Effect Of Lipid Mediators And Dietary Fats In Bone Remodelling
Funder
National Health and Medical Research Council
Funding Amount
$380,250.00
Summary
Osteoporosis in a major public health problem which directly affects about 10% of the population, which is currently around 2 million Australians. With aging of the population, it is projected that this proportion will increase to more than 13% over the next 20 years. When it is considered that the direct hospital and residential care costs attributable to osteoporotic fractures currently approaches $2 billion per annum, low-cost interventions for increasing bone strength which are easily applie ....Osteoporosis in a major public health problem which directly affects about 10% of the population, which is currently around 2 million Australians. With aging of the population, it is projected that this proportion will increase to more than 13% over the next 20 years. When it is considered that the direct hospital and residential care costs attributable to osteoporotic fractures currently approaches $2 billion per annum, low-cost interventions for increasing bone strength which are easily applied to the elderly population have enormous potential for health benefits in Australia. Thus study will examine the effects of dietary omega-3 fats, of the kind found in fish and fish oil, on the biology of bone metabolism and on bone strength. The results will provide information which may be used in developing simple drug or dietary strategies for large-scale use for increasing bone mass and strength in the elderly population. A strength of the study arises from the combination of research expertise in (a) dietary fats, and (b) molecular biology of bone cells, and (c) animal models of bone metabolism which are amenable to dietary interventions. This combination is unique, but builds on well established systems which hitherto have existed in separate research paradigms. The Chief Investigator has considerable experience in development of diets enriched in omega-3 fats which are practical and suitable for daily use on a long-term basis. This adds considerably to the potential significance of the outcomes because, if favourable effects of omega-3 fats are observed and are characterised with regard to mechanisms, the results can be rapidly translated into large-scale clinical use.Read moreRead less
An Investigation Into The Mechanisms Of How Dietary Fats Influence Alzheimers Disease Risk.
Funder
National Health and Medical Research Council
Funding Amount
$567,789.00
Summary
There is some evidence to suggest that diet may influence the risk for developing Alzheimer's Disease. This project will explore if dietary fats that are 'bad-for-the-heart', are also 'bad-for-the-head'. Conversely, these researchers will test whether heart-healthy-oils are brain-healthy. The researchers will investigate the mechanisms by which dietary fats influence risk and hope to be able to develop nutritional guidelines for the prevention or slowing of Alzheimer's Disease.
It is clear that the rate of obesity is increasing dramatically. Better therapeutic strategies are required to treat this debilitating disease. In this study we will determine the effects of sugary drinks on the amount of food eaten and subsequent changes in weight gain. By understanding how sugary drinks affect rates of weight gain we will be able to formulate better strategies to combat obesity.
There are many unresolved issues regarding nutrition in old age such as the obesity paradox, protein intake requirements, and dietary needs of obese and frail older people. We have developed a nutritional model, the Geometric Framework, which has the capacity to address complex questions about the relationship between nutrition and ageing and have an established cohort of older men that will allow us to investigate multiple factors involved in age-related changes in nutrition and obesity.
Will A Reduction In Dietary AGEs Improve Insulin Sensitivity And Secretion In Overweight Individuals?
Funder
National Health and Medical Research Council
Funding Amount
$240,931.00
Summary
Advanced Gycation end-products (AGE) are formed when foods brown during heating, processing or long term storage. This study will examine the AGE content of a typical Australian diet. Also, an intervention study will be undertaken to determine whether an 75% reduction in AGE intake can reduce blood markers of chronic inflammation, improve insulin secretion and action and thus reduce diabetes and heart disease risk.
Immunomodulatory Effects Of Omega-3 Polyunsaturated Fatty Acids : Role In Allergy Prevention In Infancy
Funder
National Health and Medical Research Council
Funding Amount
$537,600.00
Summary
The dramatic increase in asthma and allergic disease over the last 20-30 years has highlighted the urgent need to identify associated environmental changes that may also be logical targets for disease prevention. Although this is likely to be multifactorial, one significant change during this period has been a progressive decline in the intake of dietary anti-inflammatory n-3 polyunsaturated fats (PUFA) in Western diets, with a corresponding increase in n-6 PUFA fatty acids. We recently showed f ....The dramatic increase in asthma and allergic disease over the last 20-30 years has highlighted the urgent need to identify associated environmental changes that may also be logical targets for disease prevention. Although this is likely to be multifactorial, one significant change during this period has been a progressive decline in the intake of dietary anti-inflammatory n-3 polyunsaturated fats (PUFA) in Western diets, with a corresponding increase in n-6 PUFA fatty acids. We recently showed for the first time that n-3 PUFA may have more significant effects in very early life before immune responses are fully established. We confirmed that maternal fish oil supplementation (n-40) resulted in significantly higher n-3 PUFA levels in newborns (compared to those with no supplements, n-43), and this was related to reduced immune responses to allergens (such as house dust mite, cat and egg). These observations suggest that n-3 PUFA can modify early immune development. Although this previous study was designed to assess immune outcomes (rather than clinical outcomes) we collected preliminary clinical data for the purposes of this application. We observed a consistent trend for less allergic symptoms and sensitisation in the supplementation group. These observations clearly warrant this proposed study to confirm these clinical effects, and to assess the mechanisms of action in considerably more detail. In this proposed study we will compare the effects of fish oil (n-165) or placebo (n-165) in early infancy (from 0-6 months of age). This much larger population will allow us to determine if increasing dietary n-3 PUFA is a way of reducing the chance of allergy in families where there is a high genetic risk. Approximately 40% of infants in Australia will go on to develop asthma or allergies. Strategies such as this that reduce the risk (even slightly) or the severity of disease expression could have enormous impact in this global context at relatively little cost.Read moreRead less
The Effect Of Dietary Fatty Acids On Cellular Calcium Handling Mechanisms In Cardiac Muscle
Funder
National Health and Medical Research Council
Funding Amount
$275,765.00
Summary
A major health problem in the developed countries is cardiovascular disease, which is manifest as high blood pressure, stroke, heart attack and abnormalities of heart rhythm, or cardiac arrhythmias. A western diet, ie. one high in animal fat, or saturated fats, may be to blame. Human epidemiological studies have shown that consumption of a diet high in saturated fats is correlated with a propensity to arrhythmias while a diet high in polyunsaturated fatty acids (PUFAs) can confer protection from ....A major health problem in the developed countries is cardiovascular disease, which is manifest as high blood pressure, stroke, heart attack and abnormalities of heart rhythm, or cardiac arrhythmias. A western diet, ie. one high in animal fat, or saturated fats, may be to blame. Human epidemiological studies have shown that consumption of a diet high in saturated fats is correlated with a propensity to arrhythmias while a diet high in polyunsaturated fatty acids (PUFAs) can confer protection from coronary heart disease and cardiac arrhythmias. The mechanisms underlying these effects are not fully understood. The contraction of the heart depends on changes in calcium inside the individual muscle cells. Abnormalities of the way calcium is handled in the cells leads to abnormalities of contraction and to a certain types of arrhythmia. Over the last 5 to 10 years, technological developments have enabled us to examine changes in calcium in living heart cells at microscopic level. It is possible to fill individual living cells with a fluorescent dye which changes either the magnitude or the wavelength of its fluorescence according to the ambient calcium concentration. Cells filled with these dyes are examined with a laser scanning confocal microscope, in which a very tightly focussed laser beam excites the dye and the resulting fluorescence is gathered by a computer controlled image analysis system. In this way we can measure the calcium concentration within the cells with a spatial resolution of about 1-1000 of a millimetre, and a time resolution of about 1-100 of a second. Using these techniques, we have found that supplementing the diet of rats with either PUFAs or saturated fats produces a dramatic change in the way that calcium is stored and released in their heart cells. This effect of dietary fats has not been reported before, and it may represent an important clue as to how these substances protect against many cardiac arrhythmias.Read moreRead less
Restricting Dietary Advanced Glycation End Product Intake As A Potential Therapeutic Tool In Diabetic Nephropathy.
Funder
National Health and Medical Research Council
Funding Amount
$483,351.00
Summary
Kidney disease is a serious complication of diabetes and may occur as a result of a biochemical process known as advanced glycation. These advanced glycation end products (AGEs) accumulate in the kidney causing disruption of function. Due to modern food processing techniques, the Australian diet has a high AGE content. Over-eating foods which are high in AGEs may worsen diabetic kidney disease. This proposal will test the effects of dietary AGE restriction and overfeeding on kidney function.