Papathanasopoulos A, Camilleri M. Dietary fiber supplements: effects in obesity and metabolic syndrome and relationship to gastrointestinal functions[J]. Gastroenterology, 2010, 138(1): 65-72.e1-2
[3]
Raninen K, Lappi J, Mykk?nen H, Poutanen K. Dietary fiber type reflects physiological functionality: comparison of grain fiber, inulin, and polydextrose[J]. Nutrition Reviews, 2011, 69(1): 9-21
[4]
Cummings J H, Macfarlane G T, Englyst H N. Prebiotic digestion and fermentation[J]. The American Journal of Clinical Nutrition, 2001, 73(2): 415-420
[5]
Roberfroid M, Gibson G R, Hoyles L, McCartney A L, Rastall R, Rowland I, Wolvers D, Watztl B, Szajewska H, Stahl B, Guarner F, Respondek F, Whelan K, Coxam V, Davicco M, Léotoing L, Wittrant Y, Delzenne N, Cani P, Neyrinck A, Meheust A. Prebiotic effects: metabolic and health benefits[J]. British Journal of Nutrition, 2010, 104(S2): 1-63
[6]
Anderson J W, Smith B M, Gustafson N J. Health benefits and practical aspects of high-fiber diets[J]. The American Journal of Clinical Nutrition, 1994, 59(5): 1242-1247
[7]
Salmerón J, Manson J E, Stampfer M J, Colditz G A, Wing A L, Willett W C. Dietary fiber, glycemic load, and risk of non-insulin dependent diabetes mellitus in women[J]. The Journal of American Medical Association, 1997, 277(6): 472-477
[8]
Campagnolo P D, Vitolo M R, Gama C M, Stein A T. Prevalence of overweight and associated factors in southern Brazilian adolescents[J]. Public Health, 2008, 122(5): 509-515
[9]
Liu S, Willett W C, Manson J E, Hu F B, Rosner B, Colditz G. Relation between changes in intakes of dietary fiber and grain products and changes in weight and development of obesity among middle-aged women[J]. The American Journal of Clinical Nutrition, 2003, 78(5): 920-927
Artiss J D, Brogan K, Brucal M, Moghaddam M, Jen K L. The effects of a new soluble dietary fiber on weight gain and selected blood parameters in rats[J]. Metabolism: Clinical and Experimental, 2006, 55(2): 195-202
[14]
Sood N, Baker W L, Coleman C I. Effect of glucomannan on plasma lipid and glucose concentrations, body weight, and blood pressure: systematic review and meta-analysis[J]. The American Journal of Clinical Nutrition, 2008, 88(4): 1167-1175
Jenkins D J A, Kendall C W C, Vuksan V, Vidgen E, Parker T, Faulkner D, Mehling C C, Garsetti M, Testolin G, Cunnane S C, Ryan M A, Corey P N. Soluble fiber intake at a dose approved by the US Food and Drug Administration for a claim of health benefits: serum lipid risk factors for cardiovascular disease assessed in a randomized controlled crossover trial[J]. The American Journal of Clinical Nutrition, 2002, 75(5): 834-839
[17]
Meyer K A, Kushi L H, Jacobs D R J, Slavin J, Sellers T A, Folsom A R. Carbohydrates, dietary fiber, and incident type 2 diabetes in older women[J]. The American Journal of Clinical Nutrition, 2000, 71(4):921-930
[18]
Yl?nen K, Alfthan G, Groop L, Saloranta C, Aro A, Virtanen S M. Dietary intakes and plasma concentrations of carotenoids and tocopherols in relation to glucose metabolism in subjects at high risk of type 2 diabetes: the Botnia Dietary Study[J]. The American Journal of Clinical Nutrition, 2003, 77(6): 1434-1441
[19]
Wang Z Q, Zuberi A R, Zhang X H, Macgowan J, Qin J, Ye X, Son L, Wu Q, Lian K, Cefalu W T. Effects of dietary fibers on weight gain, carbohydrate metabolism and gastric ghrelin gene expression in high fat diet fed mice[J]. Metabolism, 2007, 56(12): 1635-1642
[20]
Choi J S, Kim H, Jung M H, Hong S, Song J. Consumption of barley β-glucan ameliorates fatty liver and insulin resistance in mice fed a high-fat diet[J]. Molecular Nutrition & Food Research, 2010, 54(7): 1004-1013
Behall K M, Scholfield D J, Hallfrisch J G, Liljeberg-Elmsthl H G. Consumption of both resistant starch and β-glucan improves postprandial plasma glucose and insulin in women[J]. Diabetes Care, 2006, 29(5): 976-981
Pick M E, Hawrysh Z J, Gee M I, Toth E, Garg M L, Hradin R T. Oat bran concentrate bread products improve long-term control of diabetes: a pilot study[J]. Journal of the American Dietetic Association, 1996, 96(12): 1254-1261
[26]
Tappy L, Gügolz E, Würsch P. Effect of breakfast cereals containing various amounts of β-glucan fibers on plasma glucose and insulin responses in NIDDM subjects[J]. Diabetes Care, 1996, 19(8): 831-834
[27]
Morris J N, Marr J W, Clayton D G. Diet and heart: a postscript[J]. British Medical Journal, 1977,2 (6098): 1307-1314
[28]
Mellen P B, Walsh T F, Herrington D M. Whole grain intake and cardiovascular disease: A meta-analysis[J]. Nutrition, Metabolism and Cardiovascular Diseases, 2008, 18(4): 283-290
[29]
Eshak E S, Iso H, Date C, Kikuchi S, Watanabe Y, Wada Y, Wakai K, Tamakoshi A. Dietary fiber intake is associated with reduced risk of mortality from cardiovascular disease among Japanese men and women[J]. Journal of Nutrition, 2010,140(8): 1445-1453
[30]
Adams M. Dietary fiber from fruits and vegetables reduces risk of coronary heart disease[J]. Archives of Internal Medicine, 2004, 164: 370-375
Shamliyan T A, Jacobs D R, Raatz S K, Nordstrom D L, Keenan J M. Are your patients with risk of CVD getting the viscous soluble fiber they need[J]. The Journal of Family Practice, 2006, 55(9): 761-769
[35]
Tighe P, Duthie G, Vaughan N, Brittenden J, Simpson W G, Duthie S, Mutch W, Wahle K, Horgan G, Thies F. Effect of increased consumption of whole-grain foods on blood pressure and other cardiovascular risk markers in healthy middle-aged persons: a randomized controlled trial[J]. The American Journal of Clinical Nutrition, 2010, 92(4): 733-740
[36]
Galisteo M, Sánchez M, Vera R, González M, Anguera A, Duarte J, Zarzuelo A. A diet supplemented with husks of Plantago ovata reduces the development of endothelial dysfunction, hypertension, and obesity by affecting adiponectin and TNF-alpha in obese Zucker rats[J]. Journal of Nutrition, 2005, 135(10): 2399-2404
[37]
Ma Y, Griffith J A, Chasan-Taber L, Olendzki B C, Jackson E, Stanek Ⅲ E J, Li W, Pagoto S L, Hafner A R, Ockene I S. Association between dietary fiber and serum C-reactive protein[J]. The American Journal of Clinical Nutrition, 2006, 83(4): 760-766
[38]
Ma Y, Hébert J R, Li W, Bertone-Johnson E R, Olendzki B, Pagoto S L, Tinker L, Rosal M C, Ockene I S, Ockene J K, Griffith J A, Liu S. Association between dietary fiber and markers of systemic inflammation in the Women's Health Initiative Observational Study[J]. Nutrition, 2008, 24(10): 941-949
[39]
Galisteo M, Morón R, Rivera L, Romero R, Anguera A, Zarzuelo A. Plantago ovata husks-supplemented diet ameliorates metabolic alterations in obese Zucker rats through activation of AMP-activated protein kinase. Comparative study with other dietary fibers[J]. Clinical Nutrition, 2010, 29(2): 261-267
[40]
Chuang S C, Vermeulen R, Sharabiani M T, Sacerdote C, Fatemeh S H, Berrino F, Krogh V, Palli D, Panico S, Tumino R, Athersuch T J, Vineis P. The intake of grain fibers modulates cytokine levels in blood[J]. Biomarkers, 2011, 16(6): 504-510
[41]
Guigoz Y, Rochat F, Perruisseau-Carrier G, Rochat I, Schiffrin E J. Effects of oligosaccharide on the faecal flora and non-specific immune system in elderly people[J]. Nutrition Research, 2002, 22(1-2): 13-25
[42]
Slavin J L. Dietary fiber and body weight[J]. Nutrition, 2005, 21(3): 411-418
[43]
Edwards C A, Johnson I T, Read N W. Do viscous polysaccharides slow absorption by inhibiting diffusion or convection[J]. European Journal of Clinical Nutrition, 1988, 42(4): 307-312
[44]
Lairon D, Play B, Jourdheuil-Rahmani D. Digestible and indigestible carbohydrates: interactions with postprandial lipid metabolism[J]. The Journal of Nutritional Biochemistry, 2007, 18(4): 217-227
[45]
Boehm G, Lidestri M, Casetta P, Jelinek J, Negretti F, Stahl B, Marini A. Supplementation of a bovine milk formula with an oligosaccharide mixture increases counts of faecal bifidobacteria in preterm infants[J]. Archives of Disease in Child Fetal Neonatal Ed, 2002, 86: 178-181
[46]
Haarman M, Knol J. Quantitative real-time PCR analysis of fecal Lactobacillus species in infants receiving a prebiotic infant formula[J]. Applied and Environmental Microbiology, 2006, 72(4): 2359-2365
[47]
Turnbaugh P J, Ley R E, Mahowald M A, Magrini V, Mardis E R, Gordon J I. An obesity-associated gut microbiome with increased capacity for energy harvest[J]. Nature, 2006, 444: 1027-1031
[48]
Kolida S, Tuohy K, Gibson G R. Prebiotic effects of inulin and oligofructose[J]. British Journal of Nutrition, 2002, 87(S2): 193-197
[49]
Ushida K, Hatanaka H, Inoue R, Tsukahara T, Phillips G O. Effect of long term ingestion of gum arabic on the adipose tissues of female mice[J]. Food Hydrocolloids, 2011, 25(5): 1344-1349
[50]
Jiménez-Escrig A, Tenorio M D, Espinosa-Martos I, Rupérez P. Health-promoting effects of a dietary fiber concentrate from the soybean byproduct okara in rats[J]. Journal of Agricultural Food Chemistry, 2008, 56(16): 7495-7501
[51]
Pylkas A M, Juneja L R, Slavin J L. Comparison of different fibers for in vitro production of short chain fatty acids by intestinal microflora[J]. Journal of Medicinal Food, 2005, 8(1): 113-116
[52]
Al-Lahham S H, Peppelenbosch M P, Roelofsen H, Vonk R J, Venema K. Biological effects of propionic acid in humans; metabolism, potential applications and underlying mechanisms[J]. Biochimical Biophysical Acta, 2010, 1801(11): 1175-1183
[53]
Tedelind S, Westberg F, Kjerrulf M, Vidal A. Anti-inflammatory properties of the short-chain fatty acids acetate and propionate: a study with relevance to inflammatory bowel disease[J]. World Journal of Gastroenterology, 2007, 13(20): 2826-2832
[54]
Sleeth M L, Thompson E L, Ford H E, Zac-Varghese S E, Frost G. Free fatty acid receptor 2 and nutrient sensing: a proposed role for fibre, fermentable carbohydrates and short-chain fatty acids in appetite regulation[J]. Nutrition Research Reviews, 2010, 23(1): 135-145
[55]
Vangaveti V, Shashidhar V, Jarrod G, Baune B T, Kennedy R L. Free fatty acid receptors: emerging targets for treatment of diabetes and its complications[J]. The Advanced Endocrinol Metabolism, 2010, 1(4): 165-175
[56]
Corte O L Y, Martínez F H E, Ortiz A R. Effect of dietary fiber in the quantitative expression of butyrate receptor GPR43 in rats colon[J]. Nutricion Hospitalaria, 2011, 26(5): 1052-1058
[57]
Delzenne N M, Kok N. Effects of fructans-type prebiotics on lipid metabolism[J]. The American Journal of Clinical Nutrition, 2001, 73(S2): 456-458
[58]
Hu G X, Chen G R, Xu H, gGe R S, Lin J. Activation of the AMP activated protein kinase by short-chain fatty acids is the main mechanism underlying the beneficial effect of a high fiber diet on the metabolic syndrome[J]. Medical Hypotheses, 2010, 74(1): 123-126
[59]
Demigné C, Morand C, Levrat M A, Besson C, Moundras C, Rémésy C. Effect of propionate on fatty acid and cholesterol synthesis and on acetate metabolism in isolated rat hepatocytes[J]. British Journal of Nutrition, 1995, 74(2):209-219
[60]
Cani P D, Bibiloni R, Knauf C, Waget A, Neyrinck A M, Delzenne N M, Burcelin R. Changes in gut microbiota control metabolic endotoxemia-induced inflammation in high-fat diet-induced obesity and diabetes in mice[J]. Diabetes, 2008, 57(6): 1470-1481
[61]
Zambell K L, Fitch M D, Fleming S E. Acetate and butyrate are the major substrates for de novo lipogenesis in rat colonic epithelial cells[J]. Journal of Nutrition, 2003, 133(11): 3509-3515
[62]
Parnell J A, Reimer R A. Effect of prebiotic fibre supplementation on hepatic gene expression and serum lipids: a dose-response study in JCR:LA-cp rats[J]. British Journal of Nutrition, 2010, 103(11): 1577-1584
[63]
Delzenne N M, Cani P. Nutritional modulation of gut microbiota in the context of obesity and insulin resistance: potential interest of prebiotics[J]. International Dairy Journal, 2010, 20(4): 277-280
[64]
Reimer R A, Grover G J, Koetzner L, Gahler R J, Lyon M R, Wood S. The soluble fiber complex PolyglycopleX lowers serum triglycerides and reduces hepatic steatosis in high-sucrosefed rats[J]. Nutrtion Research, 2011, 31(4): 296-301
