The relationship between maternal nutrition, obesity or diabetes in pregnancy and offspring kidney structure and function in an Indigenous Australian population

Lee, Yu Qi

Title: The relationship between maternal nutrition, obesity or diabetes in pregnancy and offspring kidney structure and function in an Indigenous Australian population
Creator: Lee, Yu Qi
Relation: University of Newcastle Research Higher Degree Thesis
Resource Type: thesis
Date: 2019
Description: Research Doctorate - Doctor of Philosophy (PhD)
Description: According to the Barker theory and Developmental Origins of Health and Disease (DOHaD) hypothesis, an impaired intrauterine environment, caused by exposure to maternal insults such as poor nutrition, severe stress or illness, can exert permanent effects on the developing fetus and increase the risk of offspring developing adult-onset diseases. These include: cardiovascular disease (CVD), hypertension, obesity, type 2 diabetes and metabolic syndrome, as well as chronic kidney disease (CKD). In animal models, maternal insults such as protein restriction or diabetes during pregnancy result in altered development of the fetal kidney and impaired renal function in later life. The age-adjusted incidence of end stage kidney disease for Indigenous Australians is 6.8 times the rate for non-Indigenous Australians, with rates highest in remote and very remote areas of Australia. This huge disparity may originate through exposure to various maternal insults in utero. Therefore, the overall aim of my thesis was to address the evidence gap in research investigating the relationship between maternal nutrition, obesity and diabetes during pregnancy and offspring kidney structure and function in an Australian Indigenous population and to identify pathways to improve health outcomes for Indigenous communities. Most of my thesis utilised data from the Gomeroi gaaynggal programme, which is a prospective longitudinal cohort of Indigenous Australian mothers and their children residing in a rural region of New South Wales, followed from pregnancy through the postnatal period until the children reach 10 years of age. A cross-sectional study assessed nutrient sufficiency and diet quality in pregnant women from the Gomeroi gaaynggal cohort (n = 58). Maternal dietary intake during pregnancy was assessed using the Australian Eating Survey Food Frequency Questionnaire (AES FFQ), which was self-administered in the third trimester. Diet quality was determined using the Australian Recommended Food Score (ARFS). None of the women met all Australian Guide to Health Eating (AGHE) daily food group serving recommendations and only one person consumed the optimal level of specific nutrients (folate, iron, calcium, zinc and fibre) important in pregnancy. The data indicated that the diets of these Indigenous pregnant women were inadequate. A systematic review of the literature was used to identify and evaluate current research in humans that had examined the relationship between maternal nutrition, obesity and/or diabetes during pregnancy and offspring kidney structure and function. This review identified ten studies investigating the influence of maternal nutrition during pregnancy on offspring kidney outcomes and nine studies investigating the influence of maternal obesity and/or diabetes during pregnancy on offspring kidney outcomes. This area of research is relatively new and an emerging one given the majority of studies included were published since the year 2010. Studies were of low to moderate methodological quality. The results of the review aimed to highlight the research gap and provide direction for future longitudinal prospective studies, especially in Indigenous populations where the risk of renal disease is greater. Animal research is valuable in the understanding of DOHaD. Systematic reviews of animal research are rare but crucial to improve translation of animal data to clinical practice. My systematic review of animal studies investigating the influence of maternal global nutrient restriction during pregnancy on offspring kidney structure and function is novel. 28 studies met the inclusion criteria: 16 studies were on rats, nine on sheep, two on baboons, and one on goats. The available evidence from these studies suggested that exposure to maternal global nutrient restriction during pregnancy had detrimental effects on offspring kidney structure and function. This systematic review highlighted the need for improvement of the internal validity of animal studies. Recommendations put forward included randomisation of animal into experimental groups and blinding of handler and outcome measure. Suggestions for future research, such as methods to appropriately determine nephron number were also detailed in the chapter. A prospective longitudinal study examined the influence of maternal adiposity and birth outcomes on childhood obesity in an Indigenous Australian population participating in the Gomeroi gaaynggal study (n=227). Findings suggested that being born preterm, large for gestational age or exposed to an obesogenic intrauterine environment and higher maternal non-fasting plasma glucose concentrations were associated with increased obesity risk in early childhood. Another study examined the influence of maternal adiposity during pregnancy on fetal kidney structure in late gestation (>28 weeks) and kidney function in infants, <2.5 years of age, in an Indigenous Australian population. Our findings suggested that Indigenous babies born to obese mothers were likely experiencing glomerular hyperfiltration in utero possibly because nephron number was reduced relative to body weight, which may predispose them to increased risk of CKD in later life. No effect on renal function was observed in infants, however, long-term follow-up was needed to determine any impact to renal function in later life. These studies provided first evidence of such associations in Aboriginal and Torres Strait Islander Australians. This thesis identified that, in humans, deficiencies in maternal folate, vitamin A, and total energy during pregnancy were associated with detrimental impacts on kidney structure and function, measured by kidney volume, proteinuria, estimated glomerular filtration rate (eGFR) and mean creatinine clearance in the offspring. Intrauterine exposure to maternal obesity and/or diabetes also adversely impacted renal programming in human offspring, with an increased risk of kidney disease in adulthood. In animals, exposure to maternal global nutrient restriction during pregnancy had detrimental effects on offspring kidney structure and function, such as lower kidney weight, lower nephron endowment, larger glomerular size and lower GFR. Furthermore, this thesis highlighted key areas for improving the dietary intake of Indigenous Australian women during pregnancy. To our knowledge, this thesis provided the first evidence that exposure to maternal obesity during pregnancy increased kidney disease and obesity risk in the offspring in an Indigenous Australian population. There are gaps in the current literature investigating the influence of maternal nutrition, obesity and diabetes during pregnancy on offspring kidney development and function in humans as well as in animals. Directions for future practice and research were discussed in the relevant chapters. This thesis provided evidence in the field of developmental programming of kidney disease in the Indigenous Australian population and will inform the development of government public health policies. In doing so, not only will the burden of kidney disease be reduced, the health, cultural and material wealth of Indigenous Australians will potentially improve. This is a long-term investment by the researchers in collaboration with the wider Indigenous community and with community consultation with the Elders.
Subject: pregnancy; offspring; kidney; nutrition; obesity; diabetes; thesis by publication
Identifier: http://hdl.handle.net/1959.13/1406463
Identifier: uon:35632
Language: eng
Full Text

Hits: 2747
Visitors: 3612
Downloads: 1049

		Thumbnail	File	Description	Size	Format
View Details Download			ATTACHMENT01	Thesis	3 MB	Adobe Acrobat PDF	View Details Download
View Details Download			ATTACHMENT02	Abstract	486 KB	Adobe Acrobat PDF	View Details Download