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The primary objective was to determine whether consumption of conjugated linoleic acids (…


Biology Articles » Microbiology » Food Microbiology » The effect of drinking milk containing conjugated linoleic acid on fecal microbiological profile, enzymatic activity, and fecal characteristics in humans » References

References
- The effect of drinking milk containing conjugated linoleic acid on fecal microbiological profile, enzymatic activity, and fecal characteristics in humans

1.   Kepler CR, Tove SB: Biohydrogenation of unsaturated fatty acids.J Biol Chem 1967, 242:5686-5692.       2.   Hughes PE, Hunter WJ, Tove SB: Biogeneration of unsaturated fatty acids.J Biol Chem 1982, 257:3643-3649.       3.   Gaullier J-M, Halse J, Hoye K, Kristiansen K, Fagertun H, Vik H, Gudmundsen O: Conjugated linoleic acid supplementation for 1 y reduces body fat mass in healthy overweight humans.Am J Clin Nutr 2004, 79:1118-1125.       4.   Risérus U, Berglund L, Vessby B: Conjugated linoleic acid (CLA) reduced abdominal adipose tissue in obese middle-aged men with signs of the metabolic syndrome: a randomized controlled trial.Internat J Obesity 2001, 25:1129-1135.       5.   Smedman A, Vessy B: Conjugated linoleic acid supplementation in humans – metabolic effects.Lipids 2001, 36:773-781.       6.   Noone EJ, Roche HM, Nugent AP, Gibney MJ: The effect of dietary supplementation using isomeric blends of conjugated linoleic acid on lipid metabolism in healthy human subjects.Br J Nutr 2002, 88:243-251.       7.   Park Y, Albright KJ, Liu W, Storkson JM, Cook ME, Pariza MW: Effect of conjugated linoleic acid on body composition in mice.Lipids 1997, 32:853-858.       8.   Ostrowska E, Muralitharan M, Cross RF, Bauman DE, Dunshea FR: Dietary conjugated linoleic acids increase lean tissue and decrease fat deposition in growing pigs.J Nutr 1999, 129(11):2037-2042.       9.   Wahle KWJ, Heys SD, Rotondo D: Conjugated linoleic acids: are they beneficial or detrimental to health?Prog Lipid Res 2004, 43:553-587.       10.   Finegold SM, Sutter VL, Mathisen GE: Normal indigenous flora.In Human Intestinal Microflora in Health and Disease. New York: Academic Press; 1983:3-31.       11.   Wilson KH: The Gastrointestinal biota.In Textbook of Gastroenterology. Volume 1. 3rd edition. Edited by: Yamada T. Philadelphia: Lippincott, Williams and Wilkins; 1999:624-636.       12.   Mallett AK, Rowland IR: Factors affecting the gut microflora.In Role of the Gut Flora in Toxicity and Cancer. New York: Academic Press; 1988:347-382.       13.   Mitsuoka T: Intestinal flora and aging.Nutr Rev 1992, 50:438-446.       14.   Gorbach SL: Perturbation of intestinal microflora.Vet Human Toxicol 1993, 35(suppl 1):15-23.       15.   Van Loo JAE: Prebiotics promote good health, the basis, the potential, and the emerging evidence.J Clin Gastroenterol 2004, 38(supp 2):S70-S75.       16.   Delzenne NM, Williams CM: Prebiotics and lipid metabolism.Curr Opinion Lipid 2002, 13:61-67.       17.   Jenkins K, Courtney PD: Lactobacillus growth and membrane composition in the presence of linoleic or conjugated linoleic acid.Can J Microbiol 2003, 49:51-57.       18.   Cummings JH, Wiggins HS, Jenkins DJA, Houston H, Jivraj T, Drasar BS, Hill MJ: Influence of diets high and low in animal fat on bowel habit, gastrointestinal transit time, fecal microflora, bile acid, and fat excretion.J Clin Invest 1978, 61:953-963.       19.   Endo K, Kumemura M, Nakamura K, Fujisawa T, Suzuki K, Benno Y, Mitsuoka T: Effect of high cholesterol diet and polydextrose supplementation on the microflora, bacteria enzyme activity, putrefactive products, volatile fatty acid (VFA) profile, weight, and pH of the feces in healthy volunteers.Bifidobacteria Microflora 1991, 10:53-64.       20.   Eastwood MA, Allgood GS: The effect of olestra on breath gas production and faecal microbial counts.Eur J Clin Nutr 1995, 49:627-639.       21.   Kneifel W, Mattila-Sandholm T, von Wright A: Probiotic bacteria detection and estimation in fermented and non-fermented dairy products.In Encyclopedia Food Micro. Edited by: Batt CA, Patel PD. New York: Academic Press; 2000:1783-1789.       22.   Carman RJ, Van Tassell RL, Wilkins T: Interactions between dietary compounds and the colonic microflora.In Science for the Food Industry on the 21st Century, Biotechnology Supercritical Fluids, Membranes and other Advanced Technologies for Low Calorie, Healthy Food Alternatives. Edited by: Yalpani M. Prospect IL: ATL Press; 1993:313-342.       23.   Bartram H-P, Gostner A, Kelber E, Dusel G, Weimer A, Scheppach W, Kasper H: Effects of fish oil on fecal bacterial enzymes and steroid excretion in healthy volunteers: implications for colon cancer prevention.Nutr Cancer 1996, 25:71-78.       24.   Kleesen B, Sykura B, Zunft H-J, Blaut M: Effects of inulin and lactose on fecal microflora, microbial activity, and bowel habit in elderly constipated persons.Am J Clin Nutr 1997, 65:1397-1402.       25.   Freeman HJ: Effects of differing purified cellulose, pectin, and hemicellulose fiber diets on fecal enzymes in 1,2-dimethylhydrazine-induced rat colon carcinogenesis.Cancer Res 1986, 46:5529-5532.       26.   Bouhnik Y, Flourie B, Andrieux C, Bisetti N, Briet F, Rambaud JC: Effects of Bifidobacterium sp fermented milk ingested with or without inulin on colonic bifidobacteria and enzymatic activities in healthy humans.Eur J Clin Nutr 1996, 50:269-273.       27.   Buddington RK, Williams CH, Chen S-C, Witherly SA: Dietary supplement of neosugar alters the fecal flora and decreases activities of some reductive enzymes in human subjects.Am J Clin Nutr 1996, 63:709-716.       28.   Goldin BR, Swenson L, Dwyer J, Sexton M, Gorbach SL: Effect of diet and Lactobacillus acidophilus supplements on human fecal bacterial enzymes.J Nat Cancer Inst 1980, 64:255-261.       29.   Rambaud J-C, Bouhnik Y, Marteau P, Pochart P: Manipulation of the human gut microflora.Proc Nutr Soc 1993, 52:357-366.       30.   Goldin B, Gorbach SL: Alterations in fecal microflora enzymes related to diet, age, lactobacillus supplements and dimethylhydrazine.Cancer 1977, 40:2421-2426.       31.   Carman RJ, Van Tassell RL, Wilkins T: The normal intestinal microflora: ecology, variability and stability.Vet Human Toxicol 1993, 35(Suppl 1):11-14.       32.   Nakamura J, Kubota Y, Miyaoka M, Saitoh T, Mizuno F, Benno Y: Comparison of four microbial enzymes in Clostridia and Bacteriodes isolated from human feces.Microbiol Immun 2002, 46:487-490.       33.   Draser BS, Renwick AG, Williams RT: The role of the gut flora in the metabolism of cyclamate.Biochem J 1972, 129:881-890.       34.   Suzuki K, Benno Y, Mitsuoka T, Takebe S, Kobash K, Hase J: Urease-producing species of intestinal anaerobes and their activities.Appl Environ Microbiol 1979, 37:379-382.       35.   Malin M, Verronen P, Mykkanen H, Salminen S, Isolauri E: Increased bacterial urease activity in faeces in juvenile chronic arthritis: evidence of altered intestinal microflora?       36.   Graston SM, Juntunen KS, Poutanen KS, Gylling HK, Miettinen TA, Mykkanen HM: Rye bread improves bowel function and decreases the concentrations of some compounds that are putative colon cancer risk markers in middle-aged women and men.J Nutr 2000, 130:2215-2221.       37.   Goldin B, Gorbach SL: The effect of milk and lactobacillus feeding on human intestinal bacterial enzyme activity.Am J Clin Nutr 1984, 39:756-761.       38.   Tanaka R: The effects of the ingestion of fermented milk with Lactobacillus casei Shirota on the gastrointestinal microbial ecology in healthy volunteers.In Gut Microflora and Health – Past, Present and Future. International Congress and Symposium Series No. 219. Edited by: Leeds AR, Rowland IR. London: Royal Society of Medicine Press; 1997:37-45.       39.   Sanders ME: Lactic acid bacteria as promoters of human health.In Functional Foods. Edited by: Goldberg I. New York: Chapman and Hill Publ. Co; 1994:294-322.       40.   Lee Y-K, Salminen S: The coming age of probiotics.Trends Food Sci & Technol 1995, 6:241-244.       41.   Isolauri E, Salminen S, Ouwehand AC: Microbial-gut interactions in health and disease. Probiotics.Best Pract Res Clin Gastroenterol 2004, 18:299-313.       42.   Tannock GW, Munro K, Harmsen HJM, Welling GW, Smart J, Gopal PK: Analysis of the fecal microflora of human subjects consuming a probiotic product containing Lactobacillus rhamnosus DR20.Appl Environ Micro 2000, 66:2578-2588.       43.   Vesa T, Pochart P, Marteau P: Parmacokinetics of Lactobacillus plantarum NCIMB 8826, Lactobacillus fermentum KLD, and Lactococcus lactis MG 1363 in the human gastrointestinal tract.Aliment Pharmacol Ther 2000, 14:823-828.       44.   Chouinard PY, Lévesque J, Girard V, Brisson GJ: Dietary soybeans extruded at different temperatures: milk composition and in situ fatty acid reactions.J Dairy Sci 1997, 80:2913-2924.       45.   Goldin R, Gorbach SL: The relationship between diet and rat fecal bacterial enzymes implicated in colon cancer.J Nat Cancer Inst 1976, 57:371-375.       46.   Ling WH, Korpela R, Mykkanen H, Salminen S, Hanninen O: Lactobacillus strain GG supplementation decreases colonic hydrolytic and reductive enzyme activities in healthy female adults.J Nutr 1994, 124:18-23.       47.   Fernandes J, Rao AV, Wolever TMS: Different substrates and methane producing status affect short-chain fatty acid profiles produced by in vitro fermentation of human feces.J Nutr 2000, 130:1932-1936.       48.   Modler HW, McKellar RC, Yaguchi M: Bifidobacteria and bifidogenic factors.Can Inst Food Sci Technol J 1990, 23:30-41.       49.   Ishibashi N, Shimamura S: Bifidobacteria: research and development in Japan.Food Technol 1993, June:126-135.       50.   Gibson GR: Dietary modulation of the human gut microflora using the prebiotics oligofructose and inulin.J Nutr 1999, 129:1438S-1441S.       51.   Bielecka M, Biedrzycka E, Majkowska A: Selection of probiotics and prebiotics for synbiotics and confirmation of their in vivo effectiveness.Food Res Internat 2002, 35:125-131.       52.   Roberfroid MB, Van Loo JAE, Gibson GR: The bifidogenic nature of chicory inulin and its hydrolysis products.J Nutr 1998, 128:11-19.       53.   Kruse H-P, Kleessen B, Blaut M: Effects of inulin on faecal bifidobacteria in human subjects.Br J Nutr 1999, 82:375-382.       54.   Tuohy KM, Finlay RK, Wynne AG, Gibson GR: A human volunteer study on the prebiotic effects of HP-inulin – faecal bacteria enumerated using fluorescent in situ hybridisation (FISH).Anaerobe 2001, 7:113-118.       55.   Samelson SL, Nelson RL, Nyhus LM: Protective role of faecal pH in experimental colon carcinogenesis.J Royal Soc Med 1985, 78:230-233.       56.   van Dokkum W, Wezendonk B, Srikumar TS, van den Heuve EGHM: Effect of nondigestible oligosaccharides on large-bowel functions, blood lipid concentrations and glucose absorption in young healthy male subjects.Eur J Clin Nutr 1999, 53:1-7.       57.   Vance AJ, Burridge SM: Ammonia production by intestinal bacteria: the effects of lactose, lactulose and glucose.J Med Microbiol 1980, 13:177-191.    


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