The Effect of Fermented and Non-fermented Soy Based Food in Appetite and Satiety Biomarker Among Young Obesity

1. Introduction Obesity is a complex metabolic condition thought to result from an imbalance in energy intake and energy expenditure that results in excess fat accumulation in various adipose tissues and organs. It has been proposed that managing the dietary composition may be an efficient way to reduce body weight.

Ghrelin is a circulating orexigenic hormone involved in both short-term food intake control at single meal. Protein has the most suppressive effect as opposed to other macronutrients on food intake. It has also been shown that dietary protein induces greater satiation and weight loss than carbohydrates. Postprandial ghrelin and insulin responses have been shown to be lower in high dietary protein Soybeans provide one of the most plentiful dietary protein sources for plants varies from 36% to 56%. Soy protein is a complete protein since it contains most of the important amino acids found in animal proteins.

Limited evidence from soybean related satiety study suggests that tempeh may have an important role in obesity prevention and weight loss through satiating effects when replacing other protein foods in a mixed diet.

Thus far, there have been only limited data regarding the satiety effects of dietary soy protein vs fermented soy protein on obesity in humans. The study aimed to examine the effect of anorexigenic hormone response and subjective satiety underfermented and isocaloric soy-based protein diet

2. Methods and Matherials

2.1. Subjects The subjects were recruited from advertisement who were motivated enough to respond actively to the request for topics. We used the following exclusion criteria: 1) a clinically significant history of chronic diseases, such as cardiovascular disease, diabetes, dyslipidemia or hypertension; 2) use of a weight-related medication/food; 3) heavy alcohol/drug consumption; and 4) pregnancy, breastfeeding, or intention to become pregnant during the time of the study. The subjects were divided into the TD, which were given tempeh, and SD, which were given soy, groups, to receive the meal than a crossover. All subjects signed a written consent form before participating in the studies, which were approved by Kariadi Hospital-Medical Faculty of Diponegoro University.

2.2. Preparation of Meal Diets The ingredient contents of the tempeh steak and soybean steak are listed. Tempeh Steak including : Tempeh 100g, 50g potato, 50g carrot and 50g green peas. Soybean Steak : Soybean 100g, 50g potato, 50g carrot, 50g green peas. The energy content of both are 307.4 Calorie (21.7g Protein, 8g Fat, 42.3g Carbohydrate, 4.5g fiber)

2.3. Anthropometric measurement Body weight, height, and body fat mass, lean mass, andfat-freemass were collected by a bioelectric impedance analyzer (SECA). BMI was calculated as body weight in kilograms divided by height in meters squared (kg/m2). Waist Circumference (WC) was measured with ainelastic measuring tape aroundthe mid-section between the margin of the last rib and the iliac crest.

2.4. Biochemical analysis Blood samples were collected from subjects'forearms. Venous blood specimens were collected in EDTA-treated and plain tubes after a 12-h fast. Blood samples were collected at 0 (fasting), 60, and 180mins. One tube containing EDTA was collected for acyl ghrelin analyses and plain tube collected for arginine, glucose, and insulin analyses. The tubes were centrifuged at 3000 × g for 10 minutesat 4°C, separated into plasma or serum, and stored at -80°C untilanalysis. Serum concentrations of acyl ghrelin, insulin and arginine were measured using an enzyme-linked immunosorbent assay (ELISA)

2.5. Scoring of subjective satiety usingvisual analogue scales (VAS) Visual Analogue Scales Food intake motivation was assessed with 100 mm line. Participants completed VAS to measure hunger/fullness at the same time points that blood samples were taken throughout the study protocol (ie. 0, 30, 180 minutes). The VAS questionnaire provides a subjective assessment of appetite-related sensations over time and allows the relationship between biochemical and dietary intake data to be explored. Visual analogue scales have been found to be a reliable and valid method to assess subjective states related to food intake behavior. On each of the test days, participants were asked to rate the following components relating to hunger and satiety using various questions, scored using the VAS instrument: (1) Hunger: how hungry do you feel at this moment? (VAS1) (2) The desire to eat: how strong is your desire to eat at this moment? (VAS5- VAS8); (3) Fullness: how full does your stomach feel at this moment? (VAS2, VAS3); (4) Motivation to eat: how much food do you think you could eat at this moment? (VAS4)

2.6 Statistical Analysis Data were analyzed IBM SPSS. Variable not normally distributed were nonparametric test. Wann whitney U test was used to test for difference all parameter at baseline. We compared change in variable (baseline, 30, 180 minutes) in each sub group using pair t=test or wilcoxon signed rank test to determine the impact of differential change. To test for change in parameters between two group used kruskal wallis.