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http://dx.doi.org/10.12925/jkocs.2011.28.2.4

Effect of dietary inuloprebuotics on thiobarbituric acid reactive substances of chicken meat  

Park, Byung-Sung (Department of Animal Biotechnology, College of Animal Life Science, Kangwon National University)
Publication Information
Journal of the Korean Applied Science and Technology / v.28, no.2, 2011 , pp. 152-160 More about this Journal
Abstract
The author previously reported that the addition of inuloprebiotics to broiler diets produces growth performance that is superior to antibiotic supplementation. The present study furthered this work by evaluating the quality with thiobarbituric acid reactive substances (TBARS) of the meat from chickens fed inuloprebiotics produced using Korean Jerusalem artichoke. Male Ross 308 broilers (n=240) were randomly allotted to a 35 day regimen of dietary control (no supplementation), dietary antibiotics supplementation (8 mg avilamycin/kg diet), or dietary inuloprebiotic supplementation (450 mg inuloprebiotics/kg diet). The pH, water holding capacity, L*value (lightness), and b*value (yellowness) of the chicken meat weres ignificantly higher in the inuloprebiotic group. The TBARS value of chicken meat stored at low temperature tended to increase according to the length of storage, and was significantly lower in the inuloprebiotics group. The sensory scores of the cooked chicken meat were significantly higher in the inuloprebiotics group. The results indicate that the addition of inuloprebiotics as anantimicrobial agent to broiler diets can greatly improve the quality and self-life with reducing TBARS of chicken meat.
Keywords
Inuloprebiotics; thiobarbituric acid reactive substances; chicken meat;
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1 J. A. Patterson and K. M. Burkholder, Application of prebiotics in poultry production, Poult.Sci.,82,627(2003).   DOI
2 V. D. Rada, M. Duskova, and J. Petr, Enrichment of Bifidobacteria in the hen caeca by dietary inulin, Folia Microbiol., 46, 73(2001).   DOI   ScienceOn
3 Z. R. Xu, C. H. Hu, and M. O. Wang, Effects of fructooligosaccharide on conversion of L-tryptophan to skatole and indole by mixed populations of pig fecal bacteria, J. Gen. Appl. Microbiol., 48, 83(2002).   DOI   ScienceOn
4 W. F. Zhang, D. F. Li, W. Q. Lu, and G. F. Yi, Effects of isomalto-oilgosaccharides on broiler performance and intestinal microflora, Poult. Sci., 82, 657(2003).   DOI
5 F. Hernandez, J. Madrid, V. Garcia, J. Orengo, and M. D. Megias, Influence of two plant extracts on broilers performance, digestibility, and digestive organ size, Poult. Sci., 83, 169(2004).   DOI
6 L. M. Dorotea and D. N. M. Maris, Molecular properties and prebiotic effect of inulin obtained from artichoke(Cynara scolymus L.), Phytochemistry., 66, 1476(2005).   DOI   ScienceOn
7 B. S. Park, Bifidogenic effects of inuloprebiotics in broiler chickens, J. Life. Sci., 18, 1693 (2008).   DOI
8 S. Raharjo and J. N. Sofos, Methodology of measuring malonylaldehyde as a product of lipid peroxidation in muscle tissues: a review, MeatSci., 35, 145 (1993).
9 J. A. Dickens, M. E. Berrang, and N. A. Cox, Efficacy of an herbal extract on the microbiological quality of broiler carcass during a simulated chill, Poult. Sci., 79, 1200 (2000).   DOI
10 J. A. Burge and J. D. Aust, Microsomal lipid peroxidation, Methods Enzymol., 52, 302(1978).
11 SAS, Statistical Analysis System, InstituteInc. JMP. Statistical Discovery. V.6.0(2005).
12 R. L. Van Laack, J. M. C. H Liu, M. O. Smith, and H. D. Loveday, Characteristics of pale, soft, exudative broiler breast meat, Poult.Sci., 79, 1057 (2000).   DOI
13 O. A. Young, J. West, A. L. Hart, and F. F. H. Van Otterdijk, A method for early determination of meat ultimate pH, MeatSci., 66, 493 (2004).
14 E. J. Briskey and W. Pedersen, Biochemistry of pork muscle structure, I. Rate of anaerobic glycolysis and temperature change versus the apparent structure of muscle tissue, J. Food Sci., 26, 296 (1961).
15 S. Barbut, Problem of pale soft exudative meat in broiler chickens, Br. Poult. Sci., 75, 505(1997).
16 J. F. Young, J. Stasted, S. K. Jensen, A. H. Karlsson, and P. Henckel, Ascorbic acid, ${\alpha}-tocopherol$, and oregano supplements reduce stress-induced deterioration of chicken meat quality, Poult. Sci., 82, 1343(2003).   DOI
17 P. M. Nissen, and J. F. Young, Creatine monohydrate and glucose supplementation to slow- and fast-growing chickens changes the postmortem pH in pectoralis major, Poult. Sci., 85, 1038 (2006).   DOI
18 G. Tian, and B. Yu, Recent advances in flavour of chicken quality, Chin. Sichuan Anim. Sci, Vet. Med., 28, 54 (2001).
19 S.O. Park and B. S. Park, Effect of dietary inuloprebiotics on performance, serum immunoglobulin and caecal microflora in broiler chickens, Kor. J. Organic Agric., 17, 539(2009).
20 A. D. French, Chemical and physical properties of fructans, Plant Physiol., 134, 125(1989).   DOI
21 Scot PIL training manual, Glasgow Univ. UK (1994).
22 National Research Council, Nutrients requirements of poultry. 9th rev. National Academy Press, Washington DC. USA (1994).
23 CIE, Iternational Commission on Illumination, Recommendations on uniform colour spaces, colour difference equations, psychometric colour terms. CIE Publication(15E-1.31) 1971/TO-1.3) Suppl. 15. Bureau Central de la CIE, Paris (1978).
24 B. Close, K. Banister, V. Baumans, E. M. Bernoth, N. Bromage, J. Bunyan, W. Erhardt, P. Flecknell, N. Gregory, H. Hackbarth, D. Morton, and C. Warwick, Recommendations for euthanasia of experimental animals, Part 2. Laboratory animals., 31,1-32(1997).
25 C. Berri, J. Besnard, and C. Relandeau, Increasing dietary lysine increases final pH and decreases drip loss of broiler breast meat, Poult. Sci., 87, 480(2008).   DOI   ScienceOn
26 K. O. Honikel, Reference methods for the assessment of physical characteristics of meat, Meat Sci., 49, 447(1998).   DOI   ScienceOn
27 Effects of inulin and enzyme complex, individually or in combination, on growth performance, intestinal microflora, cecal fermentation characteristics, and jejunal histomorphology in broiler chickens fed a wheat- and barley-based diet, Poult. Sci., 89, 276(2010).   DOI   ScienceOn
28 H. Rehman, P. Hellweg, D. Taras, and J. Zentek, Effects of dietary inulin on the intestinal short chain fatty acids and microbial ecology in broiler chickens as revealed by denaturing gradient gel electrophoresis, Poult. Sci., 87, 783(2008).   DOI   ScienceOn
29 P. Holownia, B. Jaworska-Luczak, and I. Wisniewska, The benefits and potential health hazards posed by the prebiotic inulin-a review, Polish J. Food Nutr. Sci., 60, 201(2010).
30 R. Jianming, L. Jingli, F. Dong, and G. Zhanyong, Highly efficient synthesis and antioxidant activity of O-(aminoethyl) inulin, Carbohydrate Polymers., 83, 1240 (2010).
31 T. Mitsuoka, Bifidobacteria and their role in human health, J. Induct. Micro., 6, 263(1990).   DOI   ScienceOn
32 H. W. Modler, R. C. McKellar, and M. Yaguchi, Bifidobacteria and bifidogenic factors-review, Can. Inst. Food Sci. Technol. J. .23, 29(1990).   DOI
33 B. S. Park and D. H. Son, Feed composition for replacing antibiotic comprising inulin originated from jerusalem artichoke. WIPO Patent Application WO/2008/075878 (2008).
34 J. J. Dibner and J. D. Richards, Antibiotic growth promoters in agriculture: History and mode of action, Poult. Sci., 84, 634(2005).   DOI
35 M. B. Roberfroid, J. A. E. van Loo, and G. R. Gibson, The bifidogenic nature of chicory inulin and its hydrolysis products, J. Nutr., 128, 11(1998).   DOI
36 G. R. Gibson and R. A. Rastall, Prebiotics: Development and application, John Wiley and Sons, Ltd., USA (2006).