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Journal of Zhejiang University SCIENCE B 2011 Vol.12 No.11 P.892-899


Effect of quantum therapy on pork quality

Author(s):  Martin Bodnr, Jozef Nagy, Peter Popelka, Beta Kornekov, Jn Ma?anga, Alena Nagyov

Affiliation(s):  Private Veterinary Clinique, Kremnick 9, 040 11 Koice, the Slovak Republic, Department of Food Hygiene and Technology, University of Veterinary Medicine and Pharmacy in Koice, Komenskho 73, 041 81 Koice, the Slovak Republic, Department of Environment, Veterinary Legislation and Economics, Institute of Forensic and Public Veterinary Medicine, University of Veterinary Medicine and Pharmacy in Koice, Komenskho 73, 041 81 Koice, the Slovak Republic

Corresponding email(s):   marbovet@gmail.com, nagy@uvm.sk

Key Words:  Quantum therapy, Meat quality, Colour, Drip loss, Lactic acid, pH

Martin Bodnr, Jozef Nagy, Peter Popelka, Beta Kornekov, Jn Ma?anga, Alena Nagyov. Effect of quantum therapy on pork quality[J]. Journal of Zhejiang University Science B, 2011, 12(11): 892-899.

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A1 - Martin Bodnr
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In this study the impact of pHp?wd=%28quantum therapy%29&ck%5B%5D=abstract&ck%5B%5D=keyword'>quantum therapy on pHp?wd=%28meat quality%29&ck%5B%5D=abstract&ck%5B%5D=keyword'>meat quality of slaughtered pigs was investigated. For this purpose the pigs were treated with different doses of magnet-infrared-laser (MIL) radiation. Animals were divided into four groups according to radiation doses (4096, 512, and 64 Hz, and control without application), which were applied in the lumbar area of musculus longissimus dorsi (loin) at various time intervals prior to the slaughter (14 d, 24 h, and 1 h). Animals were slaughtered and the pHp?wd=%28meat quality%29&ck%5B%5D=abstract&ck%5B%5D=keyword'>meat quality was evaluated by determining of pH value (1, 3, and 24 h post slaughter), pHp?wd=%28drip loss%29&ck%5B%5D=abstract&ck%5B%5D=keyword'>drip loss, pHp?wd=%28colour%29&ck%5B%5D=abstract&ck%5B%5D=keyword'>colour, and pHp?wd=%28lactic acid%29&ck%5B%5D=abstract&ck%5B%5D=keyword'>lactic acid and pHospHoric acid amounts. MIL therapy can be used in various fields of veterinary medicine as are surgery and orthopaedics, internal medicine, dentistry, pulmonology, gastroenterology, gynaecology, urology, nepHrology, and dermatology. The results achieved showed that MIL radiation used in a short period before slaughter (1 h) can cause a change in the pHp?wd=%28meat quality%29&ck%5B%5D=abstract&ck%5B%5D=keyword'>meat quality, as reflected by the non-standard development of pH values, increases in pHp?wd=%28drip loss%29&ck%5B%5D=abstract&ck%5B%5D=keyword'>drip loss, and changes of meat pHp?wd=%28colour%29&ck%5B%5D=abstract&ck%5B%5D=keyword'>colour.

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article


[1]Bendall, J.R., 1972. Consumption of oxygen by the muscles of beef animals and related species, and its effect on the colour of meat. I. Oxygen consumption in pre-rigor muscle. J. Sci. Food Agric., 23(1):61-72.

[2]Bendall, J.R., Taylor, A.A., 1972. Consumption of oxygen by muscles of beef animals and related species. II. Consumption of oxygen by post-rigor muscle. J. Sci. Food Agric., 23(6):707-719.

[3]Cheah, K.S., Cheah, A.M., 1971. Post-mortem changes in structure and function of ox muscle mitochondria. I. Electron microscopic and polarographic investigations. J. Bioenerg., 2(2):85-92.

[4]Čuboň, J., Haščík, P., Mojto, J., Kačániová, M., Vagač, V., Košťálová, D., Pavličová, S., 2004. Effect of natrium lactate on microbiological, physical and sensory properties of beef. Acta Fytotech. Zootech., 7(3):62-66 (in Slovak).

[5]Damirov, M.M., 2001. Applications of Multifactor Quantum Therapy Apparatus “Rikta” in Gynecology. Methodological Guide for Physicians. ZAO Milta, Humanitarian, Information Technology Design and Production Company, Moscow, p.49.

[6]Forrest, J.C., Morgan, M.T., Borggaard, C., Rasmussen, A.J., Jespersen, J.R., Andersen, J.R., 2000. Development of technology for the early post mortem prediction of water holding capacity and drip loss in fresh pork. Meat Sci., 55(1):115-122.

[7]Honikel, K.O., 1987. The water binding of meat. Fleischwirtshaft, 67(9):1098-1102.

[8]Ingr, I., 1995. Ageing Processes in Meat. In: Steinhauser, L., Beneš, J., Budig, J., Gola, J., Hofmann, I., Ingr, I., Kameník, J., Klíma, D., Kozák, A., Kužniar, J., et al. (Eds.), Meat Hygiene and Technology. LAST, Brno, p.387-404 (in Czech).

[9]Isaev, A.K., 2001. Milta-f magnetic infrared laser therapeutic apparatus with a photographic recorder for diagnosis, prognosis, and treatment of inflammatory diseases of uterine appendages. Biomed. Eng., 35(6):334-337.

[10]Kataranov, A.A., Avdeenko, V.S., Stravskij, A.S., 2003. Correction of Immunologic Deficiency in Newborn Calfs by Laser Radiation. Proceedings “Quantum Therapy in Veterinary Medicine”. Moscow, Milta, p.48-49 (in Russian).

[11]Kazeev, G.V., 1995. Use of MIL-Puncture and MIL-Therapy in Veterinary Practice. Proceedings of the Second All-Russian Scientific-Practical Conference on MIL-therapy. Moscow, p.116-122 (in Russian).

[12]Koréneková, B., Turek, P., 2008. Observation of Lactic Acid Content in Pork and Beef Meat. Proceedings of Hygiena Alimentorum XXIX. Štrbské Pleso, p.113-115 (in Slovak).

[13]Koréneková, B., Nagy, J., Mačanga, J., Paulsen, P., 2009. Comparison of Levels of Lactic Acid during Ageing Process of Rabbit Meat. Proceedings of Hygiena Alimentorum XX. Štrbské Pleso, p.350-351 (in Slovak).

[14]Lindahl, G., Henckel, P., Karlsson, A.H., Andersen, H.J., 2006. Significance of early postmortem temperature and pH decline on colour characteristics of pork loin from different crossbreeds. Meat Sci., 72(4):613-623.

[15]Munk, F., 2007. Use of Hal Gene (RYR1) to Improve Production Characteristics and Meat Quality of Pigs. PhD Thesis, Slovak Agricultural University in Nitra, p.18 (in Slovak).

[16]Musilová, H., Dvořák, P., 2001. Factors influenced stability of meat colour. Maso, 12(6):3-36 (in Czech).

[17]Otto, G., Roehe, R., Looft, H., Thoelking, L., Kalm, E., 2004. Comparison of different methods for determination of drip loss and their relationships to meat quality and carcass characteristics in pigs. Meat Sci., 68(3):401-409.

[18]Pipek, P., 1997. Technological properties of meat. Maso, 8(1):56-62 (in Czech).

[19]Puolanne, E., Kivikari, R., 2000. Determination of the buffering capacity of postrigor meat. Meat Sci., 56(1):7-13.

[20]Pösö, A., Puolanne, E., 2005. Carbohydrate metabolism in meat animals. Meat Sci., 70(3):423-434.

[21]Przybylski, W., Verin, P., Monin, G., 1994. Relationship between glycolytic potential and ultimate pH in bovine, porcine and ovine muscles. J. Muscle Foods, 5(3):245-255.

[22]Przybylski, W., Monin, G., Koćwin-Podsiadła, M., Krzęcio, E., 2006. Glycogen metabolism in muscle and its effects on meat quality in pigs. Pol. J. Food Nutr. Sci., 56(3):257-262.

[23]Purchas, R.W., Aungsupakorn, R., 1993. Further investigations into the relationship between ultimate pH and tenderness for beef samples from bulls and steers. Meat Sci., 34(2):163-178.

[24]Sieczkowska, H., Koćvin-Podsiadla, M., Zybert, A., Krzecio, E., Antosik, K., Kamiński, S., Wójcik, E., 2010. The association between polymorphism of PKM2 gene and glycolytic potential and pork meat quality. Meat Sci., 84(1):180-185.

[25]Šimek, J., Steinhauser, L., 2001. Colour of meat. Maso, 12(3):35-36 (in Czech).

[26]Šimek, J., Vorlová, L., Steinhauser, L., 2002. Qualitative deviations of meat and their identification. Maso, 13(4):24-27 (in Czech).

[27]Šimek, J., Vorlová, L., Malota, L., Steinhauserová, I., Steinhauser, L., 2003. Post-mortal changes of pH value and lactic acid content in the muscle of pigs and bulls. Czech J. Anim. Sci., 48(3):295-299.

[28]Tsyba, A.F., Kaplan, M.A., 1991. Low-Energy Lasers in Medicine. Proceedings of the All-Union Symposium. Obninsk, Russia, p.276.

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