Inactivation of Salmonella Typhimurium in Orange Juice Containing Antimicrobial Agents by Pulsed Electric Field

2002 ◽  
Vol 65 (7) ◽  
pp. 1081-1087 ◽  
Author(s):  
ZIWEI LIANG ◽  
GAURI S. MITTAL ◽  
MANSEL W. GRIFFITHS
Keyword(s):  
Cell Death ◽  
Electric Field ◽  
Cell Viability ◽  
Salmonella Typhimurium ◽  
Orange Juice ◽  
Antimicrobial Agents ◽  
Ph Value ◽  
Pulsed Electric Field ◽  
Pulse Number ◽  
Significant Difference

Combinations of different hurdles, including moderately high temperatures (<60°C), antimicrobial compounds, and pulsed electric field (PEF) treatment, to reduce Salmonella in pasteurized and freshly squeezed orange juices (with and without pulp) were explored. Populations of Salmonella Typhimurium were found to decrease with an increase in pulse number and treatment temperature. At a field strength of 90 kV/cm, a pulse number of 20, and a temperature of 45°C, PEF treatment did not have a notable effect on cell viability or injury. At and above 46°C, however, cell death and injury were greatly increased. Salmonella numbers were reduced by 5.9 log cycles in freshly squeezed orange juice (without pulp) treated at 90 kV/cm, 50 pulses, and 55°C. When PEF treatment was carried out in the presence of nisin (100 U/ml of orange juice), lysozyme (2,400 U/ml), or a mixture of nisin (27.5 U/ml) and lysozyme (690 U/ml), cell viability loss was increased by an additional 0.04 to 2.75 log cycles. The combination of nisin and lysozyme had a more pronounced bactericidal effect than did either nisin or lysozyme alone. An additional Salmonella count reduction of at least 1.37 log cycles was achieved when the two antimicrobial agents were used in combination. No significant difference (P > 0.05) in cell death was attained by lowering the pH value; only cell injury increased. Inactivation by PEF was significantly more extensive (P < 0.05) in pasteurized orange juice than in freshly squeezed orange juice under the same treatment conditions. This increase might be due to the effect of the chemical composition of the juices.

scholarly journals Establishing Irreversible Electroporation Electric Field Potential Threshold in A Suspension In Vitro Model for Cardiac and Neuronal Cells

2021 ◽  
Vol 10 (22) ◽  
pp. 5443
Author(s):  
Sahar Avazzadeh ◽  
Barry O’Brien ◽  
Ken Coffey ◽  
Martin O’Halloran ◽  
David Keane ◽  
...  
Keyword(s):  
Cell Death ◽  
Electric Field ◽  
Cell Viability ◽  
Cardiac Fibroblasts ◽  
Irreversible Electroporation ◽  
Field Potential ◽  
Optimal Threshold ◽  
Delayed Cell Death ◽  
Significant Difference

Aims: Irreversible electroporation is an ablation technique being adapted for the treatment of atrial fibrillation. Currently, there are many differences reported in the in vitro and pre-clinical literature for the effective voltage threshold for ablation. The aim of this study is a direct comparison of different cell types within the cardiovascular system and identification of optimal voltage thresholds for selective cell ablation. Methods: Monophasic voltage pulses were delivered in a cuvette suspension model. Cell viability and live–dead measurements of three different neuronal lines, cardiomyocytes, and cardiac fibroblasts were assessed under different voltage conditions. The immediate effects of voltage and the evolution of cell death was measured at three different time points post ablation. Results: All neuronal and atrial cardiomyocyte lines showed cell viability of less than 20% at an electric field of 1000 V/cm when at least 30 pulses were applied with no significant difference amongst them. In contrast, cardiac fibroblasts showed an optimal threshold at 1250 V/cm with a minimum of 50 pulses. Cell death overtime showed an immediate or delayed cell death with a proportion of cell membranes re-sealing after three hours but no significant difference was observed between treatments after 24 h. Conclusions: The present data suggest that understanding the optimal threshold of irreversible electroporation is vital for achieving a safe ablation modality without any side-effect in nearby cells. Moreover, the evolution of cell death post electroporation is key to obtaining a full understanding of the effects of IRE and selection of an optimal ablation threshold.

Commercial-Scale Pulsed Electric Field Processing of Orange Juice

2003 ◽  
Vol 68 (4) ◽  
pp. 1265-1271 ◽  
Author(s):  
S. Min ◽  
Z.T. Jin ◽  
S.K. Min ◽  
H. Yeom ◽  
Q.H. Zhang
Keyword(s):  
Electric Field ◽  
Orange Juice ◽  
Pulsed Electric Field ◽  
Commercial Scale

scholarly journals The Impact of Pulsed Electric Field on the Extraction of Bioactive Compounds from Beetroot

Foods ◽  
2019 ◽  
Vol 8 (7) ◽  
pp. 244 ◽  
Author(s):  
Malgorzata Nowacka ◽  
Silvia Tappi ◽  
Artur Wiktor ◽  
Katarzyna Rybak ◽  
Agnieszka Miszczykowska ◽  
...  
Keyword(s):  
Electric Field ◽  
Bioactive Compounds ◽  
Control Sample ◽  
Pulsed Electric Field ◽  
Pulse Number ◽  
Cell Membrane Permeability ◽  
Mineral Salts ◽  
Treated Sample ◽  
Pre Treatment ◽  
The Impact

Beetroot is a root vegetable rich in different bioactive components, such as vitamins, minerals, phenolics, carotenoids, nitrate, ascorbic acids, and betalains, that can have a positive effect on human health. The aim of this work was to study the influence of the pulsed electric field (PEF) at different electric field strengths (4.38 and 6.25 kV/cm), pulse number 10–30, and energy input 0–12.5 kJ/kg as a pretreatment method on the extraction of betalains from beetroot. The obtained results showed that the application of PEF pre-treatment significantly (p < 0.05) influenced the efficiency of extraction of bioactive compounds from beetroot. The highest increase in the content of betalain compounds in the red beet’s extract (betanin by 329%, vulgaxanthin by 244%, compared to the control sample), was noted for 20 pulses of electric field at 4.38 kV/cm of strength. Treatment of the plant material with a PEF also resulted in an increase in the electrical conductivity compared to the non-treated sample due to the increase in cell membrane permeability, which was associated with leakage of substances able to conduct electricity, including mineral salts, into the intercellular space.

scholarly journals Edible coating based on achira starch containing garlic/oregano oils to extend the shelf life of double cream cheese

2020 ◽  
Vol 73 (1) ◽  
pp. 9099-9108 ◽  
Author(s):  
Junior B. Molina-Hernández ◽  
Andrés Echeverri Castro ◽  
Hugo A. Martinez-Correa ◽  
Margarita M. Andrade-Mahecha
Keyword(s):  
Shelf Life ◽  
Antimicrobial Agents ◽  
Ph Value ◽  
Physicochemical Characteristics ◽  
Edible Coatings ◽  
Antimicrobial Compounds ◽  
Cream Cheese ◽  
Significant Difference ◽  
Fresh Products ◽  
Oregano Oil

Edible coatings provide food products with a barrier to gases and water vapor exchange; additionally, when complemented with antimicrobial agents, they can be suitable to extend food shelf life. This study aimed to evaluate the effect of using edible coatings based on achira starch (Canna indica L.), microcrystalline cellulose, and natural antimicrobial compounds (garlic and oregano oils) on the quality of double cream cheese during storage at 5 °C for 42 days. The physicochemical characteristics of the cheeses, such as weight loss, hardness, water activity, and color, were evaluated on days 1, 8, 21, and 42. The microbiological analyses were carried out on days 1, 21, and 42, and the sensorial analysis on days 1 and 42. The coated cheese samples maintained the pH value of fresh products during storage, whereas the pH of the uncoated samples progressively decreased. No effect (P≥0.05) was observed at the different storage times on the weight and color of the coated samples, as compared to the control. The hardness of the coated samples was lower (50% for oregano oil treatment and 18% for garlic oil treatment) at the end of the storage, with a significant difference (P≤0.05) from the control. Additionally, the use of coatings containing garlic or oregano oil prevented the growth of pathogenic or contaminating microorganisms on the product during 42-day storage. The results indicated that the use of edible coatings incorporating garlic or oregano oil as antimicrobial compounds are an alternative to extend the shelf life of double cream cheese.

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