Challenges to understanding and measuring carotenoid bioavailability.

Carotenoids are an excellent example of where poor understanding of food structure, complexity of behaviour during digestion, and inter-individual differences in response, lead to misinterpretation of study results. Four challenges associated with understanding and measuring carotenoid bioavailability are discussed: release of carotenoids from food structure and processing into an absorbable form (bioaccessibility), passage of carotenoids from gut lumen into the body (absorption), interpreting plasma response and inter-individual variation. Bioaccessibility of carotenoids is governed by characteristics of the food matrix, which affect the efficiency of physical, enzymic and chemical digestion. Carotenoids used as colorants are likely to be better absorbed because of the form in which they are dispersed in food. Extent of absorption of carotenoid supplements will depend on the proximity of dosing to the consumption of a fat-containing meal. Release of carotenoids from food plants occurs only when the plant cell is fractured and this occurs only during food preparation, processing and/or mastication, not during digestion. Following release from the food matrix, the major limiting factor is solubility of carotenoids in digesta. Absorption studies are best carried out by measuring chylomicron carotenoid excursion, with modelling of chylomicron turnover rate. In this way, inter-individual differences in lipoprotein metabolism can, in part, be taken into account before formulating conclusions on the rate and extent of absorption.

[1]  S. Grundy,et al.  Chylomicron clearance in normal and hyperlipidemic man. , 1976, Metabolism: clinical and experimental.

[2]  N. Krinsky,et al.  The transport of vitamin A and carotenoids in human plasma. , 1958, Archives of biochemistry and biophysics.

[3]  W. Schreurs,et al.  Intestinal beta-carotene absorption and cleavage in men: response of beta-carotene and retinyl esters in the triglyceride-rich lipoprotein fraction after a single oral dose of beta-carotene. , 1995, The American journal of clinical nutrition.

[4]  R. Faulks,et al.  Kinetics of gastro-intestinal transit and carotenoid absorption and disposal in ileostomy volunteers fed spinach meals , 2004, European journal of nutrition.

[5]  J. Manson,et al.  Discrimination in absorption or transport of beta-carotene isomers after oral supplementation with either all-trans- or 9-cis-beta-carotene. , 1995, The American journal of clinical nutrition.

[6]  R. Goldbohm,et al.  Safety evaluation of synthetic β-carotene , 1999 .

[7]  J. Brenna,et al.  Study of β‐Carotene Metabolism in Humans Using 13C‐β‐Carotene and High Precision Isotope Ratio Mass Spectrometry , 1993 .

[8]  A. Clifford,et al.  Stable isotope methods for the study of beta-carotene-d8 metabolism in humans utilizing tandem mass spectrometry and high-performance liquid chromatography. , 1994, Analytical Chemistry.

[9]  P Borel,et al.  Carotenoids in biological emulsions: solubility, surface-to-core distribution, and release from lipid droplets. , 1996, Journal of lipid research.

[10]  C. Boone,et al.  Bioavailability of beta-carotene in humans. , 1988, The American journal of clinical nutrition.

[11]  C. West,et al.  Bioefficacy of β-carotene dissolved in oil studied in children in Indonesia , 2001 .

[12]  K. Scott,et al.  Changes in plasma carotenoid and vitamin E profile during supplementation with oil palm fruit carotenoids. , 1998, The Journal of laboratory and clinical medicine.

[13]  S. Schwartz,et al.  Lycopene Stability During Food Processing , 1998, Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine.

[14]  W. Bretzel,et al.  Content and isomeric ratio of lycopene in food and human blood plasma , 1997 .

[15]  K. Day,et al.  The correlation between the intake of lutein, lycopene and β-carotene from vegetables and fruits, and blood plasma concentrations in a group of women aged 50-65 years in the UK , 1996, British Journal of Nutrition.

[16]  B. Olmedilla,et al.  The potential for the improvement of carotenoid levels in foods and the likely systemic effects , 2000 .

[17]  S. Vogel,et al.  A rapid method for separation of plasma low and high density lipoproteins for tocopherol and carotenoid analyses , 1996, Lipids.

[18]  R. Benya,et al.  Assessment of the intestinal retention of beta-carotene in humans. , 1994, Journal of the American College of Nutrition.

[19]  W. Stahl,et al.  All-trans beta-carotene preferentially accumulates in human chylomicrons and very low density lipoproteins compared with the 9-cis geometrical isomer. , 1995, The Journal of nutrition.

[20]  B. Underwood,et al.  Vitamin A status and dark green leafy vegetables , 1995, The Lancet.

[21]  J. C. Smith,et al.  Separation and identification of carotenoids and their oxidation products in the extracts of human plasma. , 1992, Analytical chemistry.

[22]  M. Mohanram,et al.  Effect of dietary fat on absorption of beta carotene from green leafy vegetables in children. , 1980, The Indian journal of medical research.

[23]  J. Frisoli,et al.  Beta-carotene accumulation in serum and skin. , 1993, The American journal of clinical nutrition.

[24]  R. Parker,et al.  Evidence of cis-trans isomerization of 9-cis-beta-carotene during absorption in humans. , 1996, The American journal of clinical nutrition.

[25]  W. Stahl,et al.  Uptake of lycopene and its geometrical isomers is greater from heat-processed than from unprocessed tomato juice in humans. , 1992, The Journal of nutrition.

[26]  W. Stahl,et al.  Lycopene is more bioavailable from tomato paste than from fresh tomatoes. , 1997, The American journal of clinical nutrition.

[27]  P Borel,et al.  Low and high responders to pharmacological doses of beta-carotene: proportion in the population, mechanisms involved and consequences on beta-carotene metabolism. , 1998, Journal of lipid research.

[28]  D. Goodman,et al.  The intestinal absorption and metabolism of vitamin A and beta-carotene in man. , 1966, The Journal of clinical investigation.

[29]  E. Johnson,et al.  Distribution of orally administered beta-carotene among lipoproteins in healthy men. , 1992, The American journal of clinical nutrition.

[30]  K. Scott,et al.  Pro-vitamin A carotenoid conversion factors: retinol equivalents - fact or fiction? , 2000 .

[31]  J. Cortner,et al.  Kinetics of chylomicron remnant clearance in normal and in hyperlipoproteinemic subjects. , 1987, Journal of lipid research.

[32]  A. Fillery-Travis,et al.  Solubilization of carotenoids from carrot juice and spinach in lipid phases: II. Modeling the duodenal environment , 2003, Lipids.

[33]  P. Wilson,et al.  Absorption of all-trans and 9-Cis β-Carotene in Human Ileostomy Volunteers , 1997 .