Examination of a novel dietary fiber formulation on morphology and nutritional physiology of young male Sprague-Dawley rats fed a high fat diet
Milena Figueiredo de Sousa, Jingyu Ling, Eduardo Asquieri, Corrie Whisner, Karen L. Sweazea

TL;DR
This study tested a new fiber blend in rats on a high-fat diet but found it did not prevent weight gain or health issues linked to poor diets.
Contribution
A novel fiber-rich complex was formulated and tested for its potential to mitigate high-fat diet effects in rats.
Findings
The novel fiber complex did not prevent high-fat diet-induced adiposity or elevated blood glucose in rats.
Rats on all diets gained significant weight, indicating normal growth rather than diet-specific effects.
High-fat diet increased liver triglycerides and fasting glucose compared to the control diet.
Abstract
Western diets are a public health concern as excess intake of simple sugars and fatty foods, and consequently low consumption of fruits and vegetables, can contribute to obesity and other chronic diseases such as diabetes mellitus, metabolic syndrome, cardiovascular diseases, and cancer. Due to the high prevalence of diseases related to Western diets, the objective of this study was to evaluate whether the inclusion of a novel fiber-rich complex could prevent high fat diet-induced weight gain, adiposity, hyperglycemia, dyslipidemia, and oxidative stress in young male Sprague-Dawley rats, Rattus norvegicus. The novel fiber complex contained a blend of bioactive ingredients: 27% flaxseed, 15.9% wheat bran, 14.8% wheat germ, 10% psyllium, 13.1% brewer’s yeast, and 19.2% grapeseed flour. The study included 24 6-week-old rats divided into three groups that were fed either a control diet (C;…
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Taxonomy
TopicsDiet and metabolism studies · Muscle metabolism and nutrition · Food composition and properties
