In this study, it was aimed to evaluate the effect of the Mediterranean diet on body composition, oxidant stress and proinflammatory markers in overweight and obese breast cancer women.
Breast cancer is the most common type of cancer among women in both developed and developing countries and is the leading cause of cancer death among women worldwide. Breast cancer is a disease that can develop and progress for various reasons. In addition to unchangeable factors such as increasing age and genotype, modifiable factors such as smoking, alcohol consumption, lack of physical activity, malnutrition, and obesity play a role in the pathogenesis of the disease. Breast cancer risk increases with increasing body mass index (BMI) in postmenopausal women. Chronic inflammation in obesity is associated with an increase in the release of proinflammatory factors (such as TNF-α, IL-1, IL-6). This situation; It is a risk factor for many types of cancer such as colon, stomach, breast and prostate carcinomas and supports a cause-effect relationship between obesity and cancer. These proinflammatory factors act as signal converters for tumor growth and progression. Obese women have elevated levels of TNF-α and IL-6 in the circulation, and this is associated with the development and progression of breast tumors. The Mediterranean Diet, which consists of high amounts of monounsaturated fatty acids, fruits, vegetables and whole grains, has been widely evaluated and indicated as an important factor in preventing tumor formation from inflammatory pathways. Weight loss improves the antitumor immune system, lowers estrogen levels, reduces the risk of breast cancer and has been associated with better outcomes in obese patients. Lifestyle intervention studies strongly suggest that weight loss is possible and observational studies can actually improve breast cancer survival.In this regard, a healthy lifestyle and diet are the first steps to prevent breast cancer.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
PREVENTION
Masking
NONE
Enrollment
25
While calculating the energy of the Mediterranean diet applied to the individuals participating in the study, Mifflin-St. Jeor equation is used. The macronutrient composition of the Mediterranean diet was calculated as 36-40% fat, 40-45% carbohydrate and 15-20% protein. This diet is enriched with natural foods (fruits, vegetables, legumes, whole grain foods, fish, olive oil and oilseeds such as walnuts and almonds). In addition, anthropometric measurements and body composition analysis of the participants were performed both at the beginning and at the end of the study, and some biochemical parameters (IL-6, TNF-α, CRP, MDA, TAS, TOS and routine blood parameters) were evaluated.
Aydın Adnan Menderes University, Faculty of Health Sciences, Department of Nutrition and Dietetics
Aydin, Efeler, Turkey (Türkiye)
Change in body weight
Body weight (kg) was measured using the InBody 270 brand device.
Time frame: Baseline, 8 weeks
Change in body mass indexs
The BMI is defined as the body mass divided by the square of the body height, and is expressed in units of kg/m\^2, resulting from mass in kilograms and height in metres.
Time frame: Baseline, 8 weeks
Change in fat mass measured by bioelectrical impedance analyzer
Fat mass (kg) was measured using the InBody 270 brand device.
Time frame: Baseline, 8 weeks
Change in fat-free mass measured by bioelectrical impedance analyzer
Fat-free mass (kg) was measured using the InBody 270 brand device.
Time frame: Baseline, 8 weeks
Change in resting metabolic rate (RMR) measured by bioelectrical impedance analyzer
RMR (kcal) was measured using the InBody 270 brand device.
Time frame: Baseline, 8 weeks
Change in interleukin 6 (IL-6)
Blood was drawn from participants for assessment of IL-6 (pg/mL) at the beginning and end of the study after fasting for at least 8 hours
Time frame: Baseline, 8 weeks
Change in tumor necrosis factor alpha (TNF-α)
Blood was drawn from participants for assessment of TNF-α (pg/mL) at the beginning and end of the study after fasting for at least 8 hours
Time frame: Baseline, 8 weeks
Change in malondialdehyde (MDA)
Blood was drawn from participants for assessment of MDA (mmol/L) at the beginning and end of the study after fasting for at least 8 hours
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Time frame: Baseline, 8 weeks
Change in total antioxidant status (TAS)
Blood was drawn from participants for assessment of TAS (mmol/L) at the beginning and end of the study after fasting for at least 8 hours
Time frame: Baseline, 8 weeks
Change in total oxidant status (TOS)
Blood was drawn from participants for assessment of TOS (µmol/L) at the beginning and end of the study after fasting for at least 8 hours
Time frame: Baseline, 8 weeks
Change in waist circumference
Waist circumference (cm) was measured with a non-stretch tape measure.
Time frame: Baseline, 8 weeks
Change in hip circumference
Hip circumference (cm) was measured with a non-stretch tape measure.
Time frame: Baseline, 8 weeks
Change in dietary inflammatory index (DII)
Dietary inflammatory index (DII) was calculated with 3-day food consumption record.
Time frame: Baseline, 8 weeks
Change in oxidative stress index (OSI)
The oxidative stress index (OSI) value expressed as a percentage of the ratio of serum total oxidant status (TOS) levels to total antioxidant status (TAS) levels was calculated.
Time frame: Baseline, 8 weeks