Metabolic Dysfunction-Associated Steatotic Liver Disease (MASLD) in childhood is becoming increasingly prevalent, paralleling the rise in obesity rates, and has become the most common chronic liver disease in the pediatric population. MASLD is associated with metabolic mechanisms such as insulin resistance, dyslipidemia, oxidative stress, and inflammation, and can progress to serious complications like steatohepatitis, fibrosis, and cirrhosis in later stages. Currently, pharmacological treatments for managing MASLD are limited, and lifestyle modifications, particularly dietary interventions, stand out as the primary approach for preventing and treating the disease. In this context, the composition of macro and micronutrients plays a critical role in the development and progression of hepatic steatosis. Within this framework, the Dietary Approaches to Stop Hypertension (DASH) diet is a balanced eating pattern that encourages the consumption of vegetables, fruits, whole grains, legumes, low-fat dairy products, fish, poultry, and healthy fat sources, while limiting sodium, saturated fat, sugary foods, and processed meat products. Similar to the Mediterranean diet, the DASH diet is a promising approach for conditions like metabolic syndrome and MASLD due to its anti-inflammatory potential, its reducing effect on oxidative stress, and its properties that enhance insulin sensitivity. Furthermore, thanks to its high fiber content, it contributes to balancing the gut microbiota and supports the production of short-chain fatty acids (SCFAs), which in turn have positive effects on liver and metabolic health. Evaluated in terms of fat intake, the DASH diet's emphasis on foods rich in n-3 fatty acids (such as fish and walnuts) provides an anti-inflammatory effect, while limiting saturated and trans fats offers an important strategy for reducing hepatic fat accumulation. Additionally, restricting the consumption of added sugars and fructose may be effective in preventing hepatic steatosis by suppressing lipogenesis processes. In light of all these scientific findings, considering the impact of dietary patterns on the development and progression of MASLD, appropriately structuring the diet is critically important for protecting liver health in children. Accordingly, an anti-inflammatory, antioxidant, and metabolically balanced DASH dietary model is considered an effective and applicable approach in the management of pediatric MASLD. Within the scope of this study, the effects of implementing the DASH diet in children with MASLD on clinical and metabolic parameters such as liver enzymes, degree of hepatic steatosis, insulin resistance, lipid profile, and inflammatory markers will be evaluated compared to a control group. Additionally, by examining the relationships between these parameters and quality of life as well as dietary adherence, the potential therapeutic role of the DASH diet in the management of pediatric MASLD will be elucidated.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
88
The DASH diet is structured with a macronutrient distribution of 50-55% carbohydrates, 16-18% protein, and 27-30% fat. The diet plan recommends high intake of fruits, vegetables, low-fat dairy products, oilseeds, legumes, and whole grains, as well as low intake of sodium, sugary foods, and red and processed meats.
The standard diet is planned so that 45-60% of energy comes from carbohydrates, 25-35% from fats, and 15-20% from proteins. The standard diet is based on the healthy eating recommendations for children in the 2022 Turkish Nutrition Guide (TÜBER). Unlike the DASH diet, the standard diet allows the consumption of refined grains, full-fat milk and meat products, and simple sugars not exceeding 10% of energy.
The home-based exercise program aims to increase physical activity. The exercise program is planned as 30 minutes x 5 days a week, under parental supervision or with parental guidance. Participants will be instructed to begin their workout with 10 minutes of warm-up exercises (push-ups, sit-ups, reverse sit-ups, squats, aerial cycling, stretching), continue with 15 minutes of aerobic activities (jump rope, step aerobics, dancing, throwing a ball against a wall, running up and down stairs), and conclude with 5 minutes of cool-down exercises (stretching).
Change in hepatic steatosis percentage
Comparison of the change in hepatic steatosis percentage, as measured by MRI-PDFF, in diet groups over 12 weeks.
Time frame: 12 weeks
Changes in insulin resistance
The insulin resistance index will be calculated using the Homeostatic Model Assessment of Insulin Resistance (HOMA-IR) formula.
Time frame: 12 weeks
Changes in anthropometric measurements
Participants will wear light clothing, and their body weight (BW) will be recorded to the nearest 100g using a Seca scale. Height measurements will be taken with participants standing barefoot against a wall, ensuring proper alignment of the head, shoulders, pelvis, and heels. Weight will be measured in kilograms, and height in meters, and weight and height will be combined to report Body Mass Index (BMI) in kg/m². BMI will be calculated by dividing BW (kg) by the square of their height (m²) (kg/m²).
Time frame: 12 weeks
Changes in fibrosis index
Changes in the Pediatric Non-alcoholic fatty liver disease Fibrosis Index (PNFI) score will be evaluated. The PNFI is a scale ranging from 0 to 10, with higher scores indicating a worse outcome (i.e., more severe liver fibrosis). This index is calculated based on age, waist circumference, and triglyceride levels, as developed and validated by Nobili et al. (2009).
Time frame: 12 weeks
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