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Çok Bileşenli Et Ürünlerinde Kemik Kalıntı İçeriğinin Belirlenmesi

Year 2022, Volume: 17 Issue: 1, 20 - 25, 29.04.2022

Abstract

Sosislerde ve diğer et ürünlerinde mekanik olarak kemiği çıkarılmış kanatlı etinin kullanımı için özel bir kriter, kemik kalıntılarının varlığıdır. Mekanik olarak kemiği çıkarılmış ette kemik kalıntılarını belirlemek için bilinen yöntemler, baharat, nişasta, diyet lifi ve diğer bileşenleri içerdiklerinden et ürünleri için gerekli doğruluğu sağlama ve bu yöntemler çok karmaşık ve pahalıdır. Bu çalışmanın amacı, et ürünlerindeki kemik kapanımlarının gravimetrik tayini için basit ve doğru bir yöntem geliştirmektir. Amaca ulaşmak için et ürünlerindeki kemik kapanımlarının bilinen kantitatif analiz yöntemleri ve söz konusu yöntemlerin tekrarlanabilirliği ve yeniden üretilebilirliği geliştirildi. Araştırmanın sonuçları, et ürünlerinde kemik kapanımlarını belirlemek için geliştirilmiş gravimetrik yöntem ve bunun metrolojik kabulü usulüne uygun olarak kanıtlanmıştır. Et ürünleri örnekleri, proteinlerin ve yağın tamamen çözünmesi için %2 alkali solüsyon (KOH) ile işlenir. Numuneler daha sonra konsantre bir çinko klorür (ZnCl2) çözeltisi ile işlendi. Bu reaktif, nişasta ve lifler gibi gıda nemi tutucu katkı maddelerini askıya alınır. Sonuç olarak, yoğunlukları baharatlardan daha yüksek, ancak kemik kapanımlarından daha düşüktür. Ortaya çıkan süspansiyonun beklemesine izin verildiğinde, baharatlar yüzeye çıkar ve kemik kalıntıları çökelir. Çökelti yıkanır, kurutulur ve kemik kapanımlarının kütlesi belirlendi. Deneyler, kemik kapanımlarının ölçümlerindeki nispi toplam hatanın et ürünlerindeki içeriklerinde bir azalma ile arttığını ve Ukrayna'nın resmi normları için kemik kapanımlarının %0,1 ila %0,2'si için %45'i geçmediğini gösterdi. Analitik uygulama için resmi düzeyde geliştirilen ve onaylanan çok bileşenli et ürünlerinde kemik kapanımlarının kütle fraksiyonunu belirleme yönteminin, bu ürünlerin tahrif derecesini niteliksel düzeyde belirleme olasılığını genişlettiği sonucuna varılabilir.

References

  • 1. Krasyukov YN, Gromov IY, Savinkova IP, Pavlenko NM, Danshova LL.Determination of bone inclusions and calcium in poultry meat of mechanical deboning. Meat Technologies. 2007;9:22-24.
  • 2. Branscheid W, Judas M, Höreth RH. The morphological detection of bone and cartilage particles in mechanically separatedmeat. Meat Science. 2009;81(1):46-50. [Crossref]
  • 3. Mello MA, Neto JM, Torres EAFS. Application of multivariate analysis to the study of mechanically deboned chicken meat (MDCM). Int Food Res J. 2017;24(3):1102.
  • 4. Dalipi R, Berneri R, Curatolo M, Borgese L, Depero LE, Sangiorgi E. Total reflection X-ray fluorescence used to distinguish mechanically separated from non-mechanically separated meat. Spectrochimica Acta Part B: Atomic Spectroscopy. 2018;148:16-22. [Crossref]
  • 5. Usatenko NF, Kalashnik MG, Verbytskyi SB, Oxrimenko YI. Non-standardized raw material for the meat industry. Food Industry: Science and Technologies. 2021;4(54):34-40.
  • 6. Wubshet SG, Wold JP, Böcker U, Sanden KW, Afseth NK. Raman spectroscopy for quantification of residual calcium and total ash in mechanically deboned chicken meat. Food Control. 2019;95:267-73. [Crossref]
  • 7. Pospiech M, Zikmund T, Javůrková Z, Kaiser J, Tremlová B, An Innovative Detection of Mechanically Separated Meat in Meat Products. Food Analytical Methods. 2019;12(3):652-657. [Crossref]
  • 8. Mokhtar D, Abdel-Aziz D, Youssef H, Taha A. Applied histological and chemical analysis for detection of adulteration of minced meat and sausage. J Adv Micr Res. 2018;13:1-9.
  • 9. Khvylya SI, Pchelkina VA, Burlakova SS. Standardized histological methods for assessing the quality of meat and meat products. All about Meat. 2011;6:32-35.
  • 10. Pchelkina VA. Possibilities of using the image analysis system for research of meat raw materials and products. Tech Food Prod Tech. 2016;43(4):70-75.
  • 11. Hassoun A, Måge I, Schmidt WF, et al. Fraud in animal origin food products: advances in emerging spectroscopic detection methods over the past five years. Foods. 2020; 9:1069. [Crossref]
  • 12. Field RA. Ash and calcium as measures of bone in meat and bone mixtures. Meat Sci. 2000;55(3):255-264. [Crossref]
  • 13. Usatenko N, Okhrimenko Y, Svyrydenko T, Martynenko L, Klischova T. Non-traditional raw meat materials. Food Proc Industry. 2009;9-10:14-17.
  • 14. DSTU-N RMG 61:2006 Accuracy, trueness and precision measures of the procedures for quantitative chemical analysis. Methods of determination (RMG 61:2003, IDT), DP UkrNDNTs, Kyiv.
  • 15. Poultry Meat Processing (AR Sams - ed.), 2001. 335, CRC Press, Boca Raton, London, New York, Washington D.C.
  • 16. Gonotskiy VA, Fedina LP, Khvylya SI, Krasyukov YuN, Abaldova VA. Mechanically deboned poultry, Alfa-Design, Moscow, 2004.
  • 17. GSTU 46.070-2003. Poultry meat deboned mechanically. General specifications, Ministry of Agrarian Policy of Ukraine, Kyiv, 2003.
  • 18. Code of Federal Regulations. Mechanically separated (kind of poultry), 2007. 9 C.F.R. §381.173. Washington, DC: U.S. Government Printing Office.
  • 19. TIMM UAAN. Investigating the composition of mechanically deboned poultry meat and developing a method for determining the content of bone inclusions in meat products: Research report. KP 00419880. State Registration Number 0109U002612 (Superv. Usatenko NF., exec. Okhrimenko YI.), 48, Dairy and Meat Technological Institute, Kyiv, 2010.
  • 20. DSTU 4435:2005 Semi-smoked sausages. General specifications. Derzhspozhivstandart Ukrainy, Kyiv, 2006: 23.
  • 21. DSTU 4436:2005 Boiled sausages, frankfurters, sardellas, meat loaves. General specifications. Derzhspozhivstandart Ukrainy, Kyiv, 2006: 35.
  • 22. GOST 8.010-2013 State system for ensuring the uniformity of measurements. Procedures of measurements. Main principles, Standartinform, Moscow, 2019: 102.
  • 23. Usatenko NF, Okhrimenko YI, Martynenko LH. A new method to control the quality of meat products. Bull Agricul Sci. 2012;7:61- 63.
  • 24. Methods for measuring the mass fraction of bone inclusions in meat products by the gravimetric method (Certificate MVV 081/12-0690-10 of 30 June 2010).
  • 25. Bondar S, Voitsekhivska L, Verbytskyi S, Okhrimenko Y, Klyschova T, Sokolova S. Study of dependence of content of bone inclusions in mechanically separated poultry from temperature and type of raw material. Food Resources. 2017;8:86-92.
  • 26. Nagdalian AA, Rzhepakovsky IV, Siddiqui SA. Analysis of the content of mechanically separated poultry meat in sausage using computing microtomography. J Food Composition Analy. 2021;100:103918. [Crossref]
  • 27. Crosland AR, Patterson RLS, Higman RC, Stewart CA, Hargin KD. Investigation of methods to detect mechanically recovered meat in meat products - I: chemical composition. Meat Sci. 1995;40(3):289-302. [Crossref]
  • 28. Todorova ID, Nikolaeva GD, Ivanova YK. Technological opportunities for enhancing the quality of dietary, cooked sausages through use of dairy additives. Sci Tech Educ. 2021;2-1(77):16-20.
  • 29. Kang KM, Lee SH, Kim HY. Quality properties of whole milk powder on chicken breast emulsion-type sausage. J Animal Sci Tech. 2021;63(2):405-416. [Crossref]
  • 30. AOAC Official Method 983.19. Calcium in Mechanically Separated Poultry and Beef. Titrimetric Method.
  • 31. Pickering K, Evans CL, Hargin KD, Stewart CA. Investigation of methods to detect mechanically recovered meat in meat products - III: microscopy. Meat Sci. 1995;40:319-326. [Crossref]
  • 32. Tremlova B, Sarha P, Pospiech M. Histological analysis of different kinds of mechanically recovered meat. Archiv für Lebensmittelhygiene. 2006;57(3):85-91.
  • 33. Groves K. Evaluation of simple microscopy protocol for identifying mechanically separated meat in pork, chicken and turkey. Leatherhead Food Res. 2011;8:1-52.
  • 34. Laszkiewicz B, Szymanski P, Kołozyn-Krajewska D. Quality problems in mechanically separated meat. Medycyna Weterynaryjna. 2019;75:6157. [Crossref]
  • 35. Iammarino M, Miedico O, Petrella A, Mangiacotti M, Chiaravalle AE. Innovative approaches for identifying a mechanically separated meat: evaluation of radiostrontium levels and development of a new tool of investigation. J Food Sci Tech. 2020;57(2):484-494. [Crossref]
  • 36. Salins SS, Siddiqui SA, Reddy SVK, Kuma S. Experimental investigation on the performance parameters of a helical coil dehumidifier test rig. Energy Sources Part A Recovery Utilization and Environmental Effects. 2021;43(1):35-53. [Crossref]
  • 37. Tomaiuolo M, Mangiacotti M, Chiaravalle E, Iammarino M. Innovative techniques for identifying a mechanically separated meat: sample irradiation coupled to electronic spin resonance. Eur Food Res Tech. 2019;245(10):2331-2341. [Crossref]
  • 38. Schmidt Andersen MB, Frydenvang J, Henckel P, Rinnan A. The potential of laser-induced breakdown spectroscopy for industrial at-line monitoring of calcium content in comminuted poultry meat. Food Control. 2016;64:226-233. [Crossref]
  • 39. Wubshet SG, Wold JP, Böcker U, Sanden KW, Afseth NK. Raman spectroscopy for quantification of residual calcium and total ash in mechanically deboned chicken meat. Food Control. 2019;95:267-273. [Crossref]
  • 40. Coşkun AG, Temelli S, Eyigör A. Mekanik ayrılmış kanatlı eti: özellikleri, güncel kullanım alanları ve ilgili mevzuat. Vet Hek Der Derg. 2019;90(2):164-177. [Crossref]
  • 41. Wieja K, Kiełczyński P, Szymański P, Szalewski M, Balcerzak A, Ptasznik S. Identification and investigation of mechanically separated meat (MSM) with an innovative ultrasonic method. Food Chemistry. 2021;348:128907. [Crossref]
  • 42. Law of Ukraine On Consumer Rights Protection of 12 May 1991, No 1023-XII, Verkhovna Rada Ukrainy, Kyiv.

Determination of the Content of Bone Inclusions in Multicomponent Meat Products

Year 2022, Volume: 17 Issue: 1, 20 - 25, 29.04.2022

Abstract

A specific criterion for the use of mechanically deboned poultry meat in sausages and other meat products is the presence of bone inclusions. Known methods for determining bone inclusions in mechanically deboned meat do not provide the required accuracy for meat products as they contain spices, starch, dietary fiber, and other ingredients. These methods are too complicated and expensive. The purpose of this study is to develop a simple and accurate method for the gravimetric determination of bone inclusions in meat products. To reach the purpose the known methods of quantitative analysis of bone inclusions in meat products and the repeatability and reproducibility of the said methods were improved. The results of the research consist in the developed gravimetric method for determining bone inclusions in meat products and its metrological acceptance duly proven. Samples of meat products are treated with 2% alkali solution (KOH) for complete dissolution of proteins and fat. The samples are then treated with a concentrated solution of zinc chloride (ZnCl2). This reagent suspends food moisture retaining additives, such as starch and fibers. As a result, their density is higher than that of spices, but lower than that of bone inclusions. When the resulting suspension is allowed to stand, the spices float to the surface, and the bone inclusions precipitate. The precipitate is washed, dried, and the mass of bone inclusions is determined. Experiments showed that the relative total error in measurements of bone inclusions increases with a decrease in their content in meat products and does not exceed 45% for the official norms of Ukraine ranging from 0.1% to 0.2% of bone inclusions. The conclusion can be drawn that the method for determining the mass fraction of bone inclusions in multicomponent meat products, developed and approved at the official level for analytical practice, expands the possibility of determining the degree of falsification of these products at the level of qualitative and quantitative expertise in accordance with the normative documents in force.

References

  • 1. Krasyukov YN, Gromov IY, Savinkova IP, Pavlenko NM, Danshova LL.Determination of bone inclusions and calcium in poultry meat of mechanical deboning. Meat Technologies. 2007;9:22-24.
  • 2. Branscheid W, Judas M, Höreth RH. The morphological detection of bone and cartilage particles in mechanically separatedmeat. Meat Science. 2009;81(1):46-50. [Crossref]
  • 3. Mello MA, Neto JM, Torres EAFS. Application of multivariate analysis to the study of mechanically deboned chicken meat (MDCM). Int Food Res J. 2017;24(3):1102.
  • 4. Dalipi R, Berneri R, Curatolo M, Borgese L, Depero LE, Sangiorgi E. Total reflection X-ray fluorescence used to distinguish mechanically separated from non-mechanically separated meat. Spectrochimica Acta Part B: Atomic Spectroscopy. 2018;148:16-22. [Crossref]
  • 5. Usatenko NF, Kalashnik MG, Verbytskyi SB, Oxrimenko YI. Non-standardized raw material for the meat industry. Food Industry: Science and Technologies. 2021;4(54):34-40.
  • 6. Wubshet SG, Wold JP, Böcker U, Sanden KW, Afseth NK. Raman spectroscopy for quantification of residual calcium and total ash in mechanically deboned chicken meat. Food Control. 2019;95:267-73. [Crossref]
  • 7. Pospiech M, Zikmund T, Javůrková Z, Kaiser J, Tremlová B, An Innovative Detection of Mechanically Separated Meat in Meat Products. Food Analytical Methods. 2019;12(3):652-657. [Crossref]
  • 8. Mokhtar D, Abdel-Aziz D, Youssef H, Taha A. Applied histological and chemical analysis for detection of adulteration of minced meat and sausage. J Adv Micr Res. 2018;13:1-9.
  • 9. Khvylya SI, Pchelkina VA, Burlakova SS. Standardized histological methods for assessing the quality of meat and meat products. All about Meat. 2011;6:32-35.
  • 10. Pchelkina VA. Possibilities of using the image analysis system for research of meat raw materials and products. Tech Food Prod Tech. 2016;43(4):70-75.
  • 11. Hassoun A, Måge I, Schmidt WF, et al. Fraud in animal origin food products: advances in emerging spectroscopic detection methods over the past five years. Foods. 2020; 9:1069. [Crossref]
  • 12. Field RA. Ash and calcium as measures of bone in meat and bone mixtures. Meat Sci. 2000;55(3):255-264. [Crossref]
  • 13. Usatenko N, Okhrimenko Y, Svyrydenko T, Martynenko L, Klischova T. Non-traditional raw meat materials. Food Proc Industry. 2009;9-10:14-17.
  • 14. DSTU-N RMG 61:2006 Accuracy, trueness and precision measures of the procedures for quantitative chemical analysis. Methods of determination (RMG 61:2003, IDT), DP UkrNDNTs, Kyiv.
  • 15. Poultry Meat Processing (AR Sams - ed.), 2001. 335, CRC Press, Boca Raton, London, New York, Washington D.C.
  • 16. Gonotskiy VA, Fedina LP, Khvylya SI, Krasyukov YuN, Abaldova VA. Mechanically deboned poultry, Alfa-Design, Moscow, 2004.
  • 17. GSTU 46.070-2003. Poultry meat deboned mechanically. General specifications, Ministry of Agrarian Policy of Ukraine, Kyiv, 2003.
  • 18. Code of Federal Regulations. Mechanically separated (kind of poultry), 2007. 9 C.F.R. §381.173. Washington, DC: U.S. Government Printing Office.
  • 19. TIMM UAAN. Investigating the composition of mechanically deboned poultry meat and developing a method for determining the content of bone inclusions in meat products: Research report. KP 00419880. State Registration Number 0109U002612 (Superv. Usatenko NF., exec. Okhrimenko YI.), 48, Dairy and Meat Technological Institute, Kyiv, 2010.
  • 20. DSTU 4435:2005 Semi-smoked sausages. General specifications. Derzhspozhivstandart Ukrainy, Kyiv, 2006: 23.
  • 21. DSTU 4436:2005 Boiled sausages, frankfurters, sardellas, meat loaves. General specifications. Derzhspozhivstandart Ukrainy, Kyiv, 2006: 35.
  • 22. GOST 8.010-2013 State system for ensuring the uniformity of measurements. Procedures of measurements. Main principles, Standartinform, Moscow, 2019: 102.
  • 23. Usatenko NF, Okhrimenko YI, Martynenko LH. A new method to control the quality of meat products. Bull Agricul Sci. 2012;7:61- 63.
  • 24. Methods for measuring the mass fraction of bone inclusions in meat products by the gravimetric method (Certificate MVV 081/12-0690-10 of 30 June 2010).
  • 25. Bondar S, Voitsekhivska L, Verbytskyi S, Okhrimenko Y, Klyschova T, Sokolova S. Study of dependence of content of bone inclusions in mechanically separated poultry from temperature and type of raw material. Food Resources. 2017;8:86-92.
  • 26. Nagdalian AA, Rzhepakovsky IV, Siddiqui SA. Analysis of the content of mechanically separated poultry meat in sausage using computing microtomography. J Food Composition Analy. 2021;100:103918. [Crossref]
  • 27. Crosland AR, Patterson RLS, Higman RC, Stewart CA, Hargin KD. Investigation of methods to detect mechanically recovered meat in meat products - I: chemical composition. Meat Sci. 1995;40(3):289-302. [Crossref]
  • 28. Todorova ID, Nikolaeva GD, Ivanova YK. Technological opportunities for enhancing the quality of dietary, cooked sausages through use of dairy additives. Sci Tech Educ. 2021;2-1(77):16-20.
  • 29. Kang KM, Lee SH, Kim HY. Quality properties of whole milk powder on chicken breast emulsion-type sausage. J Animal Sci Tech. 2021;63(2):405-416. [Crossref]
  • 30. AOAC Official Method 983.19. Calcium in Mechanically Separated Poultry and Beef. Titrimetric Method.
  • 31. Pickering K, Evans CL, Hargin KD, Stewart CA. Investigation of methods to detect mechanically recovered meat in meat products - III: microscopy. Meat Sci. 1995;40:319-326. [Crossref]
  • 32. Tremlova B, Sarha P, Pospiech M. Histological analysis of different kinds of mechanically recovered meat. Archiv für Lebensmittelhygiene. 2006;57(3):85-91.
  • 33. Groves K. Evaluation of simple microscopy protocol for identifying mechanically separated meat in pork, chicken and turkey. Leatherhead Food Res. 2011;8:1-52.
  • 34. Laszkiewicz B, Szymanski P, Kołozyn-Krajewska D. Quality problems in mechanically separated meat. Medycyna Weterynaryjna. 2019;75:6157. [Crossref]
  • 35. Iammarino M, Miedico O, Petrella A, Mangiacotti M, Chiaravalle AE. Innovative approaches for identifying a mechanically separated meat: evaluation of radiostrontium levels and development of a new tool of investigation. J Food Sci Tech. 2020;57(2):484-494. [Crossref]
  • 36. Salins SS, Siddiqui SA, Reddy SVK, Kuma S. Experimental investigation on the performance parameters of a helical coil dehumidifier test rig. Energy Sources Part A Recovery Utilization and Environmental Effects. 2021;43(1):35-53. [Crossref]
  • 37. Tomaiuolo M, Mangiacotti M, Chiaravalle E, Iammarino M. Innovative techniques for identifying a mechanically separated meat: sample irradiation coupled to electronic spin resonance. Eur Food Res Tech. 2019;245(10):2331-2341. [Crossref]
  • 38. Schmidt Andersen MB, Frydenvang J, Henckel P, Rinnan A. The potential of laser-induced breakdown spectroscopy for industrial at-line monitoring of calcium content in comminuted poultry meat. Food Control. 2016;64:226-233. [Crossref]
  • 39. Wubshet SG, Wold JP, Böcker U, Sanden KW, Afseth NK. Raman spectroscopy for quantification of residual calcium and total ash in mechanically deboned chicken meat. Food Control. 2019;95:267-273. [Crossref]
  • 40. Coşkun AG, Temelli S, Eyigör A. Mekanik ayrılmış kanatlı eti: özellikleri, güncel kullanım alanları ve ilgili mevzuat. Vet Hek Der Derg. 2019;90(2):164-177. [Crossref]
  • 41. Wieja K, Kiełczyński P, Szymański P, Szalewski M, Balcerzak A, Ptasznik S. Identification and investigation of mechanically separated meat (MSM) with an innovative ultrasonic method. Food Chemistry. 2021;348:128907. [Crossref]
  • 42. Law of Ukraine On Consumer Rights Protection of 12 May 1991, No 1023-XII, Verkhovna Rada Ukrainy, Kyiv.
There are 42 citations in total.

Details

Primary Language English
Subjects Health Care Administration
Journal Section Araştırma Makaleleri
Authors

Nina Usatenko 0000-0002-0339-5189

Sergii Verbytskyi 0000-0002-4211-3789

Publication Date April 29, 2022
Published in Issue Year 2022 Volume: 17 Issue: 1

Cite

APA Usatenko, N., & Verbytskyi, S. (2022). Determination of the Content of Bone Inclusions in Multicomponent Meat Products. Atatürk Üniversitesi Veteriner Bilimleri Dergisi, 17(1), 20-25.
AMA Usatenko N, Verbytskyi S. Determination of the Content of Bone Inclusions in Multicomponent Meat Products. Atatürk Üniversitesi Veteriner Bilimleri Dergisi. April 2022;17(1):20-25.
Chicago Usatenko, Nina, and Sergii Verbytskyi. “Determination of the Content of Bone Inclusions in Multicomponent Meat Products”. Atatürk Üniversitesi Veteriner Bilimleri Dergisi 17, no. 1 (April 2022): 20-25.
EndNote Usatenko N, Verbytskyi S (April 1, 2022) Determination of the Content of Bone Inclusions in Multicomponent Meat Products. Atatürk Üniversitesi Veteriner Bilimleri Dergisi 17 1 20–25.
IEEE N. Usatenko and S. Verbytskyi, “Determination of the Content of Bone Inclusions in Multicomponent Meat Products”, Atatürk Üniversitesi Veteriner Bilimleri Dergisi, vol. 17, no. 1, pp. 20–25, 2022.
ISNAD Usatenko, Nina - Verbytskyi, Sergii. “Determination of the Content of Bone Inclusions in Multicomponent Meat Products”. Atatürk Üniversitesi Veteriner Bilimleri Dergisi 17/1 (April 2022), 20-25.
JAMA Usatenko N, Verbytskyi S. Determination of the Content of Bone Inclusions in Multicomponent Meat Products. Atatürk Üniversitesi Veteriner Bilimleri Dergisi. 2022;17:20–25.
MLA Usatenko, Nina and Sergii Verbytskyi. “Determination of the Content of Bone Inclusions in Multicomponent Meat Products”. Atatürk Üniversitesi Veteriner Bilimleri Dergisi, vol. 17, no. 1, 2022, pp. 20-25.
Vancouver Usatenko N, Verbytskyi S. Determination of the Content of Bone Inclusions in Multicomponent Meat Products. Atatürk Üniversitesi Veteriner Bilimleri Dergisi. 2022;17(1):20-5.