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Editorial

Published online by Cambridge University Press:  01 June 2007

David A. Bender*
Affiliation:
Editor-in-Chief Department of Biochemistry and Molecular BiologyUniversity College LondonGower StreetLondon WC1E 6BT, UKd.bender@ucl.ac.uk
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Abstract

Type
Editorial
Copyright
Copyright © The Author 2007

As Nutrition Research Reviews achieves its 20th anniversary it is pleasing to report that the impact factor has now broken above 2·0, and last year was 2·053, placing it well into the upper half of nutrition and food science journals. I think that this issue contains a collection of similarly interesting and citeable papers.

Previous issues of this journal have contained detailed reviews showing that topics such as amino acid availabilityReference Moughan1 and glycaemic indexReference Brouns, Bjorck, Frayn, Gibbs, Lang, Slama and Wolever2, which merit at most a short paragraph in most textbooks, are considerably more complex than they appear. Rutherford & MoughanReference Rutherfurd and Moughan3 return to the problems of amino acid availability in this issue, concentrating on just one amino acid, lysine. In human diets based largely on cereals lysine may be the limiting amino acid, and for pigs and poultry it usually is. This means that, especially in formulation of diets for livestock, it is important to know how much of the lysine that is present in the diet is available to the animal for tissue protein synthesis – and indeed to define what we mean by availability; the method of determination will affect the results. The problem is that lysine that has undergone reaction at the ε-amino group (for example, with carbohydrates, especially after heating the foodstuff) is not available for digestion and absorption. Rutherford & MoughanReference Rutherfurd and Moughan3 discuss the problems with various chemical and biological methods of assay, ending with a description of a technique that they have developed to measure true lysine availability by combining determination of chemically reactive lysine with measurement of ileal digestibility.

Those of us raised on tales of the old American west may believe that cattle going to slaughter still walk sedately across miles of prairie land, grazing contentedly en route; those of us old enough will remember when, at least in Europe, butchers slaughtered locally raised animals, then dressed and sold the carcasses locally. On a very small scale this still happens; my local farmer advertises by leaflet in the town when he is about to slaughter his pigs. However, most meat is now bought from supermarkets, and quite apart from the ‘food miles’ travelled by the packaged meat between processing station, central depot and supermarket, the animals have to be transported, often considerable distances, from farm to slaughterhouse. They no longer walk through pastureland, but are transported by lorry, sometimes with journeys lasting several days. Hogan et al. Reference Hogan, Petherick and Phillips4 note that it is usual to deprive animals of food and water for up to about 12 h before transportation, and throughout the journey. The aim of this prolonged fasting is to minimise the load of digesta in the animals' gut, and so reduce fouling of other animals, the trucks and roads, and minimise the risk of faecal contamination of the carcass. However, to me it sounds as stressful as leaving home without breakfast to take a long-haul flight on one of the worst budget airlines. So it is for the animals as well. There may well be changes in rumen bacterial activity, with a reduced capacity to control pathogenic organisms, and the effects of stress affect the quality of the meat, so that the animals need a period to recover from their stressful journey before slaughter. Hogan et al. Reference Hogan, Petherick and Phillips4 discuss the metabolic effects of this food and water deprivation, and the various ways in which the animals adapt to it.

Another group now driven rather than walking are children. Unlike lambs to the slaughter, they are not deprived of food and water (or other beverages) before or during their journey. An overly simplistic explanation of the aetiology of childhood obesity is that they have too little exercise and too much food. ProcterReference Procter5 discusses the problems of obesity in children and its aetiology, in order to provide a basis for public health policies and population-level interventions. At one time we might have said that a major factor in determining childhood obesity was genetic; after all, fat parents frequently have fat children – but they also often have overweight cats and dogs, suggesting that environmental factors are more important. The rapid increase in childhood obesity over the last few decades is further evidence that an obesogenic environment is the major factor. Lower physical activity is obviously important – not only being driven rather than walking or cycling, but more sedentary leisure pursuits (television and computer games rather than outdoor activities). ProcterReference Procter5 notes that the correlation between television watching and obesity is not only due to low physical activity, but also snacking (perhaps on energy-dense, nutrient-poor foods) while viewing. The other side of the equation is food consumption – here the data are conflicting; food available for consumption has increased, but energy intakes of adolescents, as determined by questionnaire, have decreased over the period when obesity has increased considerably. However, the pattern of eating has changed, with family meals becoming uncommon, and snacking and (energy-dense) fast food consumption becoming more usual. One factor is outside the child's control – his or her experiences in utero, with modest energy restriction leading to metabolic programming for a more efficient or thrifty phenotype. ProcterReference Procter5 concludes that there is a need for a multi-level approach to prevent childhood obesity, attacking a range of social and environmental areas.

The key question arising from Procter'sReference Procter5 review on childhood obesity is ‘how can we change behaviour to prevent childhood obesity?’. Spencer et al. Reference Spencer, Wharton, Moyle and Adams6 discuss the transtheoretical model, reviewing advances since HorwathReference Horwath7 first applied this psychological concept to eating behaviour. The transtheoretical model describes behaviour change in five stages, from precontemplation, through contemplation and preparation for a change to action when the change in behaviour begins and finally maintenance. If we can identify relevant drivers or processes at each of these stages then we should be able to formulate programmes to help individuals to contemplate, prepare for, and finally achieve, changes in eating behaviour, be it reduction in fat intake or increase in fruit and vegetable consumption.

Continuing the theme of changing eating behaviour, Thorogood et al. Reference Thorogood, Simera, Dowler, Summerbell and Brunner8 have conducted a systematic review of population and community interventions to change diets in order to reduce cancer risk. They note that while individual counselling has been shown to have some effect, this is very labour intensive; their question was whether programmes aimed at whole populations or specific groups and communities are effective in changing eating behaviour. Their conclusion is that positive messages (for example, eat five servings of fruit and vegetables a day) do lead to changes in eating habits, while the effect of negative messages (eat less red meat, eat less fat) is less clear, and in most trials such messages do not change eating habits significantly. Not only is the ‘5-a-day’ message positive, it is also a clear prescription for five servings a day, and therefore easier to understand or implement than rather vague exhortations to ‘eat less fat’.

Dew et al. Reference Dew, Day and Morgan9 describe yet another benefit of eating fruit and vegetables – the polyphenols may not only be antioxidants but may also contribute to optimum bone mineral density, both by inhibiting bone resorption and stimulating bone growth. There is good epidemiological evidence of a protective effect of tea consumption on bone health; part of this may be due to the fluoride content of tea, but again polyphenols seem to be important. However, they note that tea also contains caffeine, which has been associated with loss of bone mineral; it seems likely that the adverse effects of caffeine have been overestimated, and the beneficial effects of other compounds in tea (and I would like to think, also coffee) may be greater than any adverse effects of caffeine.

The importance of vitamin D for bone health and Ca homeostasis has been known for many years. What has become apparent over the last 25 years is that vitamin D affects many other tissues. The vitamin D receptor has been found in tissues that are not involved in bone metabolism or the intestinal absorption and renal re-absorption of Ca, including insulin-secreting β-islet cells of the pancreas, adipose tissue and most cells of the immune system. These emerging new roles of vitamin D (which include regulation of cell proliferation and apoptosis, and a potential anti-cancer action) have led to suggestions of appropriate levels of intake considerably greater than current reference intakes, which are based on the amount required to maintain the same plasma concentration of calcidiol as is found in young adults at the end of winter. This is almost certainly an inappropriate marker of adequacy, because by the end of winter plasma concentrations of calcidiol have fallen to a level not very much above that seen in individuals with sub-clinical deficiency and impaired Ca absorption. Nevertheless, the intakes suggested (5–15 μg, depending on age and which set of reference intakes you use) are not readily achievable from foods, and higher levels of intake would certainly not be. This has led to a controversy between those who say that we should increase our sunlight exposure to increase vitamin D status, and those who warn of the dangers of skin cancer as a result of sunlight exposure. Baeke et al. Reference Baeke, van Etten, Overbergh and Mathieu10 review the role of vitamin D in immune system function by inhibiting pathogenic T cells and increasing the number of regulatory T cells. In experimental animals high doses of calcitriol can prevent or cure some auto-immune diseases and graft rejection, although these actions are seen at levels that would lead to hypercalcaemia; a number of less calcaemic analogues of calcitriol have been tested in animal models, and hold out hope for future clinical use.

References

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