Background and Objective: Thyroid masses are one of the most common reasons for patients to visit endocrinology clinics. Fine needle aspiration (FNA) is used to reduce thyroid surgery for benign lesions. This study was done to determine the diagnostic accuracy of FNA of thyroid mass(s) compared with histological results in Medical Centers, Gorgan, Iran.
Methods: In this descriptive-analytical study, 102 patients (12 males and 90 females) were diagnosed with a thyroid mass and referred for surgery to Medical Centers, Gorgan, Iran during 2020-21. FNA was performed, and the samples were sent to the pathology department for examination. The result of cytology was recorded in the checklist. According to cytology results, some patients were referred for surgery. Then, the surgical pathology results were compared with the cytology findings. In addition, the sensitivity and specificity of the results of the cytology of thyroid masses were calculated compared to the results of pathology.
Results: FNA, mass size, and the patient’s main complaint had a significant relationship with histological results (P<0.05). According to FNA findings compared to pathology, sensitivity was 74%, specificity was 88.1%, positive predictive value was 88.1%, negative predictive value was 74%, false positive rate was 12%, false negative rate was 26%, and accuracy was 80.4%.
Conclusion: FNA remains a key tool in evaluating thyroid nodule(s). Improving FNA techniques is necessary to increase the accuracy of FNA.

Background and Objective: Obesity is a well-known public health problem that affects people of all ages. It has myriad effects on several body tissues, including the thyroid, in both human and animal models. Some treatments, such as dietary modification and physical activity, may be effective or ineffective in reducing obesity. Accordingly, the present research investigated the effects of obesity on thyroid tissue and the impact of diet modification and aerobic exercises on histopathological and hormonal changes in the thyroid tissue of obese male rats.
Methods: In this experimental study, for obesity induction, 50 three-week-old male Wistar rats were exposed to a high-fat diet (including 40% fat, 40% protein, and 20% carbohydrate) for 12 weeks. Then, 25 rats were randomly divided into 5 groups: healthy control, obese + high-fat diet, obese + normal diet, obese + high-fat diet + aerobic, obese + normal diet + aerobic. After the induction of obesity, 2 groups were given a standard diet (including 20% fat, 10% protein, and 70% carbohydrates). Aerobic exercises for 8 weeks included 30 minutes per day, 8 m/min, and 5 days per week. After anesthesia, an autopsy was performed, and the thyroid tissue was sent to the laboratory for histopathological studies. Also, 5 cc of blood was taken to study TSH, T3, and T4 using a radioimmunoassay kit.
Results: The serum levels of TSH hormone increased slightly in the high-fat diet groups compared to the control group and the normal diet with/without aerobic activity group. Also, the amount of T3 hormone in the group receiving a normal diet along with aerobic activity was significantly lower than in the control, high-fat diet, and high-fat diet along with aerobic activity groups (P<0.05). The T4 hormone increased significantly in all obesity groups compared to the control group (P<0.05), and these values were at the level of the control group (P<0.05) only in the group receiving the normal diet along with aerobic activity. Regarding the histopathological results, many changes were found in the follicular, parafollicular, and follicle cells of the thyroid tissue in the obesity group continuing the high-fat diet; these changes were significantly reduced in the groups for which the diet was changed to the normal diet alone and with aerobic activity.
Conclusion: Induction of obesity causes significant structural and biochemical changes in the thyroid, and the combination of diet modification and aerobic activity is more effective in alleviating these changes.