The authors have declared that no competing interests exist.
Ramadan fasting might be beneficial for digestive health, if appetite control and balanced diet is achieved. In this study we aimed to evaluate the effect of Ramadan fasting on thyroid glands and some biochemical parameters in Turkish people living in Yozgat region.
A total of 40 healthy subjects (20 men and 20 women) aged between 21-50 years were randomly recruited. Thyroid nodule volumes, thyroid hormones, body weights, glucose, total Cholesterol (TC), and oxidant stress index (OSI) were measured before Ramadan and at the end of Ramadan.
There were beneficial changes in blood parameters and thyroid volumes, after one month of fasting during Ramadan compared with baseline.
The Ramadan fasting might affect the radiological and biochemical parameters in healthy Turkish subjects. To improve the favorable digestive health in Ramadan fasting, diet and lifestyle modifications such as, increased intake of healthy foods and physical exercises might be recommended.
Fasting during Ramadan, the ninth month of the lunar calendar is one of the five pillars of the Muslim faith. This practice involves abstinence from all fluid and food intake during the period from first sunrise to sunset, as well as rituals involved with breaking of the fast and various prayers and feasts throughout the night
The present study included prospective observational analysis of 40 healthy subjects between August 1 and August 30 in 2011 (during the month of Ramadan). The study protocol was approved by the Ethical Committee of the School of Medicine, University of Yozgat Bozok. Before the study started all participants were required to provide written informed consent after explaining the study group the nature and type of study.
The study was conducted in collaboration with the departments of Radiology, Biochemistry and General Surgery of Yozgat Bozok University, Medical Faculty. The subjects were health workers of Bozok University Hospital. The sample size was calculated according to a power of 80% and a confidence level of 95%. Inclusion criteria included healthy subjects. The exclusion criteria were as follows: recent acute infectious illness; any inflammation, infiltrative disorders, or autoimmune diseases; any evidence of liver, kidney, or respiratory disease; diabetes mellitus; uncontrolled essential hypertension; heart failure; malignancy; or regular alcohol use. Moreover, the women were not pregnant, lactating or receiving contraceptives. A detailed history of disease and demographic information was collected from all patients, and all patients underwent physical examination at baseline. All participants answered a questionnaire which included questions pertaining to: demographic characteristics, smoking status, alcohol intake, exercise, education, family history of medical diseases and drug history during the first day of Ramadan (pre-Ramadan), the last day of Ramadan.
Body Mass Index (BMI) was calculated as a ratio of weight in kg and height in meters square (kg/m2). Blood samples were collected after fasting 12 hour and centrifuged at 3,000 rpm for 10 min at 10–18°C. Supernatant serum samples were stored in plastic tubes at –80°C until analysis. Serum glucose, total cholesterol (TC), thyroid-stimulating hormone (TSH), Free T3 (FT3) and FT4 were measured by colorimetric and electrochemiluminescence immunometric assay (ECLIA) methods using commercially available assay kits (Abbott, Abbott Park, IL, USA) with an auto-analyzer (Abbott, Abbott Park, IL, USA).
Serum, total antioxidant capacity (TAS) and total oxidant status (TOS) were determined with commercial kits (Rel Assay Diagnostics kit; Mega Tıp, Gaziantep, Turkey) and Oxidative Stress Index (OSI) values were calculated.
The antioxidative effect of the sample against the potent free radical reactions, which is initiated by the produced hydroxyl radical, is measured. The results are expressed as μmol Trolox Eq/L.
The colour intensity, which can be measured spectrophotometrically, is related to the total amount of oxidant molecules present in the sample. The assay is calibrated with hydrogen peroxide (H2O2) and the results are expressed in terms of micromolar hydrogen peroxide equivalent per litre (μmol H2O2 Eq/L).
The OSI was defined as the ratio of the TOS level to TAS level. Specifically, OSI (arbitrary unit) = TOS (μmol H2O2 Eq/L)/TAS (μmol Trolox Eq/L) x 100The OSI was defined as the ratio of TOS to TAS level.
Sonographic evaluation was made by a specialized radiologist that used Aloka Alpha 6 ultrasound device with 7-12 Mhz linear transducer. All patients underwent a sonographic procedure in supine position, while neck was in hyperextension. His thyroid lobe was examined in the transverse and longitudinal plane. Transverse, sagittal and anteroposterior lengths of a thyroid lobe were measured according to the ellipsoid formula (volume= (anterior—posterior diameter) x (transverse diameter) x (saggital diameter) x (π/6)).
Statistical analyses were performed by SPSS statistical software (23·0 version, SPSS, Cary, NC, USA). All data were tested for normality using the Kolmogorov–Smirnov test Continuous variables were expressed as the mean±Standard Deviation (SD). Categorical variables were presented as percentages. According to the normality of the data, the comparisons of the continuous variables between the gender groups were made using student t test and the changes after 1 month of Ramadan was compared with the baseline by paired samples t-test. A p-value of < 0.05 were considered statistically significant.
The demographic and biochemical characteristics of the study subjects are summarized in
Parameters | Total (n= 40) | Men (n=20) | Women (n=20) | p-value* |
Age (years) | 37.33±15.14 | 36.86±15.35 | 37.80±15.05 | >0.05 |
Weight (kg) | 58.33±10.22 | 67.23±18.66 | 54.35±11.02 | <0.001 |
Body Mass Index (BMI) (kg/m2) | 21.49±3.55 | 22.94±4.12 | 20.79±3.05 | <0.05 |
Fasting Blood Glucose (FBG) (mmol/L) | 5.19±0.42 | 5.24±0.48 | 5.11±0.25 | >0.05 |
Total Cholesterol (mmol/L) | 4.99±0.68 | 4.76±0.70 | 5.23±0.85 | <0.05 |
Data are expressed as means ± SD.
Among the 42 volunteers participated, 40 completed (20 men and 20 women) the study. The mean age of the study subjects were 36.86±15.35 and 37.80±15.05 years in men and women, respectively. Weight and BMI were significantly higher in men than in women, whereas, significantly higher levels of TC were observed in women compared with men. There was no significant difference in other parameters. There were significant decrease in BMI, Glucose and TC levels after Ramadan fasting compared to baseline levels (p<0.05).
The changes in TAS, TOS levels and OSI ratio before and after Ramadan fasting are shown in
Before (n = 40) | After (n = 40) |
|
|
TAS (μmol Trolox Eq/L) | 1.23 ± 0.16 | 1.35 ± 0.17 | <0.05 |
TOS (μmol H2O2 Eq/L) | 7.42 ± 2.52 | 6.27 ± 2.78 | <0.05 |
OSI (arbitrary unit) | 0.60 ± 0.03 | 0.46 ± 0.02 | <0.05 |
Values are mean ± SEM. TAS, total antioxidant capacity; TOS, total oxidant status; OSI, oxidative stress index.
The changes in thyroids before and after Ramadan fasting are shown in
Before Ramadan (n = 40) | After Ramadan (n = 40) | P | ||
Thyroid volume | Right | 43.67±15.58 | 39.88±15.01 | 0.001 |
Left | 33.60±12.60 | 32.53±12.09 | 0.282 | |
Total | 77.41±27.11 | 72.49±25.38 | 0.004 | |
Thyroid hormones | TSH (µIU/mL) | 1.17±0.62 | 1.03±0.55 | 0.016 |
FT3 (pg/mL) | 2.34±0.39 | 2.82±0.48 | 0.000 | |
FT4 (ng/mL) | 1.03±0.16 | 1.12±0.24 | 0.028 |
Reference values for thyroid hormones are as follows: TSH; 0.35-4.94 µIU/mL, FT3; 1.71-3.71 pg/mL, FT4 0.7-1.48 ng/mL.
To the best of our knowledge, this is the first study to investigate the effect of Ramadan fasting on biochemical parameters in healthy Turkish subjects living in central Anatolia. There were significant changes in BMI and body weight after Ramadan fasting in this study. Our results contradicts a previous study in Turkey
We found alteration in thyroid functions after Ramadan fasting. No knowledge exists in the literature demonstrating, altered thyroid hormone levels during fasting. Hormones regulate the integrated metabolic response that involves mobilization of fat stores and hepatic gluconeogenesis, including a reduction in the plasma insulin concentration and increased circulating concentrations of glucagon, catecholamines, growth hormone, thyroid stimulating hormone and corticosteroids
In general, Ramadan fasting seems to have effect on lipid, carbohydrate and protein metabolism, as well as hormone functions. The increases that are observed to occur in variables are usually attributed to mild dehydration during fasting. Similar small changes that were attributed to changes in patterns of food consumption during Ramadan, changes in activity patterns and hypo-hydration were also observed in a large population of young football players who fasted during Ramadan
In conclusion, our present study demonstrated that fasting improved serum biochemical parameters as well as thyroid gland volume in healthy subjects. The limitations of the present study are that: The sample size was relatively small, and the study was conducted in a single center. Therefore, there is a need for multicenter, prospective, randomized studies in which a greater number of patients are studied in order to evaluate the effect of Ramadan fasting on various biochemical parameters and digestive function.