Abstract
The association of adverse health with high fat intake has long been recognized. However, the lack of research focusing on the interrelationship of thyroid and liver function, and the pathogenesis of a high fat diet leaves these topics poorly understood. The objective of this study was to evaluate and compare the physiological changes in euthyroid and thyroid altered animal model fed saturated and unsaturated high fat diets. To achieve this objective adult male Sprague Dawley rats (n = 100) were fed one of five diets; a control or one of four test diets containing 25% saturated or unsaturated, and 37% saturated or unsaturated fats for a period of eight weeks. Each experimental group consisted of ten euthyroid and ten thyroid altered animals. An altered thyroid state was chemically induced with the addition of 0.05% propylthiouracil (PTU) in the drinking water. Euthyroid animals fed high fat diets increased in body weights and body lengths, compared to thyroid altered animals (P < 0.05). Alanine aminotransferase (ALT) and asparte aminotransferase (AST) levels increased across all experimental groups. HbA1C values and urinary glucose values were within normal range for all animals. Liver morphology showed increased hepatic stellate (ito) and vacuole cells in thyroid altered animals. These findings suggest that altered thyroid status negatively impacts growth and weight gain, and simultaneously affected lipid metabolism, resulting in abnormal liver morphology.
Highlights
Dietary fat plays a major role in human nutrition and serves many essential functions
Dietary fat has been associated with endocrine and metabolic changes [5,6]; the liver serves as a site for triglyceride and cholesterol metabolism, while the thyroid plays a role in hepatic lipid homeostasis
Thyroid hormones impact the metabolism of carbohydrates and fats and influence the synthesis, mobilization and degradation of fats, which is often linked with increased lipoprotein and lipase activity [24]
Summary
Dietary fat plays a major role in human nutrition and serves many essential functions. Dietary fat intake and excessive caloric intake has been proposed as a causative factor in the development of metabolic syndrome. In this regard, the quantity as well as the quality (primarily) of dietary fat consumed strongly predicts the prevalence and possibility of insulin resistance, type 2 diabetes and atherosclerosis [3,4]. A high fat diet lowers glucose uptake and inflammation, while polyunsaturated fatty acids (PUFAs) play a protective role by controlling the synthesis and oxidation of SFA. Dietary fat has been associated with endocrine and metabolic changes [5,6]; the liver serves as a site for triglyceride and cholesterol metabolism, while the thyroid plays a role in hepatic lipid homeostasis
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