycarbonyl chloride derivatization was best performed at pH 9.0 using borate buffer, ethanol as the organic solvent, and a 5-minute derivatization time with a 5 mM concentration. The method's analytical performance, validated according to FDA guidelines, showed excellent selectivity, specificity, linearity (r 2  > 0.999), accuracy (recovery between 80-118 %), and precision (RSD<10.9). The analysis of 15 plant-based proteins revealed distinct amino acid profiles. Compared to traditional acid hydrolysis methods, the ultrasound-assisted approach demonstrated no significant difference in results (p-value > 0.05), confirming its reliability. The optimized ultrasound-assisted method is a reliable and efficient alternative for amino acid analysis, offering significant cost and time savings while maintaining high analytical performance. These findings are crucial for nutritional planning and developing functional foods to improve health outcomes., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2024

7. Advancing protein hydrolysis and phytosterol encapsulation: Emerging trends and innovations in protein-based microencapsulation techniques - A comprehensive review.

Author

Pokorski P, He R, and Kurek MA

Subjects

Hydrolysis, Protein Hydrolysates chemistry, Biological Availability, Solubility, Humans, Antioxidants chemistry, Proteins chemistry, Phytosterols chemistry, Drug Compounding

Abstract

Phytosterols represent a diverse and complex category of lipophilic bioactive compounds, exhibiting excellent pro-healthy properties. However, their consumption in daily diets is insufficient, and their application in food production is hindered by challenges such as low water solubility, high reactivity, and rapid degradation. The adoption of different protein or their structural modification as hydrolysates as wall material into microencapsulation techniques can be associated with improved solubility, enhanced bioaccessibility, increased bioavailability, and an extension of shelf life. This contribution provides an overview of advancements in modifying functional properties through various protein isolation methods and structural changes resulting from enzymatic hydrolysis. Additionally, the paper considers the state of the art in the utilization of various techniques and the composition of wall material in the encapsulation of phytosterols and other common lipophilic phytochemicals incorporated into delivery systems. Protein isolates obtained through novel methods of extraction may be characterized by an enhancement of their functional properties, which is crucial for the microencapsulation process. It entails not only recognizing their role as protective barriers for core materials against environmental conditions but also acknowledging their potential health-promoting attributes. These attributes encompass antioxidant properties and enhanced functional characteristics compared to native proteins. Moreover, the exploration of protein hydrolysates as versatile wall materials holds significant promise. These hydrolysates offer exceptional protective features for core materials, extending beyond mere environmental shielding. The envisioned impact extends beyond conventional delivery systems, offering transformative potential for the future of drug delivery and nutraceutical formulations., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

8. Polysaccharide-potato protein coacervates for enhanced anthocyanin bioavailability and stability.

Author

Aktaş H, Custodio-Mendoza J, Szpicer A, Pokorski P, Samborska K, and Kurek MA

Abstract

Anthocyanins (ACNs) possess strong antioxidants, anti-cancer, anti-obesity, anti-diabetic, and anti-inflammatory properties but are limited use by their susceptibility to environmental factors. This study aims to overcome these limitations by developing and assessing a novel coacervate system, consisting of potato protein isolate (PPI) combined with various polysaccharides, to stabilize and encapsulate anthocyanins from black carrot concentrate The polysaccharides included in this system include inulin, gum Arabic, guar gum, pectin, and soluble fiber. The coacervate system's effectiveness in maintaining stability and increasing the bioavailability of anthocyanins was evaluated compared to conventional soybean protein-based systems. The results show that pH considerably influences potato protein solubility, with maximum solubility at strongly acidic (pH 2) conditions. Hygroscopicity and moisture content analysis of the coacervates showed significant variations, with potato protein-guar gum (PPIGG) microcapsules having the lowest moisture content and potato protein gum Arabic (PPIGA) microcapsules having the highest moisture content. SEM imaging illustrated distinct microcapsule morphologies, while FT-IR measurement verified the successful integration of proteins and polysaccharides. The significance of the research reflects its proof that potato protein isolate (PPI) based coacervate systems consists of potato protein with polysaccharides, particularly those containing gum Arabic and pectin, have significant potential for improving anthocyanin stability and bioavailability. These findings guide future studies to investigate other polysaccharides, improve coacervation processes, and explore applications in the food and nutraceutical sectors. It also offers valuable insights for creating efficient encapsulation techniques for bioactive substances., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

9. Microencapsulation of green tea polyphenols: Utilizing oat oil and starch-based double emulsions for improved delivery.

Author

Aktaş H, Napiórkowska A, Szpicer A, Custodio-Mendoza JA, Paraskevopoulou A, Pavlidou E, and Kurek MA

Subjects

Plant Oils chemistry, Avena chemistry, Gum Arabic chemistry, Capsules, Viscosity, Polysaccharides, Emulsions chemistry, Polyphenols chemistry, Starch chemistry, Tea chemistry, Antioxidants chemistry, Drug Compounding

Abstract

The stability and bioavailability of green tea polyphenols, crucial for their health benefits, are compromised by environmental sensitivity, limiting their use in functional foods and supplements. This study introduces a novel water-in-oil-in-water double emulsion technique with microwave-assisted extraction, significantly enhancing the stability and bioavailability of these compounds. The primary objective of this study was to assess the effectiveness of several encapsulating agents, such as gum Arabic as control and native and modified starches, in improving encapsulated substances' stability and release control. Native and modified starches were chosen for their outstanding film-forming properties, improving encapsulation efficiency and protecting bioactive compounds from oxidative degradation. The combination of maltodextrin and tapioca starch improved phenolic content retention, giving 46.25 ± 2.63 mg/g in tapioca starch microcapsules (GTTA) and 41.73 ± 3.24 mg/g in gum arabic microcapsules (GTGA). Besides the control, modified starches also had the most potent antioxidant activity, with a 45 % inhibition (inh%) in the DPPH analysis. Oat oil was utilized for its superior viscosity and nutritional profile, boosting emulsion stability and providing the integrity of the encapsulated polyphenols, as indicated by the microcapsules' narrow span index (1.30 ± 0.002). The microcapsules' thermal behavior and structural integrity were confirmed using advanced methods such as Differential Scanning Calorimetry (DSC) and Fourier-Transform Infrared Spectroscopy (FT-IR). This study highlights the critical role of choosing appropriate wall materials and extraction techniques. It sets a new standard for microencapsulation applications in the food industry, paving the way for future innovations., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

10. Advances in Chromatographic Analysis of Phenolic Phytochemicals in Foods: Bridging Gaps and Exploring New Horizons.

Author

Custodio-Mendoza JA, Pokorski P, Aktaş H, Napiórkowska A, and Kurek MA

Abstract

Chromatographic analysis of phenolic phytochemicals in foods has significantly advanced over the past decade (2014-2024), meeting increasing demands for precision and efficiency. This review covers both conventional and advanced chromatographic techniques used for detecting phenolic phytochemicals in foods. Conventional methods like High-Performance Liquid Chromatography, Ultra High-Performance Liquid Chromatography, Thin-Layer Chromatography, and Gas Chromatography are discussed, along with their benefits and limitations. Advanced techniques, including Hydrophilic Interaction Liquid Chromatography, Nano-LC, Multidimensional Liquid Chromatography, and Capillary Electrophoresis, are highlighted for their innovations and improved capabilities. The review addresses challenges in current chromatographic methods, emphasizing the need for standardized and validated procedures according to the Food and Drug Administration, European Cooperation for Accreditation of Laboratories, and The International Organization for Standardization guidelines to ensure reliable and reproducible results. It also considers novel strategies for reducing the environmental impact of chromatographic methods, advocating for sustainable practices in analytical chemistry.

Published

2024

11. Deep eutectic solvents for the extraction of polyphenols from food plants.

Author

Aktaş H and Kurek MA

Subjects

Plants, Edible, Solvents, Polyphenols analysis, Deep Eutectic Solvents

Abstract

Deep Eutectic Solvents (DESs) offer a promising, sustainable alternative for extracting polyphenols from food plants, known for their health benefits. Traditional extraction methods are often costly and involve toxic solvents. This review discusses the basic concepts, preparation techniques, and factors influencing the effective and safe use of DESs in polyphenol extraction. DESs' adaptability allows integration with other green extraction technologies, such as microwave- and ultrasound-assisted extractions, enhancing their efficiency. This adaptability demonstrates the potential of DESs in the sustainable extraction of bioactive compounds. Current research indicates that DESs could play a significant role in the sustainable procurement of these compounds, marking an important advancement in food science research and development. The review underscores DESs as a realistic, eco-friendly alternative in the realm of natural extraction technologies, offering a significant contribution to sustainable practices in food science., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

12. Essential Oil Nanoemulsions-A New Strategy to Extend the Shelf Life of Smoothies.

Author

Napiórkowska A, Khaneghah AM, and Kurek MA

Abstract

Over the years, consumer awareness of proper, healthy eating has increased significantly, but the consumption of fruits and vegetables remains too low. Smoothie drinks offer a convenient way to supplement daily diets with servings of fruits and vegetables. These ready-to-eat beverages retain the nutritional benefits of the raw ingredients from which they are made. Furthermore, they cater to the growing demand for quick and nutritious meal options. To meet consumer expectations, current trends in the food market are shifting towards natural, high-quality products with minimal processing and extended shelf life. Food manufacturers are increasingly aiming to reduce or eliminate synthetic preservatives, replacing them with plant-based alternatives. Plant-based preservatives are particularly appealing to consumers, who often view them as natural and organic substitutes for conventional preservatives. Essential oils, known for their antibacterial and antifungal properties, are effective against the microorganisms and fungi present in fruit and vegetable smoothies. However, the strong taste and aroma of essential oils can be a significant drawback, as the concentrations needed for microbiological stability are often unpalatable to consumers. Encapsulation of essential oils in nanoemulsions offers a promising and effective solution to these challenges, allowing for their use in food production without compromising sensory qualities.

Published

2024

13. Simultaneous determination of six catechins and caffeine in tea and wine using salting-out assisted liquid-liquid extraction and high-performance liquid chromatography with ultraviolet detection.

Author

Custodio-Mendoza JA, Pokorski P, Aktaş H, Carro AM, and Kurek MA

Subjects

Chromatography, High Pressure Liquid methods, Spectrophotometry, Ultraviolet, Ultraviolet Rays, Wine analysis, Caffeine analysis, Catechin analysis, Tea chemistry, Liquid-Liquid Extraction methods

Abstract

Catechins, renowned for their antioxidant properties and health benefits, are commonly present in beverages, particularly tea and wine. An efficient and cost-effective salting-out assisted liquid-liquid extraction (SALLE) method has been developed and validated for the simultaneous determination of six catechins and caffeine in tea and wine samples using high-performance liquid chromatography-ultraviolet (HPLC-UV). This method demonstrates outstanding performance: linearity (1-120 µg/mL, r 2  > 0.999), accuracy (96.5%-103.4% recovery), and precision (≤14.7% relative standard deviation), meeting validation requirements set by the US Food and Drug Administration. The reduced sample size (0.1 g) minimizes matrix interferences and costs without compromising sensitivity. All analytes were detected in Camellia sinensis teas, with green tea displaying the highest total catechin content (47.5-100.1 mg/mL), followed by white and black teas. Analysis of wine samples reveals the presence of catechin in all red and white wines, and epigallocatechin gallate in all red wine samples, highlighting the impact of winemaking processes on catechin content. The SALLE-HPLC-UV approach represents a green alternative by eliminating organic waste, surpassing conventional dilution methods in specificity and sensitivity for catechin determination. AGREEprep assessment emphasizes the strengths of the SALLE procedure, including material reusability, throughput efficiency, minimal sample requirements, low energy consumption, and the absence of organic waste generation., (© 2024 Wiley‐VCH GmbH.)

Published

2024

14. Microencapsulation of Essential Oils Using Faba Bean Protein and Chia Seed Polysaccharides via Complex Coacervation Method.

Author

Napiórkowska A, Szpicer A, Górska-Horczyczak E, and Kurek MA

Subjects

Solubility, Spectroscopy, Fourier Transform Infrared, Water chemistry, Polysaccharides chemistry, Seeds chemistry, Vicia faba chemistry, Drug Compounding methods, Oils, Volatile chemistry, Plant Proteins chemistry, Salvia chemistry, Capsules chemistry

Abstract

The aim of this study was to develop microcapsules containing juniper or black pepper essential oils, using a combination of faba bean protein and chia seed polysaccharides (in ratios of 1:1, 1:2, 2:1). By synergizing these two polymers, our goal was to enhance the efficiency of essential oil microencapsulation, opening up various applications in the food industry. Additionally, we aimed to investigate the influence of different polymer mixing ratios on the properties of the resulting microcapsules and the course of the complex coacervation process. To dissolve the essential oils and limit their evaporation, soybean and rapeseed oils were used. The powders resulting from the freeze-drying of coacervates underwent testing to assess microencapsulation efficiency (65.64-87.85%), density, flowability, water content, solubility, and hygroscopicity. Additionally, FT-IR and DSC analyses were conducted. FT-IR analysis confirmed the interactions between the components of the microcapsules, and these interactions were reflected in their high thermal resistance, especially at a protein-to-polysaccharide ratio of 2:1 (177.2 °C). The water content in the obtained powders was low (3.72-7.65%), but it contributed to their hygroscopicity (40.40-76.98%).

Published

2024

15. A Review of Quantitative and Topical Analysis of Anthocyanins in Food.

Author

Custodio-Mendoza JA, Aktaş H, Zalewska M, Wyrwisz J, and Kurek MA

Subjects

Chromatography, High Pressure Liquid methods, Mass Spectrometry methods, Spectroscopy, Near-Infrared methods, Anthocyanins analysis, Anthocyanins chemistry, Food Analysis methods

Abstract

Anthocyanins, a subclass of flavonoids known for their vibrant colors and health-promoting properties, are pivotal in the nutritional science and food industry. This review article delves into the analytical methodologies for anthocyanin detection and quantification in food matrices, comparing quantitative and topical techniques. Quantitative methods, including High-performance Liquid Chromatography (HPLC) and Mass Spectrometry (MS), offer precise quantification and profiling of individual anthocyanins but require sample destruction, limiting their use in continuous quality control. Topical approaches, such as Near-infrared Spectroscopy (NIR) and hyperspectral imaging, provide rapid, in situ analysis without compromising sample integrity, ideal for on-site food quality assessment. The review highlights the advancements in chromatographic techniques, particularly Ultra-high-performance Liquid Chromatography (UHPLC) coupled with modern detectors, enhancing resolution and speed in anthocyanin analysis. It also emphasizes the growing importance of topical techniques in the food industry for their efficiency and minimal sample preparation. By examining the strengths and limitations of both analytical realms, this article aims to shed light on current challenges and prospective advancements, providing insights into future research directions for improving anthocyanin analysis in foods.

Published

2024

16. Microencapsulation of Juniper and Black Pepper Essential Oil Using the Coacervation Method and Its Properties after Freeze-Drying.

Author

Napiórkowska A, Szpicer A, Wojtasik-Kalinowska I, Perez MDT, González HD, and Kurek MA

Abstract

Essential oils are mixtures of chemical compounds that are very susceptible to the effects of the external environment. Hence, more attention has been drawn to their preservation methods. The aim of the study was to test the possibility of using the classical model of complex coacervation for the microencapsulation of essential oils. Black pepper ( Piper nigrum ) and juniper ( Juniperus communis ) essential oils were dissolved in grape seed (GSO) and soybean (SBO) oil to minimize their loss during the process, and formed the core material. Various mixing ratios of polymers (gelatin (G), gum Arabic (GA)) were tested: 1:1; 1:2, and 2:1. The oil content was 10%, and the essential oil content was 1%. The prepared coacervates were lyophilized and then screened to obtain a powder. The following analyses were determined: encapsulation efficiency (EE), Carr index (CI), Hausner ratio (HR), solubility, hygroscopicity, moisture content, and particle size. The highest encapsulation efficiency achieved was within the range of 64.09-59.89%. The mixing ratio G/GA = 2:1 allowed us to obtain powders that were characterized by the lowest solubility (6.55-11.20%). The smallest particle sizes, which did not exceed 6 μm, characterized the powders obtained by mixing G/GA = 1:1. All powder samples were characterized by high cohesiveness and thus poor or very poor flow (CI = 30.58-50.27, HR = 1.45-2.01).

Published

2023

17. Novel Protein Sources for Applications in Meat-Alternative Products-Insight and Challenges.

Author

Kurek MA, Onopiuk A, Pogorzelska-Nowicka E, Szpicer A, Zalewska M, and Półtorak A

Abstract

Many people are increasingly interested in a vegetarian or vegan diet. Looking at the research and the available options in the market, there are two generations of products based on typical proteins, such as soy or gluten, and newer generation proteins, such as peas or faba beans, or even proteins based on previously used feed proteins. In the review, we present the characteristics of several proteins that can be consumed as alternatives to first-generation proteins used in vegan foods. In the following part of the work, we describe the research in which novel protein sources were used in terms of the product they are used for. The paper describes protein sources such as cereal proteins, oilseeds proteins coming from the cakes after oil pressing, and novel sources such as algae, insects, and fungus for use in meat analog products. Technological processes that can make non-animal proteins similar to meat are also discussed, as well as the challenges faced by technologists working in the field of vegan products.

Published

2022

18. Evaluation of Modified Atmosphere Packaging in Combination with Active Packaging to Increase Shelf Life of High-in Beta-Glucan Gluten Free Cake.

Author

Wyrwisz J, Karp S, Kurek MA, and Moczkowska-Wyrwisz M

Abstract

Modified atmosphere packaging and active packaging were combined to prolong the shelf life and quality of the clean label, gluten-free (GF), yeast-leavened cakes enriched in oat fiber preparation. Star anise, cinnamon bark, and clove essential oils were used as emitters of active substances. The following concentrations of gases were chosen: 0% CO 2 /100%/N 2 (MAP 1 ), 60% CO 2 /40% N 2 (MAP 2 ), and approx. 78% N 2 /21% O 2 /0.04% CO 2 (ATM). Microbiological and physicochemical analyses were conducted. GF cakes were stored for 14 days (analysis in 0, 7, and 14 days). The results showed a decrease in moisture content and lightness of crumb and an increase in hardness. EOs significantly ( p ≤ 0.05) slowed down the growth of microorganisms regardless of the type of gas mixture. However, the best bacteriostatic effect was in MAP 2 . The content of beta-glucan did not change throughout the storage time. Generally, the best results were obtained with the combination of MAP and active packaging-60% of CO 2 and 40% of N 2 -where cinnamon or clove essential oils were used.

Published

2022

19. Green Extraction of Carotenoids from Fruit and Vegetable Byproducts: A Review.

Author

Kultys E and Kurek MA

Subjects

Microwaves, Ultrasonic Waves, Carotenoids isolation & purification, Fruit chemistry, Green Chemistry Technology methods, Plant Extracts isolation & purification, Vegetables chemistry

Abstract

Carotenoids are characterized by a wide range of health-promoting properties. For example, they support the immune system and wound healing process and protect against UV radiation's harmful effects. Therefore, they are used in the food industry and cosmetics, animal feed, and pharmaceuticals. The main sources of carotenoids are the edible and non-edible parts of fruit and vegetables. Therefore, the extraction of bioactive substances from the by-products of vegetable and fruit processing can greatly reduce food waste. This article describes the latest methods for the extraction of carotenoids from fruit and vegetable byproducts, such as solvent-free extraction-which avoids the costs and risks associated with the use of petrochemical solvents, reduces the impact on the external environment, and additionally increases the purity of the extract-or green extraction using ultrasound and microwaves, which enables a significant improvement in process efficiency and reduction in extraction time. Another method is supercritical extraction with CO 2 , an ideal supercritical fluid that is non-toxic, inexpensive, readily available, and easily removable from the product, with a high penetration capacity.

Published

2022

20. Development of Gluten-Free Muffins with β-Glucan and Pomegranate Powder Using Response Surface Methodology.

Author

Kurek MA, Moczkowska-Wyrwisz M, Wyrwisz J, and Karp S

Abstract

More consumers are being diagnosed with celiac disease or diseases in which wheat products should be avoided. For this reason, it is important to increase the range of gluten-free products available. In this study, it was decided to optimize the technology for the creation of a muffin with β-glucan (BG) and pomegranate (PG), while establishing water share (WT), using the response surface methodology. It was shown that β-glucan and water had the most significant influence on specific volume and moisture ( p ≤ 0.001). However, the increase of hardness, color, and total phenolic content (TPC) was mainly influenced by the increase of pomegranate content ( p ≤ 0.01 for harness and color and p ≤ 0.001 for TPC). Consumers accepted products high in β-glucan more than high in pomegranate. Optimization ended with a composition that included 1.89% BG, 9.51% PG, and 77.87% WT. There were no significant differences between the model and the experimental sample, apart from higher consumer acceptability.

Published

2021

21. Plant-Based (Hemp, Pea and Rice) Protein-Maltodextrin Combinations as Wall Material for Spray-Drying Microencapsulation of Hempseed ( Cannabis sativa ) Oil.

Author

Kurek MA and Pratap-Singh A

Abstract

Conscious consumers have created a need for constant development of technologies and food ingredients. This study aimed to examine the properties of emulsions and spray-dried microcapsules prepared from hempseed oil by employing a combination of maltodextrin with hemp, pea, and rice protein as carrier materials. Oil content in the microcapsules was varied at two levels: 10 and 20%. Increasing oil load caused a decrease in viscosity of all samples. Consistency index of prepared emulsions was calculated according to Power Law model, with the lowest (9.2 ± 1.3 mPa·s) and highest values (68.3 ± 1.1 mPa·s) for hemp and rice protein, respectively, both at 10% oil loading. The emulsion stability ranged from 68.2 ± 0.7% to 88.1 ± 0.9%. Color characteristics of the microcapsules were defined by high L* values (from 74.65 ± 0.03 to 83.06 ± 0.03) and low a* values (-1.02 ± 0.015 to 0.12 ± 0.005), suggesting that the materials were able to coat the greenish color of the hemp seed oil acceptably. The highest encapsulation efficiency was observed in samples with rice protein, while the lowest was with hemp protein. Combination of maltodextrin and proteins had a preventive effect on the oxidative stability of hempseed oil. Oil release profile fitted well with the Higuchi model, with hempseed oil microencapsulated with pea protein-maltodextrin combination at 10% oil loading depicting lowest oil release rates and best oxidative stability.

Published

2020

22. The impact of different levels of oat β-glucan and water on gluten-free cake rheology and physicochemical characterisation.

Author

Karp S, Wyrwisz J, and Kurek MA

Abstract

The demand for new gluten-free (GF) products is still very crucial issue in food industry. There is also a need for bioactive compounds and natural alternatives for food additives. For now, not only providing structure without gluten is major challenge, but also high sensory acceptance and nutritional value are on the top. This study is focused on the effect of high-purity oat β-glucan as a structure-making agent on physicochemical and sensory properties of gluten-free yeast leavened cake. The response surface methodology (RSM) was used to set the design of the experiment. Water and oat β-glucan were chosen as independent variables. Enzymatic extraction was conducted in order to obtain pure oat β-glucan (approx. 85%). Physicochemical and microstructure analyses, and a consumer hedonic test were carried out to check the quality of the final product. As a last step, verification was undertaken to compare the predicted and experimental values of the results. The results showed that the optimisation process was crucial in obtaining high-quality, gluten-free yeast leavened cake. The optimised amounts of water and oat β-glucan were 66.12% and 2.63% respectively. This proves that the application of oat β-glucan to gluten-free products is possible and gives positive results in terms of texture, volume and sensory acceptance. Due to oat β-glucan's pro-health benefits, the final product can be seen as a functional alternative for common gluten-free products in the market., Competing Interests: Conflict of interestThe authors declare that they have no conflict of interest., (© The Author(s) 2020.)

Published

2020

23. Effect of modified atmosphere packaging on quality of bread with amaranth flour addition.

Author

Kurek MA and Krzemińska A

Subjects

Carbon Dioxide chemistry, Food Storage, Hardness, Triticum, Amaranthus, Bread analysis, Flour analysis, Food Packaging methods

Abstract

The study of the effect of the modified atmosphere packaging on quality of the bread was done after replacing wheat flour with amaranth flour in replacement of wheat flour for 0, 5, 10 and 15% by weight. The bread was stored for one, three and seven days in the ATM, 100% N 2 and 30% CO 2 . The study proved the 30% CO 2 modified atmosphere to be the optimal storage condition. It allowed to preserve volume, water content and contributed at least to increase in hardness of bread, which with the addition of amaranth flour decreased. The colour of bread during storage was characterised by the increase in L* parameter and decrease in a* and b*. For the decreased storage time, the effect was opposite. The replacement by 5% of amaranth flour increased the polyphenol content and did not affect bread quality.

Published

2020

24. Microencapsulation of Camelina sativa Oil Using Selected Soluble Fractions of Dietary Fiber as the Wall Material.

Author

Kanclerz A, Drozińska E, and Kurek MA

Abstract

The aim of the study was to prove the usefulness of microencapsulation of Camelina sativa oil regarding its vulnerability to oxidation caused by oxygen, temperature, and other factors. Pectin, inulin, gum arabic, and β-glucan, each of them mixed with maltodextrin, were used as wall materials and their appropriability to reduce oxidation of the core material was examined. Microcapsules were prepared by spray drying, which is the most commonly used and very effective method. The research confirmed results known from literature, that gum arabic and inulin are most proper wall materials, because they ensure small oxidation increase during storage (4.59 and 5.92 eq/kg after seven days respectively) and also provide high efficiency of process (83.93% and 91.74%, respectively). Pectin turned out to be the least appropriate polysaccharide because it is not able to assure sufficient protection for the core material, in this case Camelina sativa oil, due to low efficiency (61.36%) and high oxidation (16.11 eq/kg after seven days). β-glucan occurred to be the coating material with relatively high encapsulation efficiency (79.26%) but high humidity (4.97%) which could negatively influence the storage of microcapsules. The use of polysaccharides in microencapsulation, except performing the role of wall material, has the advantage of increasing the amount of dietary fiber in human diet., Competing Interests: The authors declare no conflict of interest.

Published

2019

25. The Effect of Natural Antioxidants on Quality and Shelf Life of Beef and Beef Products.

Author

Horbańczuk OK, Kurek MA, Atanasov AG, Brnčić M, and Rimac Brnčić S

Abstract

Oxidation processes are the major cause of deterioration of meat quality and shelf life of meat products, leading to negative changes in nutritive value and in sensory and physicochemical properties of meat. Until now, the synthetic antioxidants like butylated hydroxyl anisole have been commonly used to prevent oxidation, which however may cause potential human health risks and increase toxicity of the product. However, natural antioxidants can be the alternative solution for this problem since plants and plant materials are rich in bioactive compounds (as natural antioxidants) with potential health beneficial effects. Moreover, the interest of consumers in using natural products is still increasing. There is an expectation of replacing synthetic antioxidants and preservatives by natural ones. Therefore, the aim of the present review is to provide information on the effect of natural antioxidants from vegetables and fruits like olives, pomegranate or grapes, and herbs and spices like rosemary, oregano, sage, black cumin or turmeric, rich in bioactive compounds on quality and shelf life of beef and beef products.

Published

2019

26. The Composition of Fatty Acids in Ostrich Meat Influenced by the Type of Packaging and Refrigerated Storage.

Author

Horbańczuk OK, Moczkowska M, Marchewka J, Atanasov AG, and Kurek MA

Subjects

Animals, Time Factors, Cold Temperature, Fatty Acids, Unsaturated analysis, Food Analysis, Food Packaging, Poultry, Struthioniformes

Abstract

Ostrich meat is a high-quality dietetic product, however, it is very sensitive to deterioration during storage. The aim of this study was to assess the effect of packaging systems on the fatty acid (FA) profiles in ostrich meat during refrigerated storage. The systems were: Vacuum packaging (VP) and modified atmosphere packaging (MAP) in two combinations of gases: MAP1 (40% O 2 /40% CO 2 /20% N 2 ) and MAP2 (60% O 2 /30% CO 2 /10% N 2 ). Samples were taken from the M. ilifibularis (IF) muscles of eight ostriches in each treatment group. The packs were stored in a refrigerator at 2 °C and analyzed at 0, 4, 8, 12 and 16 days. The packaging conditions and storage time had an impact on the concentration of bioactive compounds such as polyunsaturated fatty acids (PUFA), including n-3 such as C18:3, C20:5 (EPA) and C22:6 (DHA). The least changes in composition of n-3 and the sum of PUFA were recorded in ostrich meat packaged in vacuum, followed by that packaged using MAP1 and MAP2. The sum of n-6 PUFAs decreased significantly by 2.1% for MAP2, and only by 0.7% for vacuum packaging as the experiment progressed. A significant deterioration of these compounds was observed in all package systems, especially from day 12 until day 16 of storage.

Published

2019

27. The use of high-in-β-glucan oat fibre powder as a structuring agent in gluten-free yeast-leavened cake.

Author

Karp S, Wyrwisz J, Kurek MA, and Wierzbicka A

Subjects

Flour analysis, Food Handling methods, Food Quality, Humans, Nutritive Value, Oryza chemistry, Polysaccharides, Bacterial, Porosity, Powders, Rheology, Saccharomyces cerevisiae, Taste, Zea mays, Avena chemistry, Diet, Gluten-Free, Dietary Fiber analysis, beta-Glucans chemistry

Abstract

The biggest challenge in the production of gluten-free baked products is creating a structure without gluten while maintaining physicochemical and sensory properties. The aim of this study was to evaluate the possibility of applying oat β-glucan as the thickening and structure-making agent instead of xanthan (control sample), due to its pro-health technological properties, in yeast-leavened gluten-free cake. Thus, high-in-β-glucan oat fibre powder was incorporated into cake formulations as 5, 10, 15 and 20% replacement of rice or corn flour. The complex analysis of physicochemical and sensory properties was conducted, where texture and rheological aspects were the most important. An analysis of the correlation between rheological and physical properties was also conducted. Corn and rice cakes differed, but the results showed the increase of β-glucan, total dietary fibre, springiness, cohesiveness, storage (G') and loss (G″) modulus and the decrease of firmness and lightness. Improvement of porosity and volume was also noticed. Significant correlation was observed among G', G″, specific volume and texture components. Accelerated texture changes were noticed after 24 h of storage. To sum up, it is justified to incorporate oat fibre into gluten-free baked products, both to increase nutritional value and improve cake structure.

Published

2019

28. Beta-Glucan as Wall Material in Encapsulation of Elderberry (Sambucus nigra) Extract.

Author

Sobieralska M and Kurek MA

Subjects

Desiccation, Fruit chemistry, Gum Arabic chemistry, Particle Size, Polysaccharides chemistry, Powders, Solubility, Water chemistry, Anthocyanins analysis, Ascorbic Acid analysis, Drug Compounding methods, Plant Extracts chemistry, Sambucus nigra chemistry, beta-Glucans chemistry

Abstract

The aim of the study was to investigate the potential of using β-glucan as wall material to microencapsulate the elderberry extract. Firstly, the extract was obtained by the water-acetone extraction method to extract mainly anthocyanins from ground dried fruits. The extract was mixed with wall materials: maltodextrin-β-glucan mixture and the control sample as a widely used combination of maltodextrin and arabic gum (92.5:7.5). In the examined samples the content of β-glucan was 0.5, 1, 2 and 3%. Properties of encapsulated extracts of final powders were measured using particle size and morphology, encapsulation efficiency, color measurement, total anthocyanin and ascorbic acid content (TAC and TAAC) methods. Our results indicated that the β-glucan wall material samples had higher process quality compared to control samples. Addition of β-glucan insignificantly decreases encapsulation efficiency. Among powders with β-glucan content, the powder with 1% β-glucan content was characterized by the smallest (24 μm) particle size. The sample with 2% β-glucan content had the highest water solubility and polydispersity index. Due to the encapsulation efficiency, moisture content, and water solubility index, the optimum condition of microencapsulation process for elderberry extract was for samples with 0.5% β-glucan as wall material content. To conclude, due to high molecular weight of β-glucan the higher than 0.5% ratio of β-glucan is not recommended for spray-drying method. However, small quantity of health-beneficial β-glucan could act as potential encapsulation agent in clean label products to replace Arabic gum.

Published

2019

29. Comparative analysis of the physical properties of o/w emulsions stabilised by cereal β-glucan and other stabilisers.

Author

Karp S, Wyrwisz J, and Kurek MA

Subjects

Avena chemistry, Drug Stability, Emulsions, Hordeum chemistry, Molecular Weight, Viscosity, Edible Grain chemistry, Oils chemistry, Water chemistry, beta-Glucans chemistry

Abstract

The oil-in-water emulsion system is very common in food production. The aim of this study was the evaluation of extracted (enzymatic treatment) cereal β-glucan as a stabiliser in comparison to other commonly used food additives. Oat (OBG) and barley (BBG) β-glucan were applied at concentrations of 1%, 2% and 4%; gum guar, xanthan gum, hydroxypropyl methylcellulose at 0.5% each; lecithin at 2%; polyglycerol polyricinoleate at 4%; and, finally pectin at 3.2%. The following physical properties were examined: emulsion stability, foaming capacity and stability, droplet size distribution and viscosity. The results showed that cereal β-glucan reached very good emulsion stability (>80% after 14 days) and relatively high values of apparent viscosity (up to 12,243 cPa·s for 4% OBG, and 2264 cPa·s for 4% BBG; γ̇=20 1/s, day 14). The droplet size of barley β-glucan emulsion ranged between 14.88 and 60.06 μm, and of oat β-glucan emulsion between 15.68 and 46.22 μm. The results showed that cereal β-glucan acts like a viscosifier and can be applied in a variety of food products to improve their texture and viscosity., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

30. Microencapsulation of sea buckthorn oil with β-glucan from barley as coating material.

Author

Drozińska E, Kanclerz A, and Kurek MA

Subjects

Capsules chemistry, Chemical Phenomena, Drug Compounding, Drug Stability, Fatty Acids, Oxidation-Reduction, Particle Size, Solubility, Coated Materials, Biocompatible chemistry, Hippophae chemistry, Hordeum chemistry, Plant Oils chemistry, beta-Glucans chemistry

Abstract

Due to large amounts of polyunsaturated fatty acids, carotenoids, polyphenols and tocopherols, sea buckthorn oil is enjoying growing popularity among consumers. To meet their expectations food producers are more and more willing to add it to products such as yogurts, juices and bread. Unfortunately due to high content of compounds sensitive to the process to which food products are subjected, the oil addition is limited. The solution may be adding oil in the form of capsules. Microencapsulation is a developing technology which depends on enclosing active material in special wall material. The process makes it possible to protect the core material against the influence of external factors such as: sun rays, oxygen or microorganisms. As the research has shown the process of oil microencapsulation does not contribute to the degradation of lipids. In turn product maintains durability and stability for longer. For example lipid oxidation after one week storage in microcapsules with 3% beta-glucan in the coating material was 5.50mEq/kg fat. The oxidation was about five times lower than during conventional storage oil in the fridge (31.78mEq/kg fat). In addition, the process makes it possible to increase the intake of soluble dietary fiber fraction thanks to the possibility of using beta-glucan as a wall material for the microcapsules prepared., (Copyright © 2019. Published by Elsevier B.V.)

Published

2019

31. Use of guar gum, gum arabic, pectin, beta-glucan and inulin for microencapsulation of anthocyanins from chokeberry.

Author

Pieczykolan E and Kurek MA

Subjects

Anthocyanins analysis, Ascorbic Acid analysis, Capsules, Food Technology, Particle Size, Solubility, Thermodynamics, Water chemistry, Anthocyanins chemistry, Galactans chemistry, Gum Arabic chemistry, Inulin chemistry, Mannans chemistry, Pectins chemistry, Plant Gums chemistry, Rosaceae chemistry, beta-Glucans chemistry

Abstract

The aim of this study was to use micro-encapsulation technology to create microcapsules containing anthocyanins from chokeberry with guar gum, gum arabic, pectin, β-glucan and inulin as wall material. Aqueous extracts from chokeberry fruit were enclosed and spray dried using maltodextrin as a coating material with the addition of guar gum, gum arabic, pectin, beta-glucan, and inulin respectively. Physical properties of microcapsules were tested. The preparations also determined the total content of anthocyanins and vitamin C on the day of preparation and after 7 days of storage. In the executed research, the highest moisture content for gum arabic capsules was observed. The most different parameters of color were observed for capsules with beta-glucan. The biggest particles were observed for gum arabic and the smallest for guar gum. The differences were also noticed in chemical assays. The highest content of anthocyanins on the day of drying and after 7 days of storage was noticed for beta-glucan samples whereas the lowest content was observed for gum arabic samples. In case of vitamin C content, the sample, which stood out particularly, was pectin sample. The main conclusion is that the micro-encapsulation is an effective method to maintain the stability of sensitive compounds such as anthocyanins, but also ascorbic acid., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

32. Evaluation of WBSF, Color, Cooking Loss of Longissimus Lumborum Muscle with Fiber Optic Near-Infrared Spectroscopy (FT-NIR), Depending on Aging Time.

Author

Wyrwisz J, Moczkowska M, Kurek MA, Karp S, Atanasov AG, and Wierzbicka A

Subjects

Animals, Cattle, Time Factors, Cooking, Pigmentation, Red Meat analysis, Spectroscopy, Near-Infrared

Abstract

Near-infrared spectroscopy is a known technique for assessing the quality of compounds found in food products. However, it is still not widely used for predicting physical properties of meat using the online system. This study aims to assess the possibility of application of a NIR equipped with fiber optic system as an online measurement system to predict Warner⁻Bratzler shear force (WBSF) value, cooking loss (CL), and color of longissimus lumborum muscle, depending on aging time. The prediction model satisfactorily estimated the WBSF on day 1 and day 7 of aging as well as a* color parameter on day one and CL on day 21. This could be explained by the fact that during beef aging, the physicochemical structure of meat becomes more uniform and less differentiation of raw data is observed. There is still a challenge to obtain a verifiable model for the prediction of physical properties, using NIR, by utilizing more varied raw data.

Published

2019

33. Barley β-d-glucan - modified starch complex as potential encapsulation agent for fish oil.

Author

Kurek MA, Moczkowska M, Pieczykolan E, and Sobieralska M

Subjects

Desiccation, Factor Analysis, Statistical, Hordeum chemistry, Humans, Particle Size, Temperature, beta-Glucans isolation & purification, Capsules chemistry, Docosahexaenoic Acids analysis, Drug Compounding methods, Eicosapentaenoic Acid analysis, Fish Oils chemistry, Starch chemistry, beta-Glucans chemistry

Abstract

The aim of the study was to examine physicochemical characteristics of fish oil microcapsules produced at different temperatures and estimate the optimal ratio of BG, CS and spray drying temperature. Only the interaction between spray drying and β-d-glucan content played a significant role in influencing the encapsulation efficiency and spray drying itself (p ≤ 0.001 and p ≤ 0.05). Temperature played a significant role in increasing particle size as well, but the coefficient for this parameter was lower (0.179). The observed differences in particle size of microcapsules could be caused by the differences in glass transition temperature of the polymers (β-d-glucan and modified starch) used as wall material. It could be seen that the lowest TBARS content was observed when the β-d-glucan in the wall material was at relatively high level (85%) with moderate temperature applied (154 °C) - 0.56 mg of malonaldehyde/kg of powder. The highest amount of EPA was present in the sample with 50% share of β-d-glucan and spray dried in 150 °C (10.22 ± 0.24). After examination of all runs of the experiment, we have made optimization study to obtain the wall material composition and spray drying temperature values which will be most appropriate for fish oil encapsulation., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

34. Effect of natural flocculants on purity and properties of β-glucan extracted from barley and oat.

Author

Kurek MA, Karp S, Stelmasiak A, Pieczykolan E, Juszczyk K, and Rieder A

Subjects

Avena chemistry, Galactans chemistry, Hordeum chemistry, Mannans chemistry, Plant Gums chemistry, beta-Glucans chemistry

Abstract

In this study, β-glucan was extracted from wholegrain oat and barley flours by a novel extraction and purification method employing natural flocculants (chitosan, guar gum and gelatin). The use of flocculants decreased the total amount of extracted gum, which was highest in control samples (9.07 and 7.9% for oat and barley, respectively). The β-glucan specific yield, however, increased with the use of chitosan and guar gum, which were able to remove protein and ash impurities resulting in gums with a higher purity.The highest concentration of chitosan (0.6 %) resulted in gums with the highest β-glucan content (82.0 ± 0.23 and 79.0 ± 0.19 for barley and oat, respectively) and highest β-glucan specific yield (96.9 and 93.3 % for oat and barley, respectively). Explanation is in R&D section. The use of gelatin was not successful. All gum samples had a high content of total dietary fiber (>74%) and a high water holding capacity (4.6-7.4 g/g), but differed in apparent viscosity, which was highest for the oat sample extracted with 0.6% chitosan. This sample also showed the highest β-glucan molecular weight among the oat samples, which were in general 10-fold higher than for the barley samples. Among the barley samples, β-glucan molecular weight was highest for the control., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

35. Effect of fiber sources on fatty acids profile, glycemic index, and phenolic compound content of in vitro digested fortified wheat bread.

Author

Kurek MA, Wyrwisz J, Karp S, and Wierzbicka A

Abstract

In this study, some dietary fiber (DF) sources were investigated as fortifiers of wheat bread: oat (OB), flax (FB), and apple (AB). Adding oat and flax fibers to bread significantly changed the fatty acid profiles. OB was highest in oleic acid (33.83% of lipids) and linoleic acid (24.31% of lipids). Only in FB, γ-linolenic fatty acid was present in a significant amount-18.32%. The bioaccessibility trails revealed that the DF slow down the intake of saturated fatty acids. PUFA were least bioaccessible from all fatty acids groups in the range of (72% in OB to 87% in FB). The control bread had the greatest value (80.5) and was significantly higher than values for OB, FB, and AB in terms of glycemic index. OB, FB and AB addition led to obtain low glycemic index. AB had a significant highest value of total phenolic (897.2 mg/kg) with the lowest values in FB (541.2 mg/kg). The only significant lowering of caloric values in this study was observed in AB. The study could address the gap in the area of research about taking into consideration glycemic index, fatty acid profile and phenolic content in parallel in terms of DF application in breads.

Published

2018