References
- Benavente-Garcia O, Castello J, Morente J, Ortuno A, Del Rio JA. Antioxidant activity of phenolics extracted from Olea europea L. leaves. Food Chem 1999; 68: 457–62
- Owen RW, Giocosa A, Hull WE, Haubner R, Wurtele G, Spiegelhander B, et al. Olive-oil consumption and health: the possible role of antioxidants. Lancet Oncology 2000; 1: 107–12
- Manna C, Galletti P, Misto G, Cucciola V, D'Angelo S, Zappia V. Transport mechanism and metabolism of olive oil hydroxytyrosol in Caco-2 cells. FEMS Lett 2000; 470: 341–4
- Visioli F, Poli A, Galli C. Antioxidant and other biological activities of phenols from olives and olive oil. Med Res Rev 2002; 22: 65–75
- Bravo L, Abia R, Eastwood MA, Saura-Calixto F. Degradation of polyphenols (catechin and tannic acid) in the rat intestinal tract. Effect on colonic fermentation and faecal output. Br J Nutr 1994; 71: 933–46
- Hollman PC, Katan MB. Absorption, metabolism and health effects of dietary flavonoids in man. Biomed Pharmacother 1997; 51: 305–10
- Vissers MN, Zock PL, Roodenburg AJ, Leenen R, Kata MB. Olive oil phenols are absorbed in humans. J Nutr 2002; 132: 409–17
- Visioli F, Galli C, Bornet F, Mattei A, Patelli R, Galli G, et al. Olive oil phenolics are dose-dependently absorbed in humans. FEMS Lett 2000; 468: 159–60
- Caruso D, Visioli F, Patelli R, Galli C, Galli G. Urinary excretion of olive oil phenols and their metabolites in humans. Metabolism 2001; 50: 1–3
- Capasso R, Evidente A, Schivo L, Orru G, Marcialis MA, Cristinzio G. Antibacterial polyphenols from olive oil mill waste waters. J Appl Bacteriol 1995; 79: 393–8
- Bisognano G, Tomaino A, Lo Cascio R, Crisafi G, Uccella N, Saija A. On the in-vitro antimicrobial activity of oleuropein and hydroxytyrosol. J Pharm Pharmacol 1999; 51: 971–74
- Ciaffardini G, Zullo BA. Microbiological activity in stored olive oil. Int J Food Microbiol 2001; 75: 111–18
- Malkki, Y, Cummings, JH. Dietary fibre and fermentation in the colon. Y Malkki, Cummings, JH, eds. Proceedings of COST Action 92 workshop. Espoo, Finland, 1995.
- Pool-Zobel BL, Neudecker C, Domizlaff I, Ji S, Schillinger U, Rumney C, et al. Lactobacillus- and Bifidobacterium-mediated antigenotoxicity in the colon of rats. Nutr Cancer 1996; 26: 365–80
- Fuller R, Gibson GR. Modification of the intestinal microflora using probiotics and prebiotics. Scand J Gastroenterol Suppl 1997; 222: 28–31
- Cummings JH, Macfarlane GT. The control and consequences of bacterial fermentation in the human colon. J Appl Bacteriol 1991; 70: 443–59
- Rowland IR. Gut microflora and cancer. Gut microflora and health – past, present and future, AR Leeds, IR Rowland. Royal Society of Medicine Press, London 1996
- Montedoro GF, Servili M, Baldioli M, Miniati E. Simple and hydrolysable compounds in virgin olive oil. 1. Their extraction, separation and quantitative and semi-quantitative evaluation by HPLC. J Agric Food Chem 1992; 40: 1571–6
- Holdeman VL, Cato EP, Moore WEC. Anaerobe laboratory manual4th edn. Virginia Polytechnic Institute and State University, Blacksburg, VA 1977
- Moore WEC, Moore LH. Intestinal floras of populations that have a high risk of colon cancer. Appl Environ Microbiol 1995; 61: 3202–7
- Sahm DF, Washington JA. Susceptibility tests: microdilution and macrodilution broth procedures. Manual of clinical microbiology5th edn, W Balows, J Hauster, KL Herrman, HJ. Shadomy. Am Soc Microbiol, Washington, DC 1991; 1105–16
- Zampa A, Silvi S, Fagiani R, Morozzi G, Orpianesi C, Cresci A. Effects of different digestible carbohydrates on bile acid metabolism and SCFA production by human gut microflora grown in an in vitro semi-continuous culture. Anaerobe 2004; 10: 19–26
- Duncan AJ, Henderson C. A study of the fermentation of dietary fibre by human colonic bacteria grown in in vitro semi-continuous culture system. Appl Environ Microbiol 1981; 42: 400–7
- Balch WE, Fox GE, Magrum LJ, Woese CR, Wolfe RS. Methanogens: re-evaluation of unique biological group. Microbiol Rev 1979; 43: 260
- Rumney CJ, Rowland IR. In vivo and in vitro models of the human colonic flora. Crit Rev Food Sci Nutr 1992; 31: 299–331
- Bearne CA, Mallet AK, Rowland IR, Brennan-Craddok WE. Continuous culture of human faecal bacteria as in vitro model for the colonic microflora. Toxicol In Vitro 1990; 4: 522–5
- Silvi S, Rumney CJ, Rowland IR. An assessment of three selective media for bifidobacteria in faeces. J Appl Bacteriol 1996; 81: 561–4
- Cresci A, Orpianesi C, Silvi S, Mastrandrea V, Dolora P. The effect of sucrose or starch-based diet on short-chain fatty acids and faecal microflora in rats. J Appl Microbiol 1999; 86: 245–50
- Tranter M, Tassou C, Nychas GJ. The effect of olive oil phenolic compound, oleuropein, on growth and enterotoxin B production by Staphylococcus aureus. J Appl Bacteriol 1993; 74: 253–9
- Marsillo V, Lanza B, Pozzi N. Progress in table olive dedittering: degradation in vitro of oleuropein and its derivatives by Lactobacillus plantarum. J Am Oil Chem Soc 1996; 73: 593–7
- Sheppach W, Luehrs H, Menzel T. Beneficial health effects of low-digestible carbohydrate consumption. Br J Nutr 2001; 85: S23–S30
- Topping DL, Clifton PM. Short-chain fatty acids and human colonic function: roles of resistant starch and nonstarch polysaccharides. Physiol Rev 2001; 81: 1031–64
- Sheppach W, Bartram HP, Richter F. Role of short chain fatty acids in the prevention of colorectal cancer. Eur J Cancer 1995; 31A: 1077–80
- Pryde SE, Duncan SH, Hold GL, Stewart CS, Flint HJ. The microbiology of butyrate formation in the human colon. FEMS Microbiol Lett 2002; 217: 133–9
- Dolara P, Luceri C, De Filippo C, Femia AP, Giovannelli L, Caderni G, et al. Red wine polyphenols influence carcinogenesis, intestinal microflora, oxidative damage and gene expression profiles of colonic mucosa in F344 rats. Mutat Res 2005; 591: 237–46