4 results
Understanding Human Metabolism
- Keith N. Frayn
-
- Published online:
- 25 August 2022
- Print publication:
- 08 September 2022
-
Does eating more carbohydrates, or fats, cause one to put on more weight? Are ketone bodies toxins or vital products that keep us alive during starvation? Does the concept of 'fat-burning exercise' hold true? In this game-changing book, Keith Frayn, an international expert in human metabolism and nutrition, dispels common misconceptions about human metabolism, explaining in everyday language the important metabolic processes that underlie all aspects of our daily lives. Illustrated throughout with clear diagrams of metabolic processes, Frayn describes the communication systems that enable our different organs and tissues to cooperate, for instance in providing fuel to our muscles when we exercise, and in preserving our tissues during fasting. He explores the impressive adaptability of human metabolism and discusses the metabolic disorders that can arise when metabolism 'goes wrong'. For anyone sceptical of information about diet and lifestyle, this concise book guides the reader through what metabolism really involves.
Modern fat technology: what is the potential for heart health?
- J. E. Upritchard, M. J. Zeelenberg, H. Huizinga, P. M. Verschuren, E. A. Trautwein
-
- Journal:
- Proceedings of the Nutrition Society / Volume 64 / Issue 3 / August 2005
- Published online by Cambridge University Press:
- 07 March 2007, pp. 379-386
-
- Article
-
- You have access Access
- Export citation
-
Saturated and trans-fatty acids raise total cholesterol and LDL-cholesterol and are known to increase the risk of CHD, while dietary unsaturated fatty acids play important roles in maintaining cardiovascular health. Replacing saturated fats with unsaturated fats in the diet often involves many complex dietary changes. Modifying the composition of foods high in saturated fat, particularly those foods that are consumed daily, can help individuals to meet the nutritional targets for reducing the risk of CHD. In the 1960s the Dutch medical community approached Unilever about the technical feasibility of producing margarine with a high-PUFA and low-saturated fatty acid composition. Margarine is an emulsion of water in liquid oil that is stabilised by a network of fat crystals. In-depth expertise of fat crystallisation processes allowed Unilever scientists to use a minimum of solid fat (saturated fatty acids) to structure a maximum level of PUFA-rich liquid oil, thus developing the first blood-cholesterol-lowering product, Becel. Over the years the composition of this spread has been modified to reflect new scientific findings and recommendations. The present paper will briefly review the developments in fat technology that have made these improvements possible. Unilever produces spreads that are low in total fat and saturated fat, virtually free of trans-fatty acids and with levels of n-3 and n-6 PUFA that are in line with the latest dietary recommendations for the prevention of CHD. Individuals with the metabolic syndrome have a 2–4-fold increased risk of developing CHD; therefore, these spreads could make a contribution to CHD prevention in this group. In addition, for individuals with the metabolic syndrome the spreads could be further modified to address their unique dyslipidaemia, i.e. elevated blood triacylglycerols and low HDL-cholesterol. Research conducted in the LIPGENE study and other dietary intervention studies will deliver the scientific evidence to justify further modifications in the composition of spreads that are healthy for the heart disease risk factors associated with the metabolic syndrome.
Dietary fats and membrane function: implications for metabolism and disease
- A. J. Hulbert, N. Turner, L. H. Storlien, P. L. Else
-
- Journal:
- Biological Reviews / Volume 80 / Issue 1 / February 2005
- Published online by Cambridge University Press:
- 11 January 2005, pp. 155-169
- Print publication:
- February 2005
-
- Article
- Export citation
-
Lipids play varied and critical roles in metabolism, with function dramatically modulated by the individual fatty acid moities in complex lipid entities. In particular, the fatty acid composition of membrane lipids greatly influences membrane function. Here we consider the role of dietary fatty acid profile on membrane composition and, in turn, its impact on prevalent disease clusters of the metabolic syndrome and mental illness. Applying the classical physiological conformer-regulator paradigm to quantify the influence of dietary fats on membrane lipid composition (i.e. where the membrane variable is plotted against the same variable in the environment – in this case dietary fats), membrane lipid composition appears as a predominantly regulated parameter. Membranes remain relatively constant in their saturated (SFA) and monounsaturated (MUFA) fatty acid levels over a wide range of dietary variation for these fatty acids. Membrane composition was found to be more responsive to n-6 and n-3 polyunsaturated fatty acid (PUFA) levels in the diet and most sensitive to n-3 PUFA and to the n-3/n-6 ratio. These differential responses are probably due to the fact that both n-6 and n-3 PUFA classes cannot be synthesised de novo by higher animals. Diet-induced modifications in membrane lipid composition are associated with changes in the rates of membrane-linked cellular processes that are major contributors to energy metabolism. For example, in the intrinsic activity of fundamental processes such as the Na+/K+ pump and proton pump-leak cycle. Equally, dietary lipid profile impacts substantially on diseases of the metabolic syndrome with evidence accruing for changes in metabolic rate and neuropeptide regulation (thus influencing both sides of the energy balance equation), in second messenger generation and in gene expression influencing a range of glucose and lipid handling pathways. Finally, there is a growing literature relating changes in dietary fatty acid profile to many aspects of mental health. The understanding of dietary lipid profile and its influence on membrane function in relation to metabolic dysregulation has exciting potential for the prevention and treatment of a range of prevalent disease states.
Animal production and food: real problems and paranoia
- K. L. Blaxter, A. J. F. Webster
-
- Journal:
- Animal Production / Volume 53 / Issue 3 / December 1991
- Published online by Cambridge University Press:
- 02 September 2010, pp. 261-269
- Print publication:
- December 1991
-
- Article
- Export citation
-
The scientific and technological expansion of British agriculture between the mid 1930s and mid 1980s can be attributed primarily to the provision of favourable and stable prices and only secondly to government support of research and development. These conditions have changed. Most government-funded research in agriculture is now directed to the new biological sciences, molecular biology and transgenics. It is uncertain whether those at the frontiers of biotechnology are aware of the limits and constraints placed on animal production. Equally, it is uncertain whether the commercial supply services to agriculture will be prepared to meet the costs of transferring this new technology into production. These real problems facing agriculture are amenable to rational solutions. Of greater concern are food scares whipped up by pressure groups and government responses taken in the absence of, or in defiance of, scientific evidence.
Two examples are considered, one trivial, the other deadly serious. The first involves the recommendation that pregnant women ‘should not eat liver’ based on an unpublished report of a single case of birth defects. The second example chosen for discussion is the alleged causal relationship between the intake of saturated fatty acids (SFA) and coronary heart disease. The inadequacy of the simple distinction between saturated and unsaturated fats is briefly reviewed in the light of new knowledge relating to specific SFA, monounsaturates and the distinction between polyunsaturates of the linoleic and linolenic series. Evidence from large epidemiological studies is marshalled to demonstrate that there is no good case to support the conclusion of the Committee on Medical Aspects of Food Policy (COMA, 1984) that the nation's diet should be changed to reduce the proportion of saturated fats. The Department of Health is invited to recall COMA to reconsider their recommendations in the light of new evidence.