Abstract
Objectives To define thyroid gland vascularity index (VI) values in healthy children with the superb microvascular imaging (SMI) method and to assess whether or not there is a correlation with potential factors that may affect these values. Methods This prospective study included a total of 138 children, their ages varying from 3-17 years. Cases were divided into three subgroups according to age: 3-6, 7-12 and 13-17 years. Gender, age, height, weight, body mass index (BMI), thyroid-stimulating hormone (TSH) and free thyroxine (fT4) values were recorded. Volume and SMI measurements were performed with a 14L5mHz linear transducer. VI measurements were performed in the transverse and longitudinal planes and correlation with basic descriptive data was researched. Results Mean age was 11.14±3.34 years and BMI was 19.95±4.92. VI values were 4.59±2.34 in the right lobe and 4.23±2.73 for the left lobe, with no significant difference identified. There were no significant differences in mean VI for all parenchyma regarding gender and age groups. While there was no correlation identified with mean VI for all parenchyma with TSH and fT4, there was, however, a negative correlation with BMI. Conclusions Reference VI values for normal thyroid glands in healthy children and adolescents were defined with the SMI method. There was no correlation between the VI values and age, gender, volume, TSH and fT4 values, while there was a negative significant correlation with BMI.
Highlights
Ultrasonography (US) is a valuable radiologic method used to identify diffuse and focal diseases of the thyroid gland [1]
Age body mass index (BMI) thyroid-stimulating hormone (TSH) fT Right lobe volume Left lobe volume Total volume Isthmus thickness Right thyroid lobe mean vascularity index (VI) in longitudinal plane Left thyroid lobe mean VI in longitudinal plane The mean VI of thyroid gland in longitudinal plane The mean VI of thyroid gland in transverse plane The mean VI of thyroid gland
Correlation analysis was performed between total thyroid volume with BMI, TSH, sT4, mean VI of thyroid gland in transverse plane and the mean VI of thyroid gland, with no statistically significant correlation identified apart from BMI
Summary
Ultrasonography (US) is a valuable radiologic method used to identify diffuse and focal diseases of the thyroid gland [1]. Superb microvascular imaging (SMI) is a newly developed perfusion imaging technique that can distinguish perfusion signals at low speed in layered tissue movements and fine low-perfusion components with a high level of detail and resolution. SMI is a method that uses diffused compression to remove perfusion signals from large to small veins. This information may be shown through color-loaded images (color SMI) with high square speeds or as part of a greyscale perfusion map (singlecolor SMI). New adaptable algorithms can identify tissue movement and reveal true blood perfusion. Quantitative data analysis are performed by using the calculated vascularity index (VI) [3, 4]
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