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Critical Reviews in Food Science and Nutrition Volume 57, 2017 - Issue 3
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Articles

Alternatives to conventional thermal treatments in fruit-juice processing. Part 1: Techniques and applications

Cecilia Jiménez-SánchezDepartment of Analytical Chemistry, University of Granada, Granada, Spain;Research and Development of Functional Food Centre (CIDAF), PTS Granada, Granada, SpainView further author information
,
Jesús Lozano-SánchezDepartment of Analytical Chemistry, University of Granada, Granada, Spain;Research and Development of Functional Food Centre (CIDAF), PTS Granada, Granada, Spain;Department of Agricultural and Food Sciences, Alma Mater Studiorum-University of Bologna, Bologna, ItalyView further author information
,
Antonio Segura-CarreteroDepartment of Analytical Chemistry, University of Granada, Granada, Spain;Research and Development of Functional Food Centre (CIDAF), PTS Granada, Granada, SpainCorrespondence[email protected]
View further author information
&
Alberto Fernández-GutiérrezDepartment of Analytical Chemistry, University of Granada, Granada, Spain;Research and Development of Functional Food Centre (CIDAF), PTS Granada, Granada, SpainView further author information
Pages 501-523 | Published online: 28 Oct 2016

References

  • Abbas Syed, Q., Buffa, M., Guamis, B. and Saldo, J. (2013). Lethality and injuring the effect of compression and decompression rates of high hydrostatic pressure on Escherichia coli O157:H7 in different matrices. High Pressure Res. 33(1):64–72.
  • Abid, M., Jabbar, S., Wu, T., Hashim, M. M., Hu, B., Lei, S., Zhang, X. and Zeng, X. (2013). Effect of ultrasound on different quality parameters of apple juice. Ultrason Sonochem. 20:1182–1187.
  • Adekunte, A. O., Tiwari, B. K., Cullen, P. J., Scannell, A. G. M. and O'Donnell, C. P. (2010a). Effect of sonication on colour, ascorbic acid and yeast inactivation in tomato juice. Food Chem. 122:500–507.
  • Adekunte, A. O., Tiwari, B. K., Scannell, A., Cullen, P. J. and O'Donnell, C. (2010b). Modelling of yeast inactivation in sonicated tomato juice. Int. J. Food Microbiol. 137:116–120.
  • Aguiló-Aguayo, I., Sobrino-López, Á., Soliva-Fortuny, R. and Martín-Belloso, O. (2008). Influence of high-intensity pulsed electric field processing on lipoxygenase and ß-glucosidase activities in strawberry juice. Innovat. Food Sci. Emer. Technol. 9:455–462.
  • Aguiló-Aguayo, I., Soliva-Fortuny, R. and Martín-Belloso, O. (2010). Optimizing critical high-intensity pulsed electric fields treatments for reducing pectolytic activity and viscosity changes in watermelon juice. Eur. Food Res. Technol. 231:509–517.
  • Akin, E. and Evrendilek, G. A. (2009). Effect of pulsed electric fields on physical, chemical, and microbiological properties of formulated carrot juice. Food Sci. Technol. Int. 15:275–282.
  • Ali, I. A. (2000). A tunable microwave applicator for extraction of date-juice and similar products. J. Microwave Power Electromagn. Energy. 35:15–24.
  • Alighourchi, H., Barzegar, M. and Abbasi, S. (2008). Effect of gamma irradiation on the stability of anthocyanins and shelf-life of various pomegranate juices. Food Chem. 110:1036–1040.
  • Anderson, J. G., Rowan, N. J., MacGregor, S. J., Fouracre, R. A. and Parish, O. (2000). Inactivation of food-borne enteropathogenic bacteria and spoilage fungi using pulsed-light. IEEE Trans. Plasma Sci. 28:83–88.
  • Anonymous. (2007). Improving grape juice yield and quality using flash vacuum expansion. 2007 ASABE Annual International Meeting, Technical Papers. 12.
  • Arroyo, C., Cebrián, G., Pagán, R. and Condón, S. (2011). Inactivation of Cronobacter sakazakii by ultrasonic waves under pressure in buffer and foods. Int. J. Food Microbiol. 144:446–454.
  • Alpas, H., Alma, L., and Bozoglu, F. (2003). Inactivation of Alicyclobacillus acidoterrestris vegetative cells in model system, apple, orange and tomato juices by high hydrostatic pressure. World Journal of Microbiology and Biotechnology. 19:619–623.
  • Alpas, H. and Bozoglu, F. (2000). The combined effect of high hydrostatic pressure, heat and bacteriocins on inactivation of foodborne pathogens in milk and orange juice. World Journal of Microbiology and Biotechnology. 16:387–392.
  • Assawarachan, R. (2010). Estimation model for electrical conductivity of red grape juice. Int. J. Agric. Biol. Eng. 3:52–57.
  • Bansal, B. and Chen, X. D. (2006). Effect of temperature and power frequency on milk fouling in an ohmic heater. Food Bioprod. Process. 84:286–291.
  • Barbosa-Cánovas, G. V., Góngora-Nieto, M. M., Pothakamury, U. R. and Swanson, B. G. (1999). Chapter 1: Fundamentals of high-intensity pulsed electric fields (PEF). In: Preservation of Foods with Pulsed Electric Fields, pp. 1–19, Academic Press, San Diego.
  • Bari, M. L., Ukuku, D. O., Mori, M., Kawamoto, S. and Yamamoto, K. (2007). Effect of high-pressure treatment on survival of Escherichia coli O157:H7 population in tomato juice. J. Food Agric. Environ. 5:111–115.
  • Barsotti, L., Merle, P. and Cheftel, J. C. (1999). Food processing by pulsed electric fields. I. Physical aspects. Food Rev. Int. 15:163–180.
  • Basak, S., Ramaswamy, H. S. and Piette, J. P. G. (2002). High pressure destruction kinetics of Leuconostoc mesenteroides and Saccharomyces cerevisiae in single strength and concentrated orange juice. Innovat. Food Sci. Emerg. Technol. 3:223–231.
  • Bataller, M., González, J. E., Veliz, E. and Fernández, L. A. (2012). Ozone applications in the post-harvest of papaya (Carica papaya l.): An alternative to amistar fungicide. Ozone: Sci. Eng. 34:151–155.
  • Baysal, A. H. and Icier, F. (2010). Inactivation kinetics of Alicyclobacillus acidoterrestris spores in orange juice by ohmic heating: Effects of voltage gradient and temperature on inactivation. J. Food Prot. 73:299–304.
  • Bayindirli, A., Alpas, H., Bozoğlu, F., and Hizal, M. (2006). Efficiency of high pressure treatment on inactivation of pathogenic microorganisms and enzymes in apple, orange, apricot and sour cherry juices. Food Control. 17:52–58.
  • Bazhal, M. I., Lebovka, N. I. and Vorobiev, E. (2001). Pulsed electric field treatment of apple tissue during compression for juice extraction. J. Food Eng. 50:129–139.
  • Belloch, C., Gurrea, M. C., Tárrega, A., Sampedro, F., and Carbonell, J. V. (2012). Inactivation of microorganisms in orange juice by high-pressure homogenization combined with its inherent heating effect. European Food Research and Technology. 234:753–760.
  • Bermúdez-Aguirre, D. and Barbosa-Cánovas, G. V. (2012). Inactivation of Saccharomyces cerevisiae in pineapple, grape and cranberry juices under pulsed and continuous thermo-sonication treatments. J. Food Eng. 108:383–392.
  • Berna, A., Tárrega, A., Blasco, M. and Subirats, S. (2000). Supercritical CO2 extraction of essential oil from orange peel; effect of the height of the bed. J. Supercrit. Fluids. 18:227–237.
  • Bevilacqua, A., Sinigaglia, M. and Corbo, M. R. (2013). Ultrasound and Antimicrobial Compounds: A Suitable Way to Control Fusarium oxysporum in Juices. Food Bioprocess Technol. 6(5): 1153–1163.
  • Bi, X., Liu, F., Rao, L., Li, J., Liu, B., Liao, X. and Wu, J. (2013). Effects of electric field strength and pulse rise time on physicochemical and sensory properties of apple juice by pulsed electric field. Innovat Food Sci. Emer. Technol. 17:85–92.
  • Binning, R. and Possmann, P. (1993). Apple juice. In: Fruit Juice Processing Technology, pp. 271–317. Nagy, S., Chen, C. S. and Shaw, P. E., Eds. Agscience, Auburndale, Florida, USA.
  • Brat, P., Ollé, D., Gancel, A. and Reynes, M. and Brillouet, J. M. (2001a). Essential oils obtained by flash vacuum-expansion of peels from lemon, sweet orange, mandarin and grapefruit. Fruits. 56:395–401.
  • Brat, P., Olle, D., Reynes, M., Cogat, P. and Brillouet, J. (2001b). Preparation of passion fruit puree by flash vacuum-expansion. J. Food Sci. 66:542–547.
  • Briñez, W. J., Roig-Sagués, A. X., Herrero, M. M. H. and López, B. G. (2006). Inactivation by ultrahigh-pressure homogenization of Escherichia coli strains inoculated into orange juice. J. Food Prot. 69:984–989.
  • Buckow, R., Baumann, P., Schroeder, S., and Knoerzer, K. (2011). Effect of dimensions and geometry of co-field and co-linear pulsed electric field treatment chambers on electric field strength and energy utilisation. J. Food Eng. 105:545–556.
  • Buckow, R., Ng, S., and Toepfl, S. (2013). Pulsed electric field processing of orange juice: A review on microbial, enzymatic, nutritional, and sensory quality and stability. Compr. Rev. Food Sci. Food Safety. 12:455–467.
  • Buckow, R., Weiss, U. and Knorr, D. (2009). Inactivation kinetics of apple polyphenol oxidase in different pressure-temperature domains. Innovat. Food Sci. Emerg. Technol. 10:441–448.
  • Bule, M. V., Desai, K. M., Parisi, B., Parulekar, S. J., Slade, P., Singhal, R. S. and Rodriguez, A. (2010). Furan formation during UV-treatment of fruit juices. Food Chem. 122:937–942.
  • Buzrul, S., Alpas, H., Largeteau, A. and Demazeau, G. (2008). Inactivation of Escherichia coli and Listeria innocua in kiwifruit and pineapple juices by high hydrostatic pressure. Int. J. Food Microbiol. 124:275–278.
  • Caminiti, I. M., Noci, F., Muñoz, A., Whyte, P., Morgan, D. J., Cronin, D. A. and Lyng, J. G. (2011a). Impact of selected combinations of non-thermal processing technologies on the quality of an apple and cranberry juice blend. Food Chem. 124:1387–1392.
  • Caminiti, I. M., Palgan, I., Noci, F., Muñoz, A., Whyte, P., Cronin, D. A., Morgan, D. J. and Lyng, J. G. (2009). Evaluation of Escherichia coli inactivation and quality attributes in apple juice subjected to Pulsed electric fields (PEF) in combination with high intensity light pulses (HILP). In: 5th International Technical Symposium on Food Processing, Monitoring Technology in Bioprocesses and Food Quality Management: 396–406. (Eds. O. Schluter, M. Zude), Potsdam, Germany.
  • Caminiti, I. M., Palgan, I., Noci, F., Muñoz, A., Whyte, P., Cronin, D. A., Morgan, D. J. and Lyng, J. G. (2011b). The effect of pulsed electric fields (PEF) in combination with high intensity light pulses (HILP) on Escherichia coli inactivation and quality attributes in apple juice. Innovat. Food Sci. Emer. Technol. 12:118–123.
  • Cao, X., Bi, X., Huang, W., Wu, J., Hu, X. and Liao, X. (2012). Changes of quality of high hydrostatic pressure processed cloudy and clear strawberry juices during storage. Innovat. Food Sci. Emer. Technol. 16:181–190.
  • Carreño, J. M., Gurrea, M. C., Sampedro, F. and Carbonell, J. V. (2011). Effect of high hydrostatic pressure and high-pressure homogenisation on Lactobacillus plantarum inactivation kinetics and quality parameters of mandarin juice. Eur. Food Res. Technol. 232:265–274.
  • Castro, I., Teixeira, J. A., Salengke, S., Sastry, S. K. and Vicente, A. A. (2004). Ohmic heating of strawberry products: Electrical conductivity measurements and ascorbic acid degradation kinetics. Innovat. Food Sci. Emer. Technol. 5:27–36.
  • Cendres, A., Chemat, F., Maingonnat, J. and Renard, C. M. G. C. (2011). An innovative process for extraction of fruit juice using microwave heating. LWT-Food Sci. Technol. 44:1035–1041.
  • Chandrasekaran, S., Ramanathan, S. and Basak, T. (2013). Microwave food processing—A review. Food Res. Int. 52:243–261.
  • Charles-Rodríguez, A. V., Nevárez-Moorillón, G. V., Zhang, Q. H. and Ortega-Rivas, E. (2007). Comparison of Thermal Processing and Pulsed Electric Fields Treatment in Pasteurization of Apple Juice. Food Bioprod. Process. 85:93–97.
  • Char, C. D., Mitilinaki, E., Guerrero, S. N. and Alzamora, S. M. (2010). Use of High-Intensity Ultrasound and UV-C Light to Inactivate Some Microorganisms in Fruit Juices. Food Bioprocess Technol. 3:797–803.
  • Cheng, L. H., Soh, C. Y., Liew, S. C. and Teh, F. F. (2007). Effects of sonication and carbonation on guava juice quality. Food Chem. 104:1396–1401.
  • Chen, D., Xi, H., Guo, X., Qin, Z., Pang, X., Hu, X., Liao, X. and Wu, J. (2013). Comparative study of quality of cloudy pomegranate juice treated by high hydrostatic pressure and high temperature short time. Innovat. Food Sci. Emer. Technol. 19:85–94.
  • Chen, J., Zhang, R., Xiao, J., Li, J., Wang, L., Guan, Z. and MacAlpine, M. (2010). Influence of pulse rise time on the inactivation of Staphylococcus aureus by pulsed electric fields. IEEE Trans. Plasma Sci. 38:1935–1941.
  • Chervin, C. and Boisseau, P. (1994). Quality maintenance of “ready-to-eat” shredded carrots by gamma irradiation. J. Food Sci. 59:359–361.
  • Choi, M., Liu, Q., Lee, S., Jin, J., Ryu, S. and Kang, D. (2012). Inactivation of Escherichia coli O157:H7, Salmonella typhimurium and Listeria monocytogenes in apple juice with gaseous ozone. Food Microbiol. 32:191–195.
  • Coseteng, W. Y. and Lee, C. Y. (1987). Changes in apple polyphenoloxidase and polyphenol concentrations in relation to degree of browning. J. Food Sci. 52:985–989.
  • Costa, M. G. M., Fonteles, T. V., de Jesus, A. L. T., Almeida, F. D. L., de Miranda, M. R. A., Fernandes, F. A. N. and Rodrigues, S. (2013). High-Intensity Ultrasound Processing of Pineapple Juice. Food Bioprocess Technol. 6:997–1006.
  • Cullen, P. J., Valdramidis, V. P., Tiwari, B. K., Patil, S., Bourke, P. and O'Donnell, C. P. (2010). Ozone processing for food preservation: An overview on fruit juice treatments. Ozone: Sci Eng. 32:166–179.
  • Darvishi, H., Hosainpour, A., Nargesi, F., Khoshtaghaza, M. H. and Torang, H. (2011). Ohmic processing: Temperature dependent electrical conductivities of lemon juice. Modern Appl. Sci. 5:209–216.
  • Datta, A. K. and Davidson, P. M. (2000). Microwave and radio frequency processing. J. Food Sci. 65:32–41.
  • de Alwis, A. A. P. and Fryer, P. J. (1990). The use of direct resistance heating in the food industry. J. Food Eng. 11:3–27.
  • Dede, S., Alpas, H., and Bayindirli, A. (2007). High hydrostatic pressure treatment and storage of carrot and tomato juices: Antioxidant activity and microbial safety. J Sci Food Agric. 87:773–782.
  • Deeth, H. C., Datta, N., Ross, A. I. V. and Dam, X. T. (2008). Pulsed electric field technology: effect on milk and fruit juices. In: Advances in Thermal and Non Thermal Food Preservation, (Eds. Gaurav Tewari & Vijay K. Juneja) Wiley-Blackwell, Hoboken, NJ, USA.
  • de la Rosa, L. A., Alvarez-Parrilla, E., Moyers-Montoya, E., Villegas-Ochoa, M., Ayala-Zavala, J. F., Hernández, J., Ruiz-Cruz, S. and González-Aguilar, G. A. (2011). Mechanism for the inhibition of apple juice enzymatic browning by Palo Fierro (desert ironweed) honey extract and other natural compounds. LWT-Food Sci. Technol. 44:269–276.
  • Demirdöven, A. and Baysal, T. (2009). The use of ultrasound and combined technologies in food preservation. Food Rev. Int. 25:1–11.
  • DeRuiter, F. E. and Dwyer, J. (2002). Consumer acceptance of irradiated foods: Dawn of a new era? Food Service Technol. 2:47–58.
  • Doǧan, C. and Erkmen, O. (2003). Note: Ultra High Hydrostatic Pressure Inactivation of Escherichia coli in Milk, and Orange and Peach Juices. Food Sci Technol Int.9:403–407.
  • Donsì, G., Ferrari, G. and Maresca, P. (2010). Pasteurization of fruit juices by means of a pulsed high pressure process. J. Food Sci. 75: E169–E177.
  • Downes, J. W. (1999). Equipment for extraction of soft and pome fruit juices. In: Production and Packaging of Non-carbonated Fruit Juices and Fruit Beverages, pp. 197–221. Ashrust, P. R., Ed. Springer Science & Business Media, New York City.
  • Downing, D. L. (1996). Canning of juices, fruit drinks and water. A Complete Course in Canning and Related Processes. 13th ed., Book III Processing Procedures for Canned Food Products, pp. 193–248.
  • Dunn, J. E. and Pearlman, J. S. (1985). Methods and apparatus for extending the shelf-life of fluid food products. Patent US 4695472A.
  • Duthie, G. G., Duthie, S. J., and Kyle, J. A. M. (2000). Plant polyphenols in cancer and heart disease: Implications as nutritional antioxidants. Nutr. Res. Rev. 13:79–106.
  • Elez-Martínez, P., Soliva-Fortuny, R. C. and Martín-Belloso, O. (2006). Comparative study on shelf life of orange juice processed by high intensity pulsed electric fields or heat treatment. Eur. Food Res. Technol. 222:321–329.
  • Enomoto, A., Nakamura, K., Hakoda, M., and Amaya, N. (1997). Lethal effect of high-pressure carbon dioxide on a bacterial spore. J. Ferment. Bioeng. 83:305–307.
  • Erkmen, O. (2009). High hydrostatic pressure inactivation kinetics of Salmonella typhimurium. High Pressure Res. 29:129–140.
  • Espina, L., García-Gonzalo, D., Laglaoui, A., Mackey, B. M. and Pagán, R. (2013). Synergistic combinations of high hydrostatic pressure and essential oils or their constituents and their use in preservation of fruit juices. Int. J. Food Microbiol. 161:23–30.
  • Esteve, M. J. and Frígola, A. 2007. Refrigerated Fruit Juices: Quality and Safety Issues. In: Advances in Food and Nutrition Research, pp. 103–139, Academic Press, New York.
  • Evrendilek, G. A., Jin, Z. T., Ruhlman, K. T., Qiu, X., Zhang, Q. H. and Richter, E. R. (2000). Microbial safety and shelf-life of apple juice and cider processed by bench and pilot scale PEF systems. Innovat. Food Sci. Emer. Technol. 1:77–86.
  • Falguera, V., Moulin, A., Thevenet, L. and Ibarz, A. (2013). Inactivation of Peroxidase by Ultraviolet-Visible Irradiation: Effect of pH and Melanoidin Content. Food Bioprocess Technol. 6(12):3627–3633.
  • Falguera, V., Pagán, J. and Ibarz, A. (2011). Effect of UV irradiation on enzymatic activities and physicochemical properties of apple juices from different varieties. LWT-Food Sci. Technol. 44:115–119.
  • Fan, X., Thayer, D. W. and Handel, A. P. (2002). Nutritional quality of irradiated orange juice. J. Food Process Preserv. 26:195–211.
  • Farkas, J. (2006). Irradiation for better foods. Trends Food Sci Technol. 17:148–152.
  • Ferrante, S., Guerrero, S. and Alzamora, S. M. (2007). Combined use of ultrasound and natural antimicrobials to inactivate Listeria monocytogenes in orange juice. J. Food Prot. 70:1850–1856.
  • Ferrari, G., Maresca, P., and Ciccarone, R. (2010). The application of high hydrostatic pressure for the stabilization of functional foods: Pomegranate juice. J Food Eng. 100:245–253.
  • Flaumenbaum, B. L. (1968). Anwendung der Elektroplasmolyse bei der Herstellung von Fruchtsäften. Flüssiges Obst. 35:19–22.
  • Foley, D. M., Pickett, K., Varon, J., Lee, J., Min, D. B., Caporaso, R. and Prakash, A. (2002). Pasteurization of fresh orange juice using gamma irradiation: Microbiological, flavor, and sensory analyses. J. Food Sci. 67:1495–1501.
  • Fonteles, T. V., Costa, M. G. M., de Jesus, A. L. T., de Miranda, M. R. A., Fernandes, F. A. N. and Rodrigues, S. (2012). Power ultrasound processing of cantaloupe melon juice: Effects on quality parameters. Food Res. Int. 48:41–48.
  • Garde-Cerdán, T., Arias-Gil, M., Marsellés-Fontanet, A. R., Ancín-Azpilicueta, C. and Martín-Belloso, O. (2007). Effects of thermal and non-thermal processing treatments on fatty acids and free amino acids of grape juice. Food Control. 18:473–479.
  • Geveke, D. J. and Brunkhorst, C. (2003). Inactivation of Saccharomyces cerevisiae with radio frequency electric fields. J. Food Prot. 66:1712–1715.
  • Geveke, D. J. and Brunkhorst, C. (2004). Inactivation of Escherichia coli in apple juice by radio frequency electric fields. J. Food Sci. 69:FEP134–FEP138.
  • Geveke, D. J., Brunkhorst, C. and Fan, X. (2007). Radio frequency electric fields processing of orange juice. Innovat. Food Sci. Emer. Technol. 8:549–554.
  • Geveke, D. J., Kozempel, M., Scullen, O. J. and Brunkhorst, C. (2002). Radio frequency energy effects on microorganisms in foods. Innovat. Food Sci. Emer. Technol. 3:133–138.
  • Gómez-López, V. M., Devlieghere, F., Bonduelle, V. and Debevere, J. (2005). Factors affecting the inactivation of micro-organisms by intense light pulses. J. Appl. Microbiol. 99:460–470.
  • Grassin, C. and Fauquembergue, F. (1996). Fruit juices. In: Industrial Enzymology, pp. 225–264. Godfrey, T. and West, S., Ed., MacMillan Press, London, UK.
  • Grimi, N., Lebovka, N. I., Vorobiev, E. and Vaxelaire, J. (2009). Effect of a pulsed electric field treatment on expression behavior and juice quality of Chardonnay grape. Food Biophys. 4:191–198.
  • Grimi, N., Mamouni, F., Lebovka, N., Vorobiev, E. and Vaxelaire, J. (2011). Impact of apple processing modes on extracted juice quality: Pressing assisted by pulsed electric fields. J. Food Eng. 103:52–61.
  • Guerrero-Beltran, J. A., Barbosa-Canovas, G. V., and Welti-Chanes, J. (2011). High hydrostatic pressure effect on natural microflora, Saccharomyces cerevisiae, Escherichia coli, and Listeria Innocua in navel orange juice. Int. J. Food Eng. 7(1, article 14):1–16.
  • Guerrero-Beltrán, J. A. and Barbosa-Cánovas, G. V. (2004). Review: Advantages and limitations on processing foods by UV light. Food Sci Technol Int. 10:137–147.
  • Gunes, G., Blum, L. K. and Hotchkiss, J. H. (2005). Inactivation of yeasts in grape juice using a continuous dense phase carbon dioxide processing system. J. Sci. Food Agric. 85:2362–2368.
  • Gunes, G., Blum, L. K. and Hotchkiss, J. H. (2006). Inactivation of Escherichia coli (ATCC 4157) in diluted apple cider by dense-phase carbon dioxide. J. Food Prot. 69:12–16.
  • Heinz, V., Toepfl, S. and Knorr, D. (2003). Impact of temperature on lethality and energy efficiency of apple juice pasteurization by pulsed electric fields treatment. Innovat. Food Sci. Emer. Technol. 4:167–175.
  • Hong, S. and Pyun, Y. (2001). Membrane damage and enzyme inactivation of Lactobacillus plantarum by high pressure CO2 treatment. Int. J. Food Microbiol. 63:19–28.
  • Hsu, K. (2008). Evaluation of processing qualities of tomato juice induced by thermal and pressure processing. LWT-Food Sci. Technol. 41:450–459.
  • Hsu, K., Tan, F. and Chi, H. (2008). Evaluation of microbial inactivation and physicochemical properties of pressurized tomato juice during refrigerated storage. LWT-Food Sci. Technol. 41:367–375.
  • Hunt, N. K. and Mariñas, B. J. (1997). Kinetics of Escherichia coli inactivation with ozone. Water Res. 31:1355–1362.
  • Ibarz, A., Pagán, J. and Garza, S. (1999). Kinetic models for colour changes in pear puree during heating at relatively high temperatures. J. Food Eng. 39:415–422.
  • Ibarz, A., Pagán, J., Panadés, R. and Garza, S. (2005). Photochemical destruction of color compounds in fruit juices. J. Food Eng. 69:155–160.
  • Icier, F. (2009). Influence of ohmic heating on rheological and electrical properties of reconstituted whey solutions. Food Bioprod. Process. 87:308–316.
  • Icier, F. and Ilicali, C. (2005a). The effects of concentration on electrical conductivity of orange juice concentrates during ohmic heating. Eur. Food Res. Technol. 220:406–414.
  • Icier, F. and Ilicali, C. (2005b). Temperature dependent electrical conductivities of fruit purees during ohmic heating. Food Res. Int. 38:1135–1142.
  • Icier, F. and Tavman, S. (2006). Ohmic heating behaviour and rheological properties of ice cream mixes. Int. J. Food Prop. 9:679–689.
  • Icier, F., Yildiz, H. and Baysal, T. (2006). Peroxidase inactivation and colour changes during ohmic blanching of pea puree. J. Food Eng. 74:424–429.
  • Inoue, T., Kawahara-Aoyama, Y., Ikeda, S., Isobe, S., and Uemura, K. (2007). Inactivation of pectinesterase in citrus juice by high electric field AC treatment. Nippon Shokuhin Kagaku Kogaku Kaishi. 54:195–199.
  • Irwe, S. and Olsson, I. (1994). Reduction of pectinesterase activity in orange juice by high-pressure treatment. In: Minimal Processing of Foods and Process Optimization—An Interface, pp. 35–42. Singh, R. P. and Oliveira, F. A. R., Eds.
  • Içier, F., Yildiz, H., and Baysal, T. (2008). Polyphenoloxidase deactivation kinetics during ohmic heating of grape juice. J. Food Eng. 85:410–417.
  • Jaeger, H., Schulz, M., Lu, P. and Knorr, D. (2012). Adjustment of milling, mash electroporation and pressing for the development of a PEF assisted juice production in industrial scale. Innovat. Food Sci. Emer. Technol. 14:46–60.
  • Jakób, A., Bryjak, J., Wójtowicz, H., Illeová, V., Annus, J., and Polakovič, M. (2010). Inactivation kinetics of food enzymes during ohmic heating. Food Chem. 123:369–376.
  • Jeantet, R., Croguennet, T., Schuck, P. and Brulé, G. (2007). De las frutas a los zumos de frutas y productos fermentados. In: Ciencia de los Alimentos. Vol. 2, pp. 215–251. Editorial Acribia, Ed.
  • Jemai, A. B. and Vorobiev, E. (2002). Effect of moderate electric field pulses on the diffusion coefficient of soluble substances from apple slices. Int. J. Food Sci Technol. 37:73–86.
  • Jo, C., Ahn, D. U. and Lee, K. H. (2012). Effect of gamma irradiation on microbiological, chemical, and sensory properties of fresh ashitaba and kale juices. Radiat. Phys. Chem. 81:1076–1078.
  • Jo, C. and Lee, K. H. (2012). Comparison of the efficacy of gamma and UV irradiation in sanitization of fresh carrot juice. Radiat. Phys. Chem. 81:1079–1081.
  • Jolie, R. P., Duvetter, T., Houben, K., Clynen, E., Sila, D. N., Van Loey, A. M., and Hendrickx, M. E. (2009). Carrot pectin methylesterase and its inhibitor from kiwi fruit: Study of activity, stability and inhibition. Innovat. Food Sci. Emer. Technol. 10:601–609.
  • Karaca, H. and Velioglu, Y. S. (2007). Ozone applications in fruit and vegetable processing. Food Rev. Int. 23:91–106.
  • Kashyap, D. R., Vohra, P. K., Chopra, S. and Tewari, R. (2001). Applications of pectinases in the commercial sector: A review. Bioresour. Technol. 77:215–227.
  • Keyser, M., Muller, I. A., Cilliers, F. P., Nel, W. and Gouws, P. A. (2008). Ultraviolet radiation as a non-thermal treatment for the inactivation of microorganisms in fruit juice. Innovat. Food Sci. Emer. Technol. 9:348–354.
  • Khadre, M. A., Yousef, A. E., and Kim, J. (2001). Microbiological Aspects of Ozone Applications in Food: A Review. J. Food Sci. 66:1242–1252.
  • Kim, D., Song, H., Lim, S., Yun, H. and Chung, J. (2007). Effects of gamma irradiation on the radiation-resistant bacteria and polyphenol oxidase activity in fresh kale juice. Radiat. Phys. Chem. 76:1213–1217.
  • King, D. L. and Klein, B. P. (1987). Effect of flavonoids and related compounds on soybean Lipoxygenase-1 activity. J. Food Sci. 52:220–221.
  • Kong, Y., Li, D., Wang, L., Bhandari, B., Chen, X. D. and Mao, Z. (2008). Ohmic heating behavior of certain selected liquid food materials. Int. J. Food Eng. 4(3, article 2):1–14.
  • Konja, G. and Lovric, T. (1993). Berry fruit juices. In: Fruit Juice Processing Technology, pp. 436–514. Nagy, S., Chen, C. S. & Shaw, P. E., Eds., AgScience, Auburndale, FL, USA.
  • Koutchma, T., Keller, S., Chirtel, S. and Parisi, B. (2004). Ultraviolet disinfection of juice products in laminar and turbulent flow reactors. Innovat. Food Sci. Emer. Technol. 5:179–189.
  • Koutchma, T., Parisi, B. and Unluturk, S. K. (2006). Evaluation of UV dose in flow-through reactors for fresh apple juice and cider. Chem. Eng. Commun. 193:715–728.
  • Kubo, M. T. K., Augusto, P. E. D. and Cristianini, M. (2013). Effect of high pressure homogenization (HPH) on the physical stability of tomato juice. Food Res. Int. 51:170–179.
  • Kumar, S., Thippareddi, H., Subbiah, J., Zivanovic, S., Davidson, P. M. and Harte, F. (2009). Inactivation of Escherichia coli K-12 in apple juice using combination of high-pressure homogenization and chitosan. J. Food Sci. 74: M8–M14.
  • Lalande, M. (1985). Fouling of heat transfer surfaces related to β-lactoglobulin denaturation during heat processing of milk. Biotechnol. Progress™ 1:131–139.
  • Lebovka, N. I., Praporscic, I. and Vorobiev, E. (2004). Combined treatment of apples by pulsed electric fields and by heating at moderate temperature. J. Food Eng. 65:211–217.
  • Lee, S., Chung, H. and Kang, D. (2006). Combined treatment of high pressure and heat on killing spores of Alicyclobacillus acidoterrestris in apple juice concentrate. J. Food Prot. 69:1056–1060.
  • Lee, J. W., Kim, J. K., Srinivasan, P., Choi, J., Kim, J. H., Han, S. B., Kim, D. and Byun, M. W. (2009). Effect of gamma irradiation on microbial analysis, antioxidant activity, sugar content and color of ready-to-use tamarind juice during storage. LWT-Food Sci. Technol. 42:101–105.
  • Lee, S., Dougherty, R. H., and Kang, D. -. (2002). Inhibitory effects of high pressure and heat on Alicyclobacillus acidoterrestris spores in apple juice. Appl Environ Microbiol. 68:4158–4161.
  • Lee, S., Sagong, H., Ryu, S. and Kang, D. (2012). Effect of continuous ohmic heating to inactivate Escherichia coli O157: H7, Salmonella Typhimurium and Listeria monocytogenes in orange juice and tomato juice. J. Appl. Microbiol. 112:723–731.
  • Leizerson, S. and Shimoni, E. (2005a). Effect of ultrahigh-temperature continuous ohmic heating treatment on fresh orange juice. J. Agric. Food Chem. 53:3519–3524.
  • Leizerson, S. and Shimoni, E. (2005b). Stability and sensory shelf life of orange juice pasteurized by continuous ohmic heating. J. Agric. Food Chem. 53:4012–4018.
  • Liao, H., Hu, X., Liao, X., Chen, F. and Wu, J. (2007). Inactivation of Escherichia coli inoculated into cloudy apple juice exposed to dense phase carbon dioxide. Int. J. Food Microbiol. 118:126–131.
  • Liao, H., Zhang, Y., Hu, X., Liao, X. and Wu, J. (2008). Behavior of inactivation kinetics of Escherichia coli by dense phase carbon dioxide. Int. J. Food Microbiol. 126:93–97.
  • Lieu, L. N. and Le, V. V. M. (2010). Application of ultrasound in grape mash treatment in juice processing. Ultrason Sonochem. 17:273–279.
  • Liltved, H. and Landfald, B. (2000). Effects of high intensity light on ultraviolet-irradiated and non-irradiated fish pathogenic bacteria. Water Res. 34:481–486.
  • Lima, M., Heskitt, B. F., Burianek, L. L., Nokes, S. E. and Sastry, S. K. (1999). Ascorbic acid degradation kinetics during conventional and ohmic heating. J. Food Process Preserv. 23:421–434.
  • Lima, M. and Sastry, S. K. (1999). Effects of ohmic heating frequency on hot-air drying rate and juice yield. J. Food Eng. 41:115–119.
  • Lindgren, M., Aronsson, K., Galt, S. and Ohlsson, T. (2002). Simulation of the temperature increase in pulsed electric field (PEF) continuous flow treatment chambers. Innovat. Food Sci. Emer. Technol. 3:233–245.
  • Li, S. and Zhang, Q. H. (2004). Inactivation of E. coli 8739 in enriched soymilk using pulsed electric fields. J. Food Sci. 69: M169–M174.
  • MacGregor, S. J., Rowan, N. J., McIlvaney, L., Anderson, J. G., Fouracre, R. A. and Farish, O. (1998). Light inactivation of food-related pathogenic bacteria using a pulsed power source. Lett. Appl. Microbiol. 27:67–70.
  • Mahapatra, A. K., Muthukumarappan, K. and Julson, J. L. (2005). Applications of ozone, bacteriocins and irradiation in food processing: A review. Crit. Rev. Food Sci. Nutr. 45:447–461.
  • Mahfuzur Rahman, S. M. and Rakshit, S. K. (2004). Effect of endogenous and commercial enzyme on improving extraction of sweet potato starch. ASAE Annual Int. Meeting 2004. 8007–8019.
  • Manzocco, L., Quarta, B. and Dri, A. (2009). Polyphenoloxidase inactivation by light exposure in model systems and apple derivatives. Innovat. Food Sci. Emer. Technol. 10:506–511.
  • McKay, A. M., Linton, M., Stirling, J., Mackle, A. and Patterson, M. F. (2011). A comparative study of changes in the microbiota of apple juice treated by high hydrostatic pressure (HHP) or high pressure homogenisation (HPH). Food Microbiol. 28:1426–1431.
  • McLellan, M. R. and Padilla-Zakour, O. I. (2004). Chapter 4. Juice processing. In: Processing fruits Science and Technology, 2nd Ed., pp. 73–96.
  • Mert, M., Buzrul, S. and Alpas, H. (2013). Effects of high hydrostatic pressure on microflora and some quality attributes of grape juice. High Pressure Res. 33(1):73–82.
  • Mishra, B. B., Gautam, S. and Sharma, A. (2011). Shelf Life Extension of Sugarcane Juice Using Preservatives and Gamma Radiation Processing. J. Food Sci. 76:M573–M578.
  • Mohamed, S. A., Abulnaja, K. O., Ads, A. S., Khan, J. A. and Kumosani, T. A. (2011). Characterisation of an anionic peroxidase from horseradish cv. Balady. Food Chem. 128:725–730.
  • Morales-de la Peña, M., Salvia-Trujillo, L., Rojas-Graü, M. A. and Martín-Belloso, O. (2010). Impact of high intensity pulsed electric field on antioxidant properties and quality parameters of a fruit juice-soymilk beverage in chilled storage. LWT-Food Sci. Technol. 43:872–881.
  • Mosqueda-Melgar, J., Raybaudi-Massilia, R. M. and Martín-Belloso, O. (2008). Combination of high-intensity pulsed electric fields with natural antimicrobials to inactivate pathogenic microorganisms and extend the shelf-life of melon and watermelon juices. Food Microbiol. 25:479–491.
  • Murakami, E. G., Jackson, L., Madsen, K. and Schickedanz, B. (2006). Factors affecting the ultraviolet inactivation of Escherichia coli in apple juice and a model system. J. Food Process Eng. 29:53–71.
  • Muñoz, A., Palgan, I., Noci, F., Morgan, D. J., Cronin, D. A., Whyte, P. and Lyng, J. G. (2011). Combinations of High Intensity Light Pulses and Thermosonication for the inactivation of Escherichia coli in orange juice. Food Microbiol. 28:1200–1204.
  • Nakauma, M., Saito, K., Katayama, T., Tada, M. and Todoriki, S. (2004). Radiation-heat synergism for inactivation of Alicyclobacillus acidoterrestris spores in citrus juice. J. Food Prot. 67:2538–2543.
  • Netzel, M., Netzel, G., Kammerer, D. R., Schieber, A., Carle, R., Simons, L., Bitsch, I., Bitsch, R. and Konczak, I. (2007). Cancer cell antiproliferation activity and metabolism of black carrot anthocyanins. Innovat. Food Sci. Emer. Technol. 8:365–372.
  • Nguyen, P. and Mittal, G. S. (2007). Inactivation of naturally occurring microorganisms in tomato juice using pulsed electric field (PEF) with and without antimicrobials. Chem. Eng. Proc.: Process Intensificat. 46:360–365.
  • Niemira, B. A., Sommers, C. H. and Boyd, G. (2001). Irradiation inactivation of four Salmonella serotypes in orange juices with various turbidities. J. Food Prot. 64:614–617.
  • Niemira, B. A., Sommers, C. H., and Boyd, G. (2003). Effect of Freezing, Irradiation, and Frozen Storage on Survival of Salmonella in Concentrated Orange Juice. J. Food Prot. 66:1916–1919.
  • Noci, F., Riener, J., Walkling-Ribeiro, M., Cronin, D. A., Morgan, D. J. and Lyng, J. G. (2008). Ultraviolet irradiation and pulsed electric fields (PEF) in a hurdle strategy for the preservation of fresh apple Juice. J. Food Eng. 85:141–146.
  • Noma, S., Tomita, C., Shimoda, M. and Hayakawa, I. (2004). Response of Escherichia coli O157:H7 in apple and orange juices by hydrostatic pressure treatment with rapid decompression. Food Microbiol. 21:469–473.
  • Ogawa, H., Fukuhisa, K., and Kubo, Y. and Fukumoto, H. (1999). Pressure inactivation of yeasts, molds, and pectinesterase in satsuma mandarin juice: Effects of juice concentration, pH, and organic acids, and comparison with heat sanitation. Agric. Biol. Chem. 54:1219–1225.
  • Onwnka, U. N., Akobundu, E. N. T., and Iwe, M. O. (2008). Kinetics of inactivation of Listeria monocytogenes, Clostridium perfringens, Escherichia coli and Salmonella spp. in ohmic heated tomato juices. J. Pure Appl. Microbiol. 2:29–38.
  • Onwuka, U. N. and Ejikeme, C. (2005). Influence of voltage and electrode type on the yield and quality of fruit juice extracted by ohmic heating. Fruits. 60:341–349.
  • Ortuño, C., Martínez-Pastor, M. T., Mulet, A. and Benedito, J. (2012). An ultrasound-enhanced system for microbial inactivation using supercritical carbon dioxide. Innovat. Food Sci. Emer. Technol. 15:31–37.
  • Ortuño, C., Martínez-Pastor, M. T., Mulet, A. and Benedito, J. (2013). Application of high power ultrasound in the supercritical carbon dioxide inactivation of Saccharomyces cerevisiae. Food Res. Int. 51:474–481.
  • Oteiza, J. M., Giannuzzi, L. and Zaritzky, N. (2010). Ultraviolet treatment of orange juice to inactivate E. coli O157:H7 as affected by native microflora. Food Bioproc. Technol. 3:603–614.
  • Oteiza, J. M., Peltzer, M., Gannuzzi, L. and Zaritzky, N. (2005). Antimicrobial efficacy of UV radiation on Escherichia coli O157:H7 (EDL 933) in fruit juices of different absorptivities. J. Food Prot. 68:49–58.
  • O'Donnell, C. P., Tiwari, B. K., Bourke, P. and Cullen, P. J. (2010). Effect of ultrasonic processing on food enzymes of industrial importance. Trends Food Sci. Technol. 21:358–367.
  • Palgan, I., Caminiti, I. M., Muñoz, A., Noci, F., Whyte, P., Morgan, D. J., Cronin, D. A. and Lyng, J. G. (2011a). Combined effect of selected non-thermal technologies on Escherichia coli and Pichia fermentans inactivation in an apple and cranberry juice blend and on product shelf life. Int. J. Food Microbiol. 151:1–6.
  • Palgan, I., Caminiti, I. M., Muñoz, A., Noci, F., Whyte, P., Morgan, D. J., Cronin, D. A. and Lyng, J. G. (2011b). Effectiveness of High Intensity Light Pulses (HILP) treatments for the control of Escherichia coli and Listeria innocua in apple juice, orange juice and milk. Food Microbiol. 28:14–20.
  • Paranjpe, S. S., Ferruzzi, M. and Morgan, M. T. (2012). Effect of a flash vacuum expansion process on grape juice yield and quality. LWT-Food Sci. Technol. 48:147–155.
  • Park, S., Lee, J. and Park, J. (2002). Effects of a combined process of high-pressure carbon dioxide and high hydrostatic pressure on the quality of carrot juice. J. Food Sci. 67:1827–1834.
  • Pascual, A., Llorca, I. and Canut, A. (2007). Use of ozone in food industries for reducing the environmental impact of cleaning and disinfection activities. Trends Food Sci Technol. 18(Suppl. 1):S29–S35.
  • Pataro, G., Muñoz, A., Palgan, I., Noci, F., Ferrari, G. and Lyng, J. G. (2011). Bacterial inactivation in fruit juices using a continuous flow Pulsed Light (PL) system. Food Res. Int. 44:1642–1648.
  • Patil, S., Bourke, P., Frias, J. M., Tiwari, B. K. and Cullen, P. J. (2009a). Inactivation of Escherichia coli in orange juice using ozone. Innovat. Food Sci. Emer. Technol. 10:551–557.
  • Patil, S., Bourke, P., Kelly, B., Frías, J. M. and Cullen, P. J. (2009b). The effects of acid adaptation on Escherichia coli inactivation using power ultrasound. Innovat. Food Sci. Emer. Technol. 10:486–490.
  • Patil, S., Cullen, P. J., Kelly, B., Frías, J. M. and Bourke, P. (2009c). Extrinsic control parameters for ozone inactivation of Escherichia coli using a bubble column. J. Appl. Microbiol. 107:830–837.
  • Patil, S., Torres, B., Tiwari, B. K., Wijngaard, H. H., Bourke, P., Cullen, P. J., O'Donnell, C. P. and Valdramidis, V. P. (2010). Safety and quality assessment during the ozonation of cloudy apple juice. J. Food Sci. 75: M437–M443.
  • Patil, S., Valdramidis, V. P., Tiwari, B. K., Cullen, P. J. and Bourke, P. (2011). Quantitative assessment of the shelf life of ozonated apple juice. Eur. Food Res. Technol. 232:469–477.
  • Patterson, M. F. (2005). Microbiology of pressure-treated foods. J Appl Microbiol. 98:1400–1409.
  • Patterson, M. F., McKay, A. M., Connolly, M. and Linton, M. (2012). The effect of high hydrostatic pressure on the microbiological quality and safety of carrot juice during refrigerated storage. Food Microbiol. 30:205–212.
  • Pedrolli, D. B., Monteiro, A. C., Gomes, E. and Carmona, E. C. (2009). Pectin and pectinases: Production, characterization and industrial application of microbial pectinolytic enzymes. Open Biotechnol. J. 3:9–18.
  • Pinelo, M., Zeuner, B. and Meyer, A. S. (2010). Juice clarification by protease and pectinase treatments indicates new roles of pectin and protein in cherry juice turbidity. Food Bioprod. Process. 88:259–265.
  • Praporscic, I., Ghnimi, S. and Vorobiev, E. (2005). Enhancement of pressing of sugar beet cuts by combined ohmic heating and pulsed electric field treatment. J. Food Process Preserv. 29:378–389.
  • Praporscic, I., Lebovka, N. I., Ghnimi, S. and Vorobiev, E. (2006). Ohmically heated, enhanced expression of juice from apple and potato tissues. Biosyst.Eng. 93:199–204.
  • Praporscic, I., Lebovka, N., Vorobiev, E. and Mietton-Peuchot, M. (2007a). Pulsed electric field enhanced expression and juice quality of white grapes. Separat. Purificat. Technol. 52:520–526.
  • Praporscic, I., Shynkaryk, M. V., Lebovka, N. I. and Vorobiev, E. (2007b). Analysis of juice colour and dry matter content during pulsed electric field enhanced expression of soft plant tissues. J. Food Eng. 79:662–670.
  • Qin, B. L., Pothakamury, U. R., Vega-Mercado, H., Martin-Belloso, O. M., Barbosa-Canovas, G. V. and Swanson, B. G. (1995). Food pasteurisation using high-intensity pulsed electric fields. Food Technol. 49:55–60.
  • Qiu, X., Sharma, S., Tuhela, L., Jia, M., and Zhang, Q. H. (1998). An integrated PEF pilot plant for continuous nonthermal pasteurization of fresh orange juice. Trans. American Soc. Agric. Eng. 41:1069–1074.
  • Ranmode, S. and Kulshreshtha, M. (2011). Enhancement of juice recovery from carrot using 2-stage pressing with ohmic heating. J. Eng. Sci. Technol. 6:240–251.
  • Raven, E. L. (2000). Peroxidase-catalyzed oxidation of ascorbate. Structural, spectroscopic and mechanistic correlations in ascorbate peroxidase. Subcell Biochem. 35:317–349.
  • Restaino, L., Frampton, E. W., Hemphill, J. B. and Palnikar, P. (1995). Efficacy of ozonated water against various food-related microorganisms. Appl. Environ. Microbiol. 61:3471–3475.
  • Reyns, K. M. F. A., Soontjens, C. C. F., Cornelis, K., Weemaes, C. A., Hendrickx, M. E. and Michiels, C. W. (2000). Kinetic analysis and modelling of combined high-pressure-temperature inactivation of the yeast Zygosaccharomyces bailii. Int. J. Food Microbiol. 56:199–210.
  • Reznick, D. (1996). Ohmic heating of fluid foods. Food Technology, pp. 250–251.
  • Ribeiro, D. S., Henrique, S. M. B., Oliveira, L. S., Macedo, G. A. and Fleuri, L. F. (2010). Enzymes in juice processing: A review. Int. J. Food Sci. Technol. 45:635–641.
  • Riener, J., Noci, F., Cronin, D. A., Morgan, D. J. and Lyng, J. G. (2008). Combined effect of temperature and pulsed electric fields on apple juice peroxidase and polyphenoloxidase inactivation. Food Chem. 109:402–407.
  • Rodoni, L., Casadei, N., Concellón, A., Chaves Alicia, A. R. and Vicente, A. R. (2010). Effect of short-Term ozone treatments on tomato (Solanum lycopersicum L.) fruit quality and cell wall degradation. J. Agric. Food Chem. 58:594–599.
  • Rowan, N. J., MacGregor, S. J., Anderson, J. G., Fouracre, R. A., McIlvaney, L. and Farish, O. (1999). Pulsed-light inactivation of food-related microorganisms. Appl. Environ. Microbiol. 65:1312–1315.
  • Ruan, R., Ye, X., Chen, P., Doona, C. J. and Taub, I. (2001). Ohmic heating. In: Thermal Technologies in Food Processing, pp. 241–265. Richardson, P., Ed., Woodhead Publishing Limited, Cambridge, England.
  • Sagong, H., Park, S., Choi, Y., Ryu, S. and Kang, D. (2011). Inactivation of Escherichia coli O157:H7, Salmonella typhimurium, and Listeria monocytogenes in orange and tomato juice using ohmic heating. J. Food Prot. 74:899–904.
  • San Martín, M. F., Barbosa-Cánovas, G. V. and Swanson, B. G. (2002). Food processing by high hydrostatic pressure. Crit. Rev. Food Sci. Nutr. 42:627–645.
  • Sarang, S., Sastry, S. K. and Knipe, L. (2008). Electrical conductivity of fruits and meats during ohmic heating. J. Food Eng. 87:351–356.
  • Schilling, S., Alber, T., Toepfl, S., Neidhart, S., Knorr, D., Schieber, A. and Carle, R. (2007). Effects of pulsed electric field treatment of apple mash on juice yield and quality attributes of apple juices. Innovat. Food Sci. Emer. Technol. 8:127–134.
  • Schilling, S., Toepfl, S., Ludwig, M., Dietrich, H., Knorr, D., Neidhart, S., Schieber, A. and Carle, R. (2008). Comparative study of juice production by pulsed electric field treatment and enzymatic maceration of apple mash. Eur. Food Res. Technol. 226:1389–1398.
  • Schlesser, J. E. and Parisi, B. (2009). Inactivation of Yersinia pseudotuberculosis 197 and Francisella tularensis LVS in beverages by high pressure processing. J Food Prot. 72:165–168.
  • Sharifi-Yazdi, M. K. and Darghahi, H. (2006). Inactivation of pathogenic bacteria using pulsed UV-light and its application in water disinfection and quality control. Acta Med. Iran. 44:305–308.
  • Shaw, P. E. (1994). Fruit juices. Kirk-Othmer Encyclopedia of Chemical Technology. Vol. 11. 4th ed., pp. 1082–1097.
  • Shearer, A. E. H., Dunne, C. P., Sikes, A., and Hoover, D. G. (2000). Bacterial spore inhibition and inactivation in foods by pressure, chemical preservatives, and mild heat. J Food Prot.63:1503–1510.
  • Shiksat, N., Lyng, J. G., Brunton, N. P. and McKenna, B. M. (2004). Conductivities and ohmic heating of meat emulsion batters. J. Muscle Foods. 15:121–137.
  • Siebert, K. J. (2006). Haze formation in beverages. LWT-Food Sci. Technol. 39:987–994.
  • Siebert, K. J., Carrasco, A. and Lynn, P. Y. (1996). Formation of protein-polyphenol Haze in beverages. J. Agric Food Chem. 44:1997–2005.
  • Singh, S. P., Tarsikka, P. S. and Singh, H. (2008). Study on viscosity and electrical conductivity of fruit juices. J. Food Sci. Technol. 45:371–372.
  • Slifko, T. R., Raghubeer, E., and Rose, J. B. (2000). Effect of high hydrostatic pressure on Cryptosporidium parvum infectivity. J Food Prot. 63:1262–1267.
  • Sokolowska, B., Skapska, S., Fonberg-Broczek, M., Niezgoda, J., Chotkiewicz, M., Dekowska, A. and Rzoska, S. J. (2013a). Factors influencing the inactivation of Alicyclobacillus acidoterrestris spores exposed to high hydrostatic pressure in apple juice. High Pressure Res. 33(1):73–82.
  • Sokolowska, B., Skapska, S., Fonberg-Broczek, M., Niezgoda, J., Rutkowska, M., Chotkiewicz, M., Dekowska, A., and Rzoska, S. J. (2013b). The effect of high hydrostatic pressure on the survival of Saccharomyces cerevisiae in model suspensions and beetroot juice. High Pressure Res. 33(1):165–171.
  • Song, H., Kim, D., Jo, C., Lee, C., Kim, K. and Byun, M. (2006). Effect of gamma irradiation on the microbiological quality and antioxidant activity of fresh vegetable juice. Food Microbiol. 23:372–378.
  • Spilimbergo, S. and Ciola, L. (2010). Supercritical CO2 and N2O pasteurisation of peach and kiwi juice. Int. J. Food Sci Technol. 45:1619–1625.
  • Spilimbergo, S., Dehghani, F., Bertucco, A., and Foster, N. R. (2003). Inactivation of bacteria and spores by pulse electric field and high pressure CO2 at low temperature. Biotechnol. Bioeng. 82:118–125.
  • Spilimbergo, S., Mantoan, D. and Dalser, A. (2007). Supercritical gases pasteurization of apple juice. J. Supercrit. Fluids. 40:485–489.
  • Stewart, C. M., Tompkin, R. B. and Cole, M. B. (2002). Food safety: New concepts for the new millennium. Innovat. Food Sci. Emer. Technol. 3:105–112.
  • Stoforos, N. G., Crelier, S., Robert, M. and Taoukis, P. S. (2002). Kinetics of tomato pectin methylesterase inactivation by temperature and high pressure. J. Food Sci. 67:1026–1031.
  • Suárez-Jacobo, Á., Gervilla, R., Guamis, B., Roig-Sagués, A. X. and Saldo, J. (2010). Effect of UHPH on indigenous microbiota of apple juice: A preliminary study of microbial shelf-life. Int. J. Food Microbiol. 136:261–267.
  • Suh, H. J., Noh, D. O., Kang, C. S., Kim, J. M. and Lee, S. W. (2003). Thermal kinetics of color degradation of mulberry fruit extract. Food/Nahrung. 47:132–135.
  • Syed, Q. -., Reineke, K., Saldo, J., Buffa, M., Guamis, B. and Knorr, D. (2012). Effect of compression and decompression rates during high hydrostatic pressure processing on inactivation kinetics of bacterial spores at different temperatures. Food Control. 25:361–367.
  • Taylor, B. (2005). Chapter 3. Fruit and juice processing. In: Chemistry and Technology of Soft Drinks and Fruit Juices, 2nd ed., pp. 35–36. Ashrust, P. R., Ed.
  • Terefe, N. S., Gamage, M., Vilkhu, K., Simons, L., Mawson, R. and Versteeg, C. (2009). The kinetics of inactivation of pectin methylesterase and polygalacturonase in tomato juice by thermosonication. Food Chem. 117:20–27.
  • Threlfall, R. T., Morris, J. R., Howard, L. R., Brownmiller, C. R. and Walker, T. L. (2005). Pressing effects on yield, quality, and nutraceutical content of juice, seeds, and skins from black beauty and sunbelt grapes. J. Food Sci. 70: S167–S171.
  • Tiwari, B. K., Muthukumarappan, K., O'Donnell, C. P. and Cullen, P. J. (2009a). Inactivation kinetics of pectin methylesterase and cloud retention in sonicated orange juice. Innovat. Food Sci. Emer. Technol. 10:166–171.
  • Tiwari, B. K., O'Donnell, C. P., Brunton, N. P., and Cullen, P. J. (2009b). Degradation kinetics of tomato juice quality parameters by ozonation. Int. J. Food Sci Technol. 44:1199–1205.
  • Tiwari, B. K., O'Donnell, C. P. and Cullen, P. J. (2009c). Effect of non-thermal processing technologies on the anthocyanin content of fruit juices. Trends Food Sci. Technol. 20:137–145.
  • Tiwari, B. K., O'Donnell, C. P., Patras, A., Brunton, N. and Cullen, P. J. (2009d). Anthocyanins and color degradation in ozonated grape juice. Food Chem. Toxicol. 47:2824–2829.
  • Tiwari, B. K., O'Donnell, C. P., Patras, A., Brunton, N. and Cullen, P. J. (2009e). Effect of ozone processing on anthocyanins and ascorbic acid degradation of strawberry juice. Food Chem. 113:1119–1126.
  • Tran, M. T. T. and Farid, M. (2004). Ultraviolet treatment of orange juice. Innovat. Food Sci. Emer. Technol. 5:495–502.
  • Tumpanuvatr, T. and Jittanit, W. (2012). The temperature prediction of some botanical beverages, concentrated juices and purees of orange and pineapple during ohmic heating. J. Food Eng. 113:226–233.
  • Turk, M. F., Baron, A. and Vorobiev, E. (2010). Effect of pulsed electric fields treatment and mash size on extraction and composition of apple juices. J. Agric. Food Chem. 58:9611–9616.
  • Turk, M. F., Billaud, C., Vorobiev, E. and Baron, A. (2012a). Continuous pulsed electric field treatment of French cider apple and juice expression on the pilot scale belt press. Innovat. Food Sci. Emer. Technol. 14:61–69.
  • Turk, M. F., Vorobiev, E., and Baron, A. (2012b). Improving apple juice expression and quality by pulsed electric field on an industrial scale. LWT-Food Sci. Technol. 49:245–250.
  • Uemura, K. and Isobe, S. (2003). Developing a new apparatus for inactivating Bacillus subtilis spore in orange juice with a high electric field AC under pressurized conditions. J. Food Eng. 56:325–329.
  • Ukuku, D. O. and Geveke, D. J. (2010). A combined treatment of UV-light and radio frequency electric field for the inactivation of Escherichia coli K-12 in apple juice. Int. J. Food Microbiol. 138:50–55.
  • Ukuku, D. O., Geveke, D. J. and Cooke, P. H. (2012). Effect of thermal and radio frequency electric fields treatments on escherichia coli bacteria in apple juice. J. Microb. Biochem. Technol. 4:76–81.
  • Ukuku, D. O., Geveke, D. J., Cooke, P. and Zhang, H. Q. (2008). Membrane damage and viability loss of Escherichia coli K-12 in apple juice treated with radio frequency electric field. J. Food Prot. 71:684–690.
  • Vachon, J. F., Kheadr, E. E., Giasson, J., Paquin, P. and Fliss, I. (2002). Inactivation of foodborne pathogens in milk using dynamic high pressure. J. Food Prot. 65:345–352.
  • Valero, M., Micol, V., Saura, D., Muñoz, N., Lorente, J. and Martí, N. (2010). Comparison of antimicrobial treatments for citrus juices. CAB Rev. 5(20):63–74.
  • Valero, M., Recrosio, N., Saura, D., Muñoz, N., Martí, N. and Lizama, V. (2007). Effects of ultrasonic treatments in orange juice processing. J. Food Eng. 80:509–516.
  • Varela-Santos, E., Ochoa-Martinez, A., Tabilo-Munizaga, G., Reyes, J. E., Pérez-Won, M., Briones-Labarca, V. and Morales-Castro, J. (2012). Effect of high hydrostatic pressure (HHP) processing on physicochemical properties, bioactive compounds and shelf-life of pomegranate juice. Innovat. Food Sci. Emer. Technol. 13:13–22.
  • Vega-Mercado, H., Martín-Belloso, O., Qin, B., Chang, F. J., Marcela Góngora-Nieto, M., Barbosa-Cánovas, G. V. and Swanson, B. G. (1997). Non-thermal food preservation: Pulsed electric fields. Trends Food Sci. Technol. 8:151–157.
  • Walkling-Ribeiro, M., Noci, F., Cronin, D. A., Lyng, J. G. and Morgan, D. J. (2008a). Inactivation of Escherichia coli in a tropical fruit smoothie by a combination of heat and pulsed electric fields. J. Food Sci. 73:M395–M399.
  • Walkling-Ribeiro, M., Noci, F., Cronin, D. A., Riener, J., Lyng, J. G. and Morgan, D. J. (2008b). Reduction of Staphylococcus aureus and quality changes in apple juice processed by ultraviolet irradiation, pre-heating and pulsed electric fields. J. Food Eng. 89:267–273.
  • Wang, Z., Ma, Y., Zhao, G., Liao, X., Chen, F., Wu, J., Chen, J. and Hu, X. (2006). Influence of gamma irradiation on enzyme, microorganism, and flavor of cantaloupe (Cucumis melo L.) juice. J. Food Sci. 71: M215–M220.
  • Wang, L., Pan, J., Xie, H., Yang, Y., Zhou, D. and Zhu, Z. (2012). Pasteurization of fruit juices of different ph values by combined high hydrostatic pressure and carbon dioxide. Food Protect. Trends. 75:1873–1877.
  • Wang, W. and Sastry, S. K. (2002). Effects of moderate electrothermal treatments on juice yield from cellular tissue. Innovat. Food Sci. Emer. Technol. 3:371–377.
  • Weiss, J. (1987). Fruit juice embellishment and clarification. In: Fruit and Vegetable Juices, Handbook of Food Technology, pp. 168–189. Schobinger, U., Ed.
  • Whitney, B. M., Williams, R. C., Eifert, J. and Marcy, J. (2007). High-pressure resistance variation of Escherichia coli O157:H7 strains and Salmonella serovars in tryptic soy broth, distilled water, and fruit juice. J. Food Prot. 70:2078–2083.
  • Williams, R. C., Sumner, S. S. and Golden, D. A. (2004). Survival of Escherichia coli O157:H7 and Salmonella in apple cider and orange juice as affected by ozone and treatment temperature. J. Food Prot. 67:2381–2386.
  • Williams, R. C., Sumner, S. S. and Golden, D. A. (2005). Inactivation of Escherichia coli O157:H7 and Salmonella in apple cider and orange juice treated with combinations of ozone, dimethyl dicarbonate, and hydrogen peroxide. J. Food Sci. 70: M197–M201.
  • Wong, E., Vaillant-Barka, F. and Chaves-Olarte, E. (2012). Synergistic effect of sonication and high osmotic pressure enhances membrane damage and viability loss of Salmonella in orange juice. Food Res. Int. 45:1072–1079.
  • Wong, E., Vaillant, F. and Pérez, A. (2010). Osmosonication of blackberry juice: Impact on selected pathogens, spoilage microorganisms, and main quality parameters. J. Food Sci. 75: M468–M474.
  • Wu, J., Xu, J. and Zhu, F. (2013). Different ozone processing conditions on grapes storage quality. Lecture Notes Electrical Eng. 204:781–789.
  • Xu, H., Hyeon-Yong, L., and Ahn, J. (2009). High pressure inactivation kinetics of Salmonella enterica and Listeria monocytogenes in milk, orange juice, and tomato juice. Food Science and Biotechnology. 18:861–866.
  • Yajima, H., Takao, M., Yasuhira, S., Zhao, J. H., Ishii, C., Inoue, H., and Yasui, A. (1995). A eukaryotic gene encoding an endonuclease that specifically repairs DNA damaged by ultraviolet light. EMBO J.14:2393–2399.
  • Yeom, H. W., Streaker, C. B., Howard Zhang, Q. and Min, D. B. (2000). Effects of pulsed electric fields on the quality of orange juice and comparison with heat pasteurization. J. Agric. Food Chem. 48:4597–4605.
  • Yildiz, H., Bozkurt, H., and Icier, F. (2009). Ohmic and conventional heating of pomegranate juice: Effects on rheology, color, and total phenolics. Food Sci. Technol. Int. 15:503–512.
  • Yoo, S. R., Min, S., Prakash, A. and Min, D. B. (2003). Off-odor study with γ-irradiated orange juice using sensory and volatile compound analyses. J. Food Sci. 68:1259–1264.
  • Zenker, M., Heinz, V. and Knorr, D. (2003). Application of ultrasound-assisted thermal processing for preservation and quality retention of liquid foods. J. Food Prot. 66:1642–1649.
  • Zhang, Q., Barbosa-Cánovas, G. V., and Swanson, B. G. (1995). Engineering aspects of pulsed electric field pasteurization. J. Food Eng. 25:261–281.
  • Zhang, Y., Gao, B., Zhang, M., Shi, J. and Xu, Y. (2010). Pulsed electric field processing effects on physicochemical properties, flavor compounds and microorganisms of longan juice. J. Food Process Preserv. 34:1121–1138.
  • Zhao, L., Wang, S., Liu, F., Dong, P., Huang, W., Xiong, L. and Liao, X. (2013). Comparing the effects of high hydrostatic pressure and thermal pasteurization combined with nisin on the quality of cucumber juice drinks. Innovat. Food Sci. Emer. Technol. 17:27–36.
  • Zhou, Y., Shi, J., Hu, S., Kang, J., Su, D., Ma, L., and Liu, W. (2011). Modeling of optimization and rate of Ohmic heating of fruit juice containing pulpous. Jilin Daxue Xuebao (Gongxueban)/Journal of Jilin University (Engineering and Technology Edition). 41:344–348.

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