Your search keyword '"Ladika, Georgia"' showing total 7 results

1. Enhancing the Nutritional Value and Preservation Quality of Strawberries through an Optimized Osmotic Dehydration Process.

Author

Ladika, Georgia, Tsiaka, Thalia, Stavropoulou, Natalia A., Strati, Irini F., and Sinanoglou, Vassilia J.

Subjects

RESPONSE surfaces (Statistics), NUTRITIONAL value, CALCIUM chloride, PROCESS optimization, WATER temperature, STRAWBERRIES

Abstract

This study aimed to optimize the osmotic dehydration process of strawberry slices by examining the effects of glycerol concentration, immersion time, and temperature on water loss and solid gain. Additionally, the study explored the use of chokeberry infusion to enhance the total phenolic content of the strawberries, thereby increasing their nutritional value. Using the Box–Behnken design and response surface methodology, the study identified optimal conditions to maximize water loss and solid gain. The findings revealed that high glycerol concentration (60% w/w) and temperature (50 °C), combined with optimal immersion times, significantly influenced water loss and solid gain. Experimental validations confirmed the model's predictions, showing high prediction accuracy (87.37% to 87.69%) for water loss determination but moderate prediction accuracy (42.80% to 64.72%) for solid gain. The immersion of strawberry slices in a hypertonic osmotic chokeberry infusion for 170–220 min maximized the migration of natural antioxidants. Moreover, the osmotic dehydration process effectively reduced water activity and moisture content, enhancing the strawberries' shelf stability. Furthermore, the addition of calcium chloride (CaCl2) helped maintain the strawberries' firmness and color during dehydration. Overall, the optimized osmotic dehydration process preserved the structural integrity and improved the nutritional profile and preservation quality of the strawberries, suitable for preparation of various fruit-based products. [ABSTRACT FROM AUTHOR]

Published

2024

2. Quality Assessment of Greenhouse-Cultivated Cucumbers (Cucumis sativus) during Storage Using Instrumental and Image Analyses.

Author

Christodoulou, Paris, Ladika, Georgia, Tsiantas, Kostantinos, Kritsi, Eftichia, Tsiaka, Thalia, Cavouras, Dionisis, Zoumpoulakis, Panagiotis, and Sinanoglou, Vassilia J.

Subjects

ANALYSIS of colors, CUCUMBERS, IMAGE analysis, DISCRIMINANT analysis, INFRARED spectroscopy, ATTENUATED total reflectance

Abstract

Cucumbers (Cucumis sativus) are known for their high water content and nutritional value, making them a valuable addition to a balanced diet. The objective of this study was to evaluate the physicochemical quality (color, moisture, water activity, and texture), and antioxidant/antiradical properties of freshly packed greenhouse-cultivated cucumbers over a 28-day storage period, utilizing a combination of high-throughput analytical techniques, including attenuated total reflectance–Fourier transform infrared (ATR-FTIR) spectroscopy, instrumental analysis, image analysis, and chemometrics. The key findings indicated that the cucumbers underwent a significant loss of moisture during the storage period, with a concomitant decrease in firmness. Color analysis revealed an increase in the yellowness of both the peel and flesh, while image analysis demonstrated increasing dissimilarity and textural disorder, particularly evident by the 13th day of storage. The spectrophotometric and spectroscopic findings demonstrated that the quality of the cucumbers was maintained during the storage period. Meanwhile, regression and discriminant analyses were employed to interpret the collected data. Predictive models were developed with high accuracy to estimate the actual storage days and flesh quality attributes based on textural and color features derived from image analysis. Overall, this study highlights the importance of controlled storage conditions in maintaining cucumber quality and provides a comprehensive approach to monitoring post-harvest changes. [ABSTRACT FROM AUTHOR]

Published

2024

3. Prediction of Flavor Potential of Ocimum basilicum L. Side-Stream Phytoconstituents, Using Liquid Chromatography–Tandem Mass Spectrometry Analysis and In Silico Techniques.

Author

Kritsi, Eftichia, Tsiaka, Thalia, Boroboka, Anna, Koletsou, Garyfallia, Theofilatos, Spyridon, Maggenaki, Artemis, Christodoulou, Paris, Ladika, Georgia, Tsiantas, Konstantinos, Sotiroudis, Georgios, and Sinanoglou, Vassilia J.

Subjects

BITTERNESS (Taste), BASIL, MOLECULAR docking, MASS spectrometry, PHENOLIC acids, LIQUID chromatography-mass spectrometry

Abstract

Although post-distillation side-streams of basil (Ocimum basilicum L.) pose significant economic and environmental challenges, they also bring forth new opportunities in the flavor industry. Thus, the objective of the current study was to assess the phenolic profile of basil side-stream extracts to identify key compounds and to evaluate their taste properties, using liquid chromatography–tandem mass spectrometry (LC-MS/MS) analysis, flavor prediction tools and molecular docking. In particular, 52 phytoconstituents, mainly phenolic acids, salvianolic acids, flavonoids and fatty acids derivatives, were elucidated in the side-streams of two different basil varieties (Minimum and Genovese) harvested and distilled in early and late autumn, highlighting the effect of pre-harvest factors on basil's phenolic fingerprint. Furthermore, the results of tests undertaken using taste prediction tools showed that most of the identified compounds were very likely to taste bitter, while six of them (caffeoylferuloyltartaric acid, isoquercetin, lithospermic acid A, sagerinic acid, salvianolic acids C and F) presented a high bitterant capacity (70–90%). Moreover, according to molecular docking studies, these compounds exhibited a stronger binding affinity to the hTAS2R46 bitter receptor compared to its known agonist, strychnine. This outcome and consequently their bitterness were mainly attributed to interactions with Glu265, Thr180 and/or Trp88 through the formation of direct hydrogen bonds. Therefore, the present results provide insights into the taste profiles of basil side-streams, leading to more sustainable and innovative uses of aromatic herbs residues. [ABSTRACT FROM AUTHOR]

Published

2024

4. Evaluation of the Quality Changes in Three Commercial Pastourma Samples during Refrigerated Storage Using Physicochemical, Microbiological, and Image Analyses Combined with Chemometrics.

Author

Kritsi, Eftichia, Ladika, Georgia, Stavropoulou, Natalia A., Oikonomakou, Marianna, Ioannou, Alexandros-George, Christodoulou, Paris, Konteles, Spyridon J., Cavouras, Dionisis, and Sinanoglou, Vassilia J.

Subjects

REFRIGERATED storage, IMAGE analysis, AEROBIC bacteria, LACTIC acid bacteria, CHEMOMETRICS, DIGITAL preservation, COLORIMETRY

Abstract

Despite the inherent stability of dried and cured products, such as pastourma, appropriate refrigeration remains essential for preserving their optimal characteristics. This study explored quality and safety characteristics in lamb, beef, and buffalo pastourma during 16-day refrigeration storage after package opening. The comprehensive approach employed Attenuated Total Reflection–Fourier-Transform Infrared (ATR-FTIR) spectroscopy, colorimetry, and image analysis, alongside physicochemical and microbiological analyses, to shed light on these alterations. The findings reveal a reduction in textural uniformity and color vibrancy (fading reds and yellows) across all samples during storage, with lamb pastourma exhibiting the most pronounced effects. Notably, image analysis emerged as a powerful tool, enabling the accurate classification of samples based on storage duration. Additionally, significant variations were observed in moisture content, hue angle, firmness, and TBARS levels, highlighting their influence on pastourma quality. The study documented a gradual decrease in lactic acid bacteria and aerobic plate count populations over time. ATR-FTIR spectra's interpretation revealed the presence of lipids, proteins, carbohydrates, and water. Protein secondary structures, demonstrably influenced by the meat type used, exhibited significant changes during storage, potentially impacting the functional and textural properties of pastourma. Overall, the findings contribute to a deeper understanding of pastourma spoilage during storage, paving the way for the development of improved preservation and storage strategies. [ABSTRACT FROM AUTHOR]

Published

2024

5. On the Assessment of Strawberries' Shelf-Life and Quality, Based on Image Analysis, Physicochemical Methods, and Chemometrics.

Author

Ladika, Georgia, Strati, Irini F., Tsiaka, Thalia, Cavouras, Dionisis, and Sinanoglou, Vassilia J.

Subjects

STRAWBERRIES, IMAGE analysis, PRINCIPAL components analysis, CHEMOMETRICS, SURFACE texture, VITAMIN C

Abstract

The aim of the present study was to evaluate Marisol strawberries' (Fragaria × ananassa) physicochemical quality and shelf-life during storage, using an integrated analytical approach. More specifically, the research aimed to assess the strawberries' color, texture, and nutritional quality, over an 11-day storage period, employing physicochemical analyses, spectrophotometric assays, Attenuated Total Reflection-Fourier Transform Infrared (ATR-FTIR) spectroscopy, image analysis, and statistical tools. The results revealed significant changes in the outer surface texture and color characteristics, indicating spoilage progression. Physicochemical parameters such as water activity, moisture content, soluble solids, titratable acidity, and ascorbic acid content exhibited significant alterations, influencing the taste profile and freshness perception. Antioxidant and antiradical activities showed fluctuations, suggesting a potential decrease in phenolic content during storage. Moreover, the ATR-FTIR spectra findings confirmed the results regarding the moisture content, soluble solids, and total phenolic content. The integration of physicochemical and image analysis-derived features through a principal component analysis (PCA) enabled the accurate classification of samples based on storage days. Regression analysis, using these features, successfully predicted the storage day with high accuracy. Overall, this integrated analytical approach provided valuable information on the estimation of Marisol strawberries' shelf-life and the prediction of their quality deterioration, contributing to better fruit management and the minimization of discards. [ABSTRACT FROM AUTHOR]

Published

2024

6. Quality Assessment of Banana Ripening Stages by Combining Analytical Methods and Image Analysis.

Author

Sinanoglou, Vassilia J., Tsiaka, Thalia, Aouant, Konstantinos, Mouka, Elizabeth, Ladika, Georgia, Kritsi, Eftichia, Konteles, Spyros J., Ioannou, Alexandros-George, Zoumpoulakis, Panagiotis, Strati, Irini F., and Cavouras, Dionisis

Subjects

IMAGE analysis, ATTENUATED total reflectance, BANANAS, LAMB (Meat), FRUIT ripening, WATER storage

Abstract

Currently, the evaluation of fruit ripening progress in relation to physicochemical and texture-quality parameters has become an increasingly important issue, particularly when considering consumer acceptance. Therefore, the purpose of the present study was the application of rapid, nondestructive, and conventional methods to assess the quality of banana peels and flesh in terms of ripening and during storage in controlled temperatures and humidity. For this purpose, we implemented various analytical techniques, such as attenuated total reflection-Fourier transform infrared (ATR-FTIR) spectroscopy for texture, colorimetrics, and physicochemical features, along with image-analysis methods and discriminant as well as statistical analysis. Image-analysis outcomes showed that storage provoked significant degradation of banana peels based on the increased image-texture dissimilarity and the loss of the structural order of the texture. In addition, the computed features were sufficient to discriminate four ripening stages with high accuracy. Moreover, the results revealed that storage led to significant changes in the color parameters and dramatic decreases in the texture attributes of banana flesh. The combination of image and chemical analyses pinpointed that storage caused water migration to the flesh and significant starch decomposition, which was then converted into soluble sugars. The redness and yellowness of the peel; the flesh moisture content; the texture attributes; Brix; and the storage time were all strongly interrelated. The combination of these techniques, coupled with statistical tools, to monitor the physicochemical and organoleptic quality of bananas during storage could be further applied for assessing the quality of other fruits and vegetables under similar conditions. [ABSTRACT FROM AUTHOR]

Published

2023

7. Potential Health Benefits of Banana Phenolic Content during Ripening by Implementing Analytical and In Silico Techniques.

Author

Kritsi, Eftichia, Tsiaka, Thalia, Sotiroudis, Georgios, Mouka, Elizabeth, Aouant, Konstantinos, Ladika, Georgia, Zoumpoulakis, Panagiotis, Cavouras, Dionisis, and Sinanoglou, Vassilia J.

Subjects

BANANAS, CHLOROGENIC acid, LIQUID chromatography-mass spectrometry, CARBONIC anhydrase, CROPS, PHENOLS

Abstract

Banana ranks as the fifth most cultivated agricultural crop globally, highlighting its crucial socio-economic role. The banana's health-promoting benefits are correlated with its composition in bioactive compounds, such as phenolic compounds. Thus, the present study attempts to evaluate the potential health benefits of banana phenolic content by combing analytical and in silico techniques. Particularly, the total phenolic content and antioxidant/antiradical activity of banana samples during ripening were determined spectrophotometrically. In parallel, liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis was implemented to unravel the variations in the phenolic profile of banana samples during ripening. Chlorogenic acid emerged as a ripening marker of banana, while apigenin and naringenin were abundant in the unripe fruit. In a further step, the binding potential of the elucidated phytochemicals was examined by utilizing molecular target prediction tools. Human carbonic anhydrase II (hCA-II) and XII (hCA-XII) enzymes were identified as the most promising targets and the inhibitory affinity of phenolic compounds was predicted through molecular docking studies. This class of enzymes is linked to a variety of pathological conditions, such as edema, obesity, hypertension, cancer, etc. The results assessment indicated that all assigned phenolic compounds constitute great candidates with potential inhibitory activity against CA enzymes. [ABSTRACT FROM AUTHOR]

Published

2023