ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI

Emine AŞIK CANBAZ, (Isparta Uygulamalı Bilimler Üniversitesi, Şarkikaraağaç Meslek Yüksekokulu, Gıda İşleme Bölümü, Isparta, Türkiye)
Selçuk ÇÖMLEKÇİ, (Süleyman Demirel Üniversitesi, Mühendislik Fakültesi, Elektronik ve Haberleşme Bölümü, Isparta, Türkiye)
Atıf Can SEYDİM (Süleyman Demirel Üniversitesi, Mühendislik Fakültesi, Gıda Mühendisliği Bölümü, Isparta, Türkiye)
GIDA
3 0
Yıl: 2020 Cilt: 45 Sayı: 3 Sayfa Aralığı: 485 - 495 Metin Dili: Türkçe DOI: 10.15237/gida.GD19143 İndeks Tarihi: 12-03-2021

ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI

Öz:
Vurgulu elektrik alan (PEF; pulsed electric field) yöntemi, günümüzde algısı ve beklentisi değişen bireylerin sadece güvenilir değil aynı zamanda duyusal ve besleyici yönden cazibesi yüksek doğal gıdalara olan talebini karşılamak üzere geliştirilmiş ısıl olmayan yeni bir muhafaza yöntemidir. İlk çağlardan beri farklı tekniklerle muhafaza edilen taze et ve et ürünlerinin çekiciliğini artırmak ve doğala yakın özelliklerini korumak için bilinen yöntemlere alternatif olarak değerlendirilen PEF uygulaması, etin sertliği, su tutma kapasitesi, renk ve mikrobiyel yük gibi kalite kriterlerini önemli ölçüde etkilemektedir. Bu derlemede et teknolojisinde prosesi iyileştirme, verimi artırma ve son ürün kalitesini iyileştirme potansiyeli olan PEF uygulamaları ile ilgili çalışmalar özetlenmiştir.
Anahtar Kelime:

APPLICATION OF PULSED ELECTRIC FIELD IN MEAT TECHNOLOGY

Öz:
Pulsed electric field (PEF) is a novel non-thermal technique that meets the increasing demandof consumers for both safe and nutritional foods. Meat and meat products have beenpreserved by traditional methods for a very long time, however in order to maintain the natureof these products, PEF is offered as an alternative method. PEF has already been suggested aseffective as traditional methods on hardness, water binding capacity, color and microbialquality of meat and meat products. Thus, this review summarized the current applications ofPEF in meat technology.
Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık
  • Alahakoon, A.U., Faridnia, F., Bremer, P.J., Silcock, P., Oey, I. (2017). Pulsed electric fields effects on meat tissue quality and functionallity. In Handbook of Electroporation, Miklavcic, D. (ed.) Springer, USA, pp. 2998.
  • Alam, M.D.R., Lyng, J.G., Frontuto, D., Marra, F., Cinquanta, L. (2018). Effect of pulsed electric field pretreatment on drying kinetics, color, and texture of parsnip and carrot. J. Food sci. 83(8): 2159-2166.
  • Arroyo, C., Eslami, S., Brunton, N.P., Arimi, J.M., Noci, F., Lyng, J.G. (2015a). An assessment of the impact of pulsed electric fields processing factors on oxidation, color, texture, and sensory attributes of turkey breast meat. Poult. Sci. 94(5): 1088-1095.
  • Arroyo, C., Lascorz, D., O’Dowd, L., Noci, F., Arimi, J., Lyng, J.G. (2015b). Effect of pulsed electric field treatments at various stages during conditioning on quality attributes of beef longissimus thoracis et lumborum muscle. Meat Sci. 99: 52-59.
  • Astrain-Redin, L., Raso, J., Cebrian, G., Alvarez, I. (2019). Potential of Pulsed Electric Fields for the preparation of Spanish drycured sausages. Sci. Rep. 9: 16042.
  • Aşık Canbaz, E. (2018). Ambalajlı tavuk etinin soğukta muhafazasında yüksek voltajlı vurgulu elektrik alanın etkisi. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Gıda Mühendisliği Anabilim Dalı Doktora Tezi, Isparta, Türkiye, 89 s.
  • Baba, K., Kajiwara, T., Watanable, S., katsuki, S., Sasahara, R., Inoue, K. (2018). Low-temperature pasteurization of liquid whole egg using intense pulsed electric fields. Electron. and Commun. in Jpn. 101(2): 668-673.
  • Barba, F. J., Parniakov, O., Pereira, S. A., Wiktor, A., Grimi, N., Boussetta, N., Vorobiev, E. (2015). Current applications and new opportunities for the use of pulsed electric fields in food science and industry. Food Res. Int. 77: 773-798.
  • Bekhit, A.E.A., Ven, R., Suwandy, V., Fahri, F., Hopkins, D.L. (2014). Effect of pulsed electric field treatment on cold-boned muscles of different potential tenderness. Food Bioprocess Technol. 7: 3136-3146.
  • Bekhit, A.E.A., Suwandy, V., Carne, A., Ven, R., Hopkins, D.L. (2016). Effect of repeated pulsed electric field treatment on the quality of hotboned beef loins and topsides. Meat Sci. 111: 139- 146.
  • Bhat, A.F., Bekhit, A.E.D., Birch, J., Kanokruangrong, S., Carne, A., Farouk, M.F. (2019a). Current and future prospects for the use of pulsed electric field in the meat industry. Crit. Rev. in Food Sci. and Nutr. 59(10): 1660-1674.
  • Bhat, Z.F., Mortona, J.D., Masona, S.L., Jayawardenaa, S.R., Bekhit, A.E.D. (2019b). Pulsed electric field: A new way to improve digestibility of cooked beef. Meat Sci. 155: 79-84.
  • Bhat, Z.F., Morton, J.D., Mason, S.L., Bekhit, A.E.D. (2020). The application of pulsed electric field as a sodium reducing strategy for meat products. Food Chem. 306: 125622.
  • Carbonell-Capella, J.M., Buniowska, M., Cortes, C., Zulueta, A., Frigola, A., Esteve, M.J. (2017). Influence of pulsed electric field processing on the quality of fruit juice beverages sweetened with Stevia rebaudiana. Food Bioprod. Process. 101: 214- 222.
  • Dunn, J.E., Lacosta, R., Pearlman, J.S. (1987). Methods and apparatus for extending the shelf life of fluid products. United States Patent, 4, 695, 472.
  • Dunn, J. (2001). Pulsed Electric Field Processing: An Overview. In Pulsed Electric Field In Food Processing Fundamental Aspects and Applications.
  • Barbosa-Canovas, G.V., Zhang. Q.H. Technomic Publishing, U.S.A., pp. 268.
  • Evrendilek, G.A., Celik, P., Agcam, E., Akyildiz, A. (2016). Assessing impacts of pulsed electric fields on quality attributes and furfural and hydroxymethylfurfural formations in apple juice. J. Food Process Eng. Doi: 10.1111/jfpe.12524
  • Evrendilek, G.A. (2017). Impacts of pulsed electric field and heat treatment on quality and sensory properties and microbial inactivation of pomegranate juice. Food Sci. Technol. Int. 23(8): 668-680.
  • Faridnia, F., Bekhit, A.E.A., Niven, B., Oey, I. (2014). Impact of pulsed electric fields and postmortem vacuum ageing on beef longissimus thoracis muscles. Int. J. Food Sci. Technol. 49: 2339- 2347.
  • Faridnia, F., Ma, Q.L., Bremer, P.J., Burritt, D.J., Hamid, N., Oey, I. (2015). Effect of freezing as pre-treatment prior to pulsed electric field processing on quality traits of beef muscles. Innov. Food Sci. Emerg. Technol. 29: 31-40.
  • Fauster, T., Schlossnikl, D., Rath, F., Ostermeier, R., Teufel, F., Topefl, S., Jaeger, H. (2018). Impact of pulsed electric field (PEF) pretreatment on process performance of industrial french fries production. J. Food Eng.235: 16-22.
  • Garcia, D., Gomez, N., Condon, S., Pagan, R. (2003). Pulsed electric fields cause sublethal injury in Escherichia coli. Lett. in Appl. Microbiol. 36: 140-144.
  • Gavahian, M., Tiwari, B.K., Chu, Y.H., Ting, Y. Farahnaky, A. (2019). Food texture as affected by ohmic heating: Mechanism involved, recent findings, benefits, and limitations. Trends Food Sci.Technol. 86: 328-339.
  • González-Casado, S., Martín-Belloso, O., ElezMartínez, P., Soliva-Fortuny, P. (2018). Enhancing the carotenoid content of tomato fruit with pulsed electric field treatments: effects on respiratory activity and quality attributes. Postharvest Biol. Tec. 137: 113-118.
  • Grahl, T., Markl, H. (1996). Killing of microorganisms by pulsed electric fields. Applied Microbiology and Biotechnology 45: 148-157.
  • Gudmundsson, M., Hafsteinsson, H. (2001). Effect of electric field pulses on microstructure of muscle foods and roes. Trends Food Sci.Technol. 12: 122-128.
  • Gudmundsson, M., Hafsteinsson, H. (2005). Effect of high intensity electric field pulses on solid foods. In Emerging Technologies For Food Processing, Sun, D.W. Elsevier, USA, pp. 757.
  • Guo, M., Jin, T.Z., Geveke, D.J., Fan, X., Sites, J.E., Wang, L. (2014). Evaluation of microbial stability, bioactive compounds, physicochemical properties, and consumer acceptance of pomegranate juice processed in a commercial scale pulsed electric field system. Food Bioproc. Technol. 7: 2112-2120.
  • Gupta, R.P., Murray, W. (1988). Pulsed High Electric Field Sterilization. IEEE Pulsed Power Conference Record 58-64.
  • Hamilton, W.A., Sale, A.J.H. (1967). Effects of high electric fields on microorganisms: II. mechanism of action of the lethal effect. BBA General Subjects 148(3): 789-800.
  • Harrison, S.L., Barbosa-Canovas, G.V., Swanson, B.G. (1997). Saccharomyces cerevisiae structural changes induced by pulsed electric field treatment. LWT-Food Sci. Technol. 30: 236-240.
  • He, G., Yin, Y., Yan, X. Ve Yu, Q. (2014). Optimisation extraction of chondroitin sulfate from fish bone by high ıntensity pulsed electric fields. Food Chem. 164: 205- 210.
  • Haughton, P. N., Lyng, J. G., Morgan, D. J., Cronin, D. A., Noci, F., Fanning, S., Whyte, P. (2012). An evaluation of the potential of highintensity ultrasound for improving the microbial safety of poultry. Food Bioproc. Technol. 5: 992-998.
  • Hitit, B. (2011). Atımlı elektrik alanı prosesinin meyve sularının kalite kriterleri üzerine etkisi. Abant İzzet Baysal Üniversitesi Fen Bilimleri Enstitüsü Gıda Mühendisliği Anabilim Dalı Yüksek Lisans Tezi, Bolu, Türkiye, 99s.
  • Huang, K., Yu, L., Wang, W. Gai, L. Ve Wang, J. (2014). Comparing the pulsed electric field resistance of the microorganisms in grape juice: application of the weibull model. Food Control 35: 241-251.
  • Hülsheger, H., Niemann, E.G. (1980). Lethal effects of high-voltage pulses on E. coli k12. Radiat. Environ. Bioph. 18: 281-288.
  • Jin, T.Z., Yu, Y., Gurtler, J.B. (2017). Effects of pulsed electric field processing on microbial survival, quality change and nutritional characteristics of blueberries. LWTFood Sci. Technol. 77: 517-524.
  • Kantar, S.E., Boussetta, N., Lebovka, N., Foucart, F., Rajha, H.N., Maroun, R.G., Louka, N., Vorobiev, E. (2018). Pulsed electric field treatment of citrus fruits: improvement of juice and polyphenols extraction. Innov. Food Sci. Emerg. 46: 153-161.
  • Kantono, K., Hamid, N., Oey, I., Wang, S., Xu, Y., Ma, Q., Faridnia, M. (2019). Physicochemical and sensory properties of beef muscles after Pulsed Electric Field processing. Food Res. Int. 121: 1-11.
  • Kumar, Y., Kumar Patel, K., Kumar, V. (2015). Pulsed electric field processing in food technology. Int. J. Eng. Stud. Techn. Appr. 1(2): 6-16.
  • Lee, S.H., Joo, S.T., Ryu, Y.C. (2010). Skeletal muscle fiber type and myofibrillar proteins in relation to meat quality. Meat Sci. 86: 166-170.
  • Leong, S.Y., Richter, L.K., Knorr, D., Oey, I. (2014). Feasibility of using pulsed electric field processing to inactivate enzymes and reduce the cutting force of carrot (Daucus carota var. nantes). Innov. Food Sci. Emerg. 26: 159-167.
  • Ma, Q., Hamid, N., Oey, I., Kantono, K., Faridnia, F., Yoo, M., Farouk, M. (2016). Effect of chilled and freezing pre-treatments prior to pulsed electric field processing on volatile profile and sensory attributes of cooked lamb meats. Innov. Food Sci. Emerg. 37: 359-374.
  • McDonnell, C.K., Allen, P., Chardonnereau, F.S., Arimi, J.M., Lyng, J.G. (2014). The use of pulsed electric fields for accelerating the salting of pork. LWT - Food Sci. Technol. 59: 1054-1060.
  • Mead, G.C. (2004). Meat quality and consumer requirements. In Poultry meat processing and quality, Mead, G.C. CRC Press, USA, pp. 377.
  • Milani, E.A., Alkhafaji, S., Silva, F.V.M. (2015). Pulsed electric field continuous pasteurization of different types of beers. Food Control 50: 223-229.
  • Mok, J.H., Choi, W., Park, S.H., Lee, Sh., Jun, S. (2015). Emerging pulsed electric field (PEF) and static magnetic field (SMF) combination technology for food freezing. Int. J. Refrig. 50: 137- 145.
  • Musto, M., Faraone, D., Cellini, F., Musto, E. (2014). Changes of DNA quality and meat physicochemical properties in bovine supraspinatus muscle during microwave heating. J. Sci. Food Agr. 94: 85–791.
  • O'Dowd, L.P., Arimi, J.M., Noci, F., Cronin, D.A., Lyng, J.G. (2013). An assessment of the effect of pulsed electrical fields on tenderness and selected quality attributes of post rigour beef muscle. Meat Sci. 93: 303-309.
  • Pakhomova, O.N., Khorokhorina, V.A., Bowman, A.M., Rodaite, R.R., Saulis, G., Xiao, S., Pakhomov, A.G. (2012). Oxidative effects of nanosecond pulsed electric field exposure in cells and cell-free media. Arch. Biochem. Biophys. 527: 55-64.
  • Park, S.Y., Kim, H.Y., Choe, J. (2019). Application of an electric field refrigeration system on pork loin during dry aging. Food Sci. Animal Resour. 39(4): 668-676.
  • Parniakov, O., Bals, O., Lebovka, N., Vorobiev, E. (2016). Pulsed electric field assisted vacuum freeze-drying of apple tissue. Innov. Food Sci. Emerg. 35: 52-57.
  • Raso, J., Frey, W., Ferrari, G., Pataro, G., Teissie, J., Miklavčič, D. (2016). Recommendations guidelines on the key information to be reported ın studies of application of PEF technology in food and biotechnological processes. Innov. Food Sci. Emerg. 37: 312-321.
  • Saldaña, G., Cebrián, G., Abenoza, M., SánchezGimeno, C., Álvarez, I., Raso, J. (2017). Assessing the efficacy of PEF treatments for improving polyphenol extraction during red wine vinifications. Innov. Food Sci. Emerg. 39: 179-187.
  • Sale, A.J.H., Hamilton, W.A. (1967). Effects of high electric fields on microorganisms: I. killing of bacteria and yeasts. BBA General Subjects 148(3): 781-788.
  • Sitzmann, W., Münch, E.W. (1987). Verarbeitung tierischer rohstoffe. Eur. J. Lipid Sci. Tech. 89(9): 368-374.
  • Sitzmann, W., Vorobiev, E., Lebovka, N. (2016). Applications of electricity and specifically pulsed electric fields in food processing: Historical backgrounds. Innov. Food Sci. Emerg. 37: 302-311.
  • Soliva-Fortuny, R., Vendrell-Pacheco, M., MartínBelloso, O., Elez-Martínez, P. (2017). Effect of pulsed electric fields on the antioxidant potential of apples stored at different temperatures. LWTFood Sci. Technol. 77: 517-524.
  • Stachelska, M.A., Stankiewicz-Szymczak, W., Jakubczak, A., Swislocka, R. Lewandowski, W. (2012). Influence of pulsed electric field on the survival of yersinia enterocolitica in minced beef meat: assessment of microbiological activity of selected cell lines of bacteria under influence of physicalchemical factors. Aparatura Badawczai Dydaktyczna 2: 13-17.
  • Suwandy, V., Carne, A., Ven, R., Bekhit, A.E.D.A., Hopkins, D.L. (2015a). Effect of pulsed electric field on the proteolysis of cold boned beef M. longissimus lumborum and M. semimembranosus. Meat Sci. 100: 222-226.
  • Suwandy, V., Carne, A., Ven, R., Bekhit, A.E., Hopkins, D.L. (2015b). Effect of pulsed electric field treatment on the eating and keeping qualities of cold-boned beef loins: impact of initial pH and fibre orientation. Food Bioprocess Technol 8: 1355-1365.
  • Suwandy, V., Carne, A., Ven, R., Bekhit, A.E.D.A., Hopkins, D.L. (2015c). Effect of repeated pulsed electric field treatment on the quality of cold-boned beef loins and topsides. Food Bioprocess Technol 8: 1218-1228.
  • Toepfl, S., Heinz, V., Knorr, D. (2006a). Applications of Pulsed Electric Fields Technology for The Food Industry. In Pulsed Electric Fields Technology For The Food Industry Fundamentals and Applications, Raso, J., Heinz, V. Springer, USA, pp. 245.
  • Toepfl, S., Heinz, V., Knorr, D. (2006b). Pulsed electric fields (PEF) processing of meat. IUFOST. Doi: 10.1051/IUFOST:20060591.
  • Vega-Mercado, H., Gongora-Nieto, M.M., Barbosa-Canovas, G.V., Swanson, B.G. (2007). Pulsed electric fields in food preservation. In Handbook of Food Preservation, Rahman, M.S. CRC Press, USA, pp. 1068.
  • Wiktor, A., Schulz, M., Voigt, E., WitrowaRajchert, D., Knorr, D. (2015). The effect of pulsed electric field treatment on immersion freezing, thawing and selected properties of apple tissue. J. Food Eng. 146: 8-16.
  • Wouters, P.C., Alvarez, I., Raso, J. (2001). Critical factors determining inactivation kinetics by pulsed electric field food processing. Trends Food Sci.Technol. 12: 112–121.
  • Wyk, S., Farid, M.M., Silva, F.V.M. (2018). SO2, high pressure processing and pulsed electric field treatments of red wine: Effect on sensory, Brettanomyces inactivation and other quality parameters during one year storage. Innov. Food Sci. Emerg. 48: 204-211.
  • Xue, D., Farid, M.M. (2015). Pulsed electric field extraction of valuable compounds from white button mushroom (Agaricus bisporus). Innov. Food Sci. Emerg. 29: 178-186.
  • Zhang, Q., Barbosa-Canovas, G.V., Swanson, B.G. (1995). Engineering Aspects of Pulsed Electric Field Pasteurization. J. Food Eng. 25: 261- 281.
  • Zhao, W., Yang, R., Zhang, H.Q., Zhang, W., Hua, X., Tang, Y. (2011). Quantitative and real time detection of pulsed electric field induced damage on Escherichia coli cells and sublethally injured microbial cells using flow cytometry in combination with fluorescent techniques. Food Control 22: 566-573.
  • Zimmerman, U., Pilwat, G., Riemann, F. (1974). Dielectric breakdown of cell membranes. Biophys. J. 14: 881-899.
APA Asik Canbaz E, Comlekci S, SEYDİM A (2020). ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI. , 485 - 495. 10.15237/gida.GD19143
Chicago Asik Canbaz Emine,Comlekci Selcuk,SEYDİM Atıf Can ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI. (2020): 485 - 495. 10.15237/gida.GD19143
MLA Asik Canbaz Emine,Comlekci Selcuk,SEYDİM Atıf Can ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI. , 2020, ss.485 - 495. 10.15237/gida.GD19143
AMA Asik Canbaz E,Comlekci S,SEYDİM A ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI. . 2020; 485 - 495. 10.15237/gida.GD19143
Vancouver Asik Canbaz E,Comlekci S,SEYDİM A ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI. . 2020; 485 - 495. 10.15237/gida.GD19143
IEEE Asik Canbaz E,Comlekci S,SEYDİM A "ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI." , ss.485 - 495, 2020. 10.15237/gida.GD19143
ISNAD Asik Canbaz, Emine vd. "ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI". (2020), 485-495. https://doi.org/10.15237/gida.GD19143
APA Asik Canbaz E, Comlekci S, SEYDİM A (2020). ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI. GIDA, 45(3), 485 - 495. 10.15237/gida.GD19143
Chicago Asik Canbaz Emine,Comlekci Selcuk,SEYDİM Atıf Can ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI. GIDA 45, no.3 (2020): 485 - 495. 10.15237/gida.GD19143
MLA Asik Canbaz Emine,Comlekci Selcuk,SEYDİM Atıf Can ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI. GIDA, vol.45, no.3, 2020, ss.485 - 495. 10.15237/gida.GD19143
AMA Asik Canbaz E,Comlekci S,SEYDİM A ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI. GIDA. 2020; 45(3): 485 - 495. 10.15237/gida.GD19143
Vancouver Asik Canbaz E,Comlekci S,SEYDİM A ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI. GIDA. 2020; 45(3): 485 - 495. 10.15237/gida.GD19143
IEEE Asik Canbaz E,Comlekci S,SEYDİM A "ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI." GIDA, 45, ss.485 - 495, 2020. 10.15237/gida.GD19143
ISNAD Asik Canbaz, Emine vd. "ET TEKNOLOJİSİNDE VURGULU ELEKTRİK ALAN TEKNİĞİNİNKULLANILMASI". GIDA 45/3 (2020), 485-495. https://doi.org/10.15237/gida.GD19143
Sayfa Oluşturulma Tarihi
23-04-2024 16:53

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