Food microstructure affects the bioavailability of several nutrients.

There is an increased interest in the role that some nutrients may play in preventing or ameliorating the effect of major diseases (for example, some types of cancer, cardiovascular diseases, eye disorders, among others). In this respect, the bioavailability or the proportion of an ingested nutrient that is made available (that is, delivered to the bloodstream) for its intended mode of action is more relevant than the total amount present in the original food. Disruption of the natural matrix or the microstructure created during processing may influence the release, transformation, and subsequent absorption of some nutrients in the digestive tract. Alternatively, extracts of bioactive molecules (for example, nutraceuticals) and beneficial microorganisms may be protected during their transit in the digestive system to the absorption sites by encapsulation in designed matrices. This review summarizes relevant in vivo and in vitro methods used to assess the bioavailability of some nutrients (mostly phytochemicals), types of microstructural changes imparted by processing and during food ingestion that are relevant in matrix-nutrient interactions, and their effect on the bioavailability of selected nutrients.

[1]  G. Mulokozi,et al.  In vitro accessibility of carotenes from green leafy vegetables cooked with sunflower oil or red palm oil , 2002, International journal of food sciences and nutrition.

[2]  W. Jongen,et al.  Analysing the antioxidant activity of food products: processing and matrix effects. , 1999, Toxicology in vitro : an international journal published in association with BIBRA.

[3]  H. McNulty,et al.  Folate bioavailability , 2004, Proceedings of the Nutrition Society.

[4]  O. Sommerburg,et al.  Fruits and vegetables that are sources for lutein and zeaxanthin: the macular pigment in human eyes , 1998, The British journal of ophthalmology.

[5]  A. Sancho,et al.  The effects of food processing on allergens , 2007 .

[6]  C. Krul,et al.  Antimutagenic activity of green tea and black tea extracts studied in a dynamic in vitro gastrointestinal model. , 2001, Mutation research.

[7]  V. Fogliano,et al.  Photoacoustic measurement of lutein in biological matrix , 2005 .

[8]  D. B. Min,et al.  Bioactivity of Resveratrol , 2006 .

[9]  G. Williamson,et al.  Dietary intake and bioavailability of polyphenols. , 2000, The Journal of nutrition.

[10]  T. Fukui,et al.  Effects of thorough mastication on postprandial plasma glucose concentrations in nonobese Japanese subjects. , 2005, Metabolism: clinical and experimental.

[11]  Robert Havenaar,et al.  Assessing the zearalenone-binding activity of adsorbent materials during passage through a dynamic in vitro gastrointestinal model. , 2003, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[12]  Ming-Ju Chen,et al.  Optimal combination of the encapsulating materials for probiotic microcapsules and its experimental verification (R1) , 2006 .

[13]  J. Hautvast,et al.  Carotenoid bioavailability in humans from tomatoes processed in different ways determined from the carotenoid response in the triglyceride-rich lipoprotein fraction of plasma after a single consumption and in plasma after four days of consumption. , 2000, The Journal of nutrition.

[14]  M. Kaláb,et al.  Microscopy and other imaging techniques in food structure analysis , 1995 .

[15]  Clare Mills,et al.  Managing allergens in food. , 2006 .

[16]  P. Nelson,et al.  An in vitro method for estimating biologically available vitamin B6 in processed foods , 1986, British Journal of Nutrition.

[17]  G. Ros,et al.  Optimisation of in vitro measurement of available iron from different fortificants in citric fruit juices , 2006 .

[18]  R. Aluko,et al.  The anti-carcinogenic and anti-atherogenic effects of lycopene: a review , 2005 .

[19]  J. Pennington Food Composition Databases for Bioactive Food Components , 2002 .

[20]  M. Subirade,et al.  Food protein-based materials as nutraceutical delivery systems , 2006 .

[21]  H. Takimoto,et al.  Increasing trend of spina bifida and decreasing birth weight in relation to declining body-mass index of young women in Japan. , 2006, Medical hypotheses.

[22]  K. Yeum,et al.  Carotenoid bioavailability and bioconversion. , 2003, Annual review of nutrition.

[23]  S. Larsson,et al.  Folate intake, MTHFR polymorphisms, and risk of esophageal, gastric, and pancreatic cancer: a meta-analysis. , 2006, Gastroenterology.

[24]  F. C. Baselt Nutritional Evaluation of Food Processing , 1961 .

[25]  E. Schlich,et al.  Impact of different cooking methods on food quality: Retention of lipophilic vitamins in fresh and frozen vegetables , 2006 .

[26]  D. Tomé,et al.  Bound ferulic acid from bran is more bioavailable than the free compound in rat. , 2004, Journal of agricultural and food chemistry.

[27]  S. Ruth,et al.  Influence of gelatin, starch, pectin and artificial saliva on the release of 11 flavour compounds from model gel systems , 2004 .

[28]  José Miguel Aguilera,et al.  Seligman lecture 2005 food product engineering: building the right structures , 2006 .

[29]  Sébastien Gouin,et al.  Microencapsulation: industrial appraisal of existing technologies and trends , 2004 .

[30]  S. Hendrich Bioavailability of isoflavones. , 2002, Journal of chromatography. B, Analytical technologies in the biomedical and life sciences.

[31]  C. Ottley Food composition databases , 2005 .

[32]  Hilton C. Deeth,et al.  Evaluation of encapsulation techniques of probiotics for yoghurt , 2003 .

[33]  J. Castenmiller,et al.  The food matrix of spinach is a limiting factor in determining the bioavailability of beta-carotene and to a lesser extent of lutein in humans. , 1999, The Journal of nutrition.

[34]  M. Failla,et al.  Development of an in vitro digestion method to assess carotenoid bioavailability from meals. , 1999, Journal of agricultural and food chemistry.

[35]  J. Hautvast,et al.  Dietary factors that affect the bioavailability of carotenoids. , 2000, The Journal of nutrition.

[36]  D. Birt,et al.  Dietary agents in cancer prevention: flavonoids and isoflavonoids. , 2001, Pharmacology & therapeutics.

[37]  W. Hall,et al.  The absorption of vitamin E is influenced by the amount of fat in a meal and the food matrix , 2004, British Journal of Nutrition.

[38]  S. Maleki Food processing: effects on allergenicity , 2004, Current opinion in allergy and clinical immunology.

[39]  Marja-Leena Ovaskainen,et al.  Food composition on the World Wide Web: A user-centred perspective , 2006 .

[40]  Kent K. Stewart Editorial: What Are the Variances of Food Composition Data? , 1997 .

[41]  R. Faulks,et al.  Challenges to understanding and measuring carotenoid bioavailability. , 2005, Biochimica et biophysica acta.

[42]  C. Berset,et al.  Behavior of phenolic antioxidants in a partitioned medium: structure—Activity relationship , 2000 .

[43]  F. Saura-calixto,et al.  Determination of beta-carotene and lutein available from green leafy vegetables by an in vitro digestion and colonic fermentation method. , 2005, Journal of agricultural and food chemistry.

[44]  Gary Williamson,et al.  Bioavailability and bioefficacy of polyphenols in humans. I. Review of 97 bioavailability studies. , 2005, The American journal of clinical nutrition.

[45]  José Miguel Aguilera,et al.  Microstructural principles of food processing and engineering , 1999 .

[46]  Y. Popineau,et al.  Development of an in vitro system simulating bucco-gastric digestion to assess the physical and chemical changes of food , 2002, International journal of food sciences and nutrition.

[47]  L. Valsta,et al.  Nutrient content patterns of Finnish foods in a food composition database , 2006 .

[48]  Jonathan E. Brown,et al.  Urinary isoflavone kinetics: the effect of age, gender, food matrix and chemical composition , 2004, British Journal of Nutrition.

[49]  G. Jan,et al.  In vitro tolerance to digestive stresses of propionibacteria: influence of food matrices , 2005 .

[50]  Rui Hai Liu,et al.  Apple phytochemicals and their health benefits , 2004, Nutrition journal.

[51]  C. Lacroix,et al.  Technologies with free and immobilised cells for probiotic bifidobacteria production and protection , 2005 .

[52]  J. Blumberg,et al.  Bioavailablility of elderberry anthocyanins , 2002, Mechanisms of Ageing and Development.

[53]  U. Babu,et al.  Vegetable concentrates interact with canthaxanthin to affect carotenoid bioavailability and superoxide dismutase activity but not immune response in rats , 1997 .

[54]  Stella M. Alzamora,et al.  Changes in calcium level and mechanical properties of apple tissue due to impregnation with calcium salts , 2006 .

[55]  D. O. Adams,et al.  (Acta Horticulturae, 689:189-196)The phenolic components of grape berries in relation to wine composition , 2005 .

[56]  Thomas Walczyk,et al.  Iron status and food matrix strongly affect the relative bioavailability of ferric pyrophosphate in humans , 2006, The American journal of clinical nutrition.

[57]  L. Applegate,et al.  A food-based formulation provides lycopene with the same bioavailability to humans as that from tomato paste. , 2002, The Journal of nutrition.

[58]  A. Edwards,et al.  α- and β-Carotene from a Commercial Carrot Puree Are More Bioavailable to Humans than from Boiled-Mashed Carrots, as Determined Using an Extrinsic Stable Isotope Reference Method , 2002 .

[59]  E. Anklam,et al.  Polyphenols in chocolate: is there a contribution to human health? , 2000 .

[60]  U. Höller,et al.  Quantification of biotin in feed, food, tablets, and premixes using HPLC-MS/MS. , 2006, Journal of chromatography. B, Analytical technologies in the biomedical and life sciences.

[61]  M. Rychlik,et al.  Application of stable isotope dilution assays based on liquid chromatography-tandem mass spectrometry for the assessment of folate bioavailability. , 2003, Journal of chromatography. B, Analytical technologies in the biomedical and life sciences.

[62]  John Shi,et al.  Lycopene in Tomatoes: Chemical and Physical Properties Affected by Food Processing , 2000, Critical reviews in biotechnology.

[63]  O. A. Lee,et al.  Caco-2 cell ferritin formation predicts nonradiolabeled food iron availability in an in vitro digestion/Caco-2 cell culture model. , 1998, The Journal of nutrition.

[64]  Anna-Sigrid Keck,et al.  Food matrix effects on bioactivity of broccoli-derived sulforaphane in liver and colon of F344 rats. , 2003, Journal of agricultural and food chemistry.

[65]  Christophe Lacroix,et al.  Encapsulation of bifidobacteria in whey protein-based microcapsules and survival in simulated gastrointestinal conditions and in yoghurt , 2004 .

[66]  Susan E. Gebhardt,et al.  Procedures for Estimating Nutrient Values for Food Composition Databases , 1997 .

[67]  R. Pieters,et al.  The effect of the food matrix on in vivo immune responses to purified peanut allergens. , 2005, Toxicological sciences : an official journal of the Society of Toxicology.

[68]  L. Hoey,et al.  Bioavailability of phyto-oestrogens , 2003, British Journal of Nutrition.

[69]  Failla,et al.  Estimation of carotenoid bioavailability from fresh stir-fried vegetables using an in vitro digestion/Caco-2 cell culture model. , 2000, The Journal of nutritional biochemistry.

[70]  B. Bhandari,et al.  SURVIVAL OF PROBIOTICS ENCAPSULATED IN CHITOSAN-COATED ALGINATE BEADS IN YOGHURT FROM UHT- AND CONVENTIONALLY TREATED MILK DURING STORAGE , 2006 .

[71]  C. Laurent,et al.  Flavonoids from a grape seed extract interact with digestive secretions and intestinal cells as assessed in an in vitro digestion/Caco-2 cell culture model , 2007 .

[72]  J. Hallund,et al.  Absorption of isoflavones in humans: effects of food matrix and processing. , 2006, The Journal of nutritional biochemistry.

[73]  K. Setchell,et al.  Factors affecting the bioavailability of soy isoflavones in humans after ingestion of physiologically relevant levels from different soy foods. , 2006, The Journal of nutrition.

[74]  C. Rice-Evans,et al.  Isomerization of lycopene in the gastric milieu. , 2001, Biochemical and biophysical research communications.

[75]  S. Teuber Hypothesis: The Protein Body Effect and Other Aspects of Food Matrix Effects , 2002, Annals of the New York Academy of Sciences.

[76]  Colin D Kay,et al.  Absorption of anthocyanins from blueberries and serum antioxidant status in human subjects. , 2002, Journal of agricultural and food chemistry.

[77]  E. Karmas,et al.  Nutritional evaluation of food processing. 3rd ed. , 1975 .

[78]  K. Kulp,et al.  An in vitro model system to predict the bioaccessibility of heterocyclic amines from a cooked meat matrix. , 2003, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[79]  Chris J. Seal,et al.  In vitro procedure to predict apparent antioxidant release from wholegrain foods measured using three different analytical methods , 2005 .

[80]  D. O. Adams Phenolics and Ripening in Grape Berries , 2006, American Journal of Enology and Viticulture.

[81]  H. Tsuji,et al.  Isolation from Rice Bran of a Bound Form of Vitamin B6 and Its Identification as 5'-O-(β-D-Glucopyranosyl) Pyridoxine , 1977 .

[82]  T. Sanz,et al.  Release, partitioning and stability of isoflavones from enriched custards during mouth, stomach and intestine in vitro simulations , 2006 .

[83]  R. Prior,et al.  Absorption and metabolism of anthocyanins in elderly women after consumption of elderberry or blueberry. , 2002, The Journal of nutrition.

[84]  F. Tomás-Barberán,et al.  An in vitro method to simulate phenolic compound release from the food matrix in the gastrointestinal tract , 2002 .

[85]  N. Baumslag Dietary folate. , 1969, The New England journal of medicine.

[86]  D. Roberts Nutrition and metabolism: antioxidants, the food matrix and methodological considerations. , 2005, Current opinion in lipidology.

[87]  D. Beauchemin,et al.  Simple method to assess the maximum bio-accessibility of elements from food using flow injection and inductively coupled plasma mass spectrometryPresented in part at the 2004 Winter Conference on Plasma Spectrochemistry, Fort Lauderdale, FL, USA, January 5?10, 2004. , 2004 .

[88]  Keith W Waldron,et al.  Role of cell walls in the bioaccessibility of lipids in almond seeds. , 2004, The American journal of clinical nutrition.

[89]  Christopher M Thomas,et al.  Dietary folate from vegetables and citrus fruit decreases plasma homocysteine concentrations in humans in a dietary controlled trial. , 1999, The Journal of nutrition.

[90]  C. Fraga,et al.  Cocoa antioxidants and cardiovascular health. , 2005, The American journal of clinical nutrition.

[91]  Liliana Jiménez,et al.  Polyphenols: food sources and bioavailability. , 2004, The American journal of clinical nutrition.

[92]  J. Erdman,et al.  Mammalian carotenoid absorption and metabolism , 1999 .

[93]  José Miguel Aguilera,et al.  Why food microstructure , 2005 .

[94]  R. Liu,et al.  In vitro digestion and lactase treatment influence uptake of quercetin and quercetin glucoside by the Caco-2 cell monolayer , 2005, Nutrition journal.

[95]  A. Scalbert,et al.  Strawberry anthocyanins are recovered in urine as glucuro- and sulfoconjugates in humans. , 2003, The Journal of nutrition.

[96]  J. Weststrate,et al.  Influence of feeding different vegetables on plasma levels of carotenoids, folate and vitamin C. Effect of disruption of the vegetable matrix , 1999, British Journal of Nutrition.

[97]  A. van de Wiel,et al.  Blessings of the grape. , 2001, European journal of internal medicine.

[98]  K. Setchell,et al.  Evidence for lack of absorption of soy isoflavone glycosides in humans, supporting the crucial role of intestinal metabolism for bioavailability. , 2002, The American journal of clinical nutrition.

[99]  Kalyana Sundram,et al.  Phenolic compounds in plants and agri-industrial by-products: Antioxidant activity, occurrence, and potential uses , 2006 .

[100]  Steven J Schwartz,et al.  Assessment of lutein bioavailability from meals and a supplement using simulated digestion and caco-2 human intestinal cells. , 2004, The Journal of nutrition.

[101]  S. Bozonnet,et al.  Occurrence of flavonols in tomatoes and tomato-based products. , 2000, Journal of agricultural and food chemistry.

[102]  Elizabeth J Johnson,et al.  Carotenoid actions and their relation to health and disease. , 2005, Molecular aspects of medicine.

[103]  J. Erdman,et al.  The crystalline form of carotenes and the food matrix in carrot root decrease the relative bioavailability of beta- and alpha-carotene in the ferret model. , 1996, Journal of the American College of Nutrition.

[104]  R. Reifen,et al.  β-carotene bioavailability from differently processed carrot meals in human ileostomy volunteers , 2003, European journal of nutrition.

[105]  M. Abou-Saleh,et al.  Folic acid and the treatment of depression. , 2006, Journal of psychosomatic research.

[106]  D. Stewart,et al.  Assessing potential bioavailability of raspberry anthocyanins using an in vitro digestion system. , 2005, Journal of agricultural and food chemistry.

[107]  Wenli Yu,et al.  Study on microencapsulation of lycopene by spray-drying , 2006 .

[108]  C. Rock,et al.  Bioavailability of beta-carotene is lower in raw than in processed carrots and spinach in women. , 1998, The Journal of nutrition.

[109]  M. Tapia,et al.  Novel functional foods from vegetable matrices impregnated with biologically active compounds , 2005 .

[110]  P. Nabet,et al.  The Allergenicity of Soybean-Based Products Is Modified by Food Technologies , 2002, International Archives of Allergy and Immunology.

[111]  C. Gardana,et al.  Glycosylated flavonoids from tomato puree are bioavailable in humans , 2005 .

[112]  M. Garcia-Conesa,et al.  Stability of polyphenols in chokeberry (Aronia melanocarpa) subjected to in vitro gastric and pancreatic digestion , 2007 .

[113]  W. Stahl,et al.  Incorporation of carotenoids from paprika oleoresin into human chylomicrons , 2003, British Journal of Nutrition.

[114]  J. Gregory,et al.  Integrating the issues of folate bioavailability, intake and metabolism in the era of fortification , 2005 .

[115]  P. Borel Factors Affecting Intestinal Absorption of Highly Lipophilic Food Microconstituents (Fat-Soluble Vitamins, Carotenoids and Phytosterols) , 2003, Clinical chemistry and laboratory medicine.

[116]  J. Erdman,et al.  Factors that influence the bioavailablity of xanthophylls. , 2002, The Journal of nutrition.

[117]  D. Valero,et al.  Chemical constituents and antioxidant activity of sweet cherry at different ripening stages. , 2005, Journal of agricultural and food chemistry.

[118]  K. Setchell,et al.  Dietary isoflavones: biological effects and relevance to human health. , 1999, The Journal of nutrition.

[119]  J. Groten,et al.  The effect of folate-binding proteins on bioavailability of folate from milk products , 2005 .

[120]  A. Chiralt,et al.  Vacuum impregnation and osmotic dehydration in matrix engineering: Application in functional fresh food development , 2001 .

[121]  N. Shah,et al.  Effect of cryoprotectants, prebiotics and microencapsulation on survival of probiotic organisms in yoghurt and freeze-dried yoghurt , 2006 .

[122]  S. Hertzler,et al.  The glycemic, insulinemic, and breath hydrogen responses in humans to a food starch esterified by 1-octenyl succinic anhydride , 2004 .

[123]  F. Brouns,et al.  Functional food ingredients for reducing the risks of osteoporosis , 2000 .

[124]  A. Crozier,et al.  Potential Health Benefits of Berries , 2005 .

[125]  G. Schaafsma,et al.  Folic acid and 5-methyltetrahydrofolate in fortified milk are bioaccessible as determined in a dynamic in vitro gastrointestinal model. , 2003, The Journal of nutrition.

[126]  N. O'Brien,et al.  Dietary flavonols: chemistry, food content, and metabolism. , 2002, Nutrition.

[127]  M. Serafini,et al.  Plasma antioxidants from chocolate , 2003, Nature.

[128]  M. Subirade,et al.  Iron availability from whey protein hydrogels: an in vitro study. , 2004, Journal of agricultural and food chemistry.

[129]  S. Yoo,et al.  Microencapsulation of α-tocopherol using sodium alginate and its controlled release properties , 2006 .