ObjectiveTo explore the value of active surveillance (AS) with ultrasound for papillary thyroid microcarcinoma (PTMC) tumor growth.MethodsA retrospective collection of 196 patients who underwent ultrasound-guided fine-needle aspiration biopsy at West China Hospital of Sichuan University from January 2014 to December 2018 were pathologically diagnosed as PTMC, and no cervical lymph node metastasis was found on ultrasound, and AS was performed. According to the change of the maximum diameter of the nodule, the patients were divided into the maximum diameter increase group, the maximum diameter stable group and the maximum diameter reduction group. According to the nodule volume change, the patients were divided into the volume increase group, the volume stable group and the volume reduction group. The differences in the patients’ gender, age, with Hashimoto’s thyroiditis, follow-up time, tumor size, boundary, shape, echo, aspect ratio, calcifications, multifocality, bilateral involvement, other nodule, surrounding tissues and cervical lymph nodes among the different groups were analyzed in order to clarify the related factors of tumor growth.ResultsOne hundred and ninety-six patients had ultrasound AS time ranging from 6 to 79 months with the median (quartile) time were 16.0 (10.0, 30.0) months. One hundred and seventeen patients (59.7%) were in AS for 6 to 63 months with the median (quartile) time were 13.0. (8.0, 22.0), surgical treatments were performed after termination of AS. Forty-five patients (23.0%) continued to perform AS, 34 patients (17.3%) did not continue to perform AS in West China Hospital of Sichuan University. There was no significant reduction in the maximum diameter and volume of the nodules in all cases. Among them, 9 cases (4.6%) had an increase in the maximum diameter of the nodules, and 187 cases (95.4%) had a stable maximum diameter. Forty cases (20.4%) had an increase in the volume of the nodules, and 156 cases (79.6%) had a stable volume of the nodules. Comparison of the maximum diameter change of nodules between the two groups, there was a significant difference in the age of patients (P<0.05). Comparison of the maximum volume change between the two groups, there were significant differences in age, follow-up time and initial nodule volume (P<0.05). Logistic regression analysis showed that younger age was an independent risk factor for PTMC nodule growth [OR=0.638, 95%CI (0.601, 0.675), P=0.015].ConclusionsYounger age is a risk factor for PTMC tumor growth. We should adopt a more active monitoring program for younger patients. The increase of PTMC tumor volume can be more easily monitored than the increase of its maximum diameter, so it can be used as an indicator to predict nodule growth at an earlier stage in AS.
Objective To explore the risk factors the central cervical lymph node micrometastasis of papillary thyroid microcarcinoma (PTMC). Methods PTMC patients who underwent surgical operations in West China Hospital, Sichuan University between January 2014 and December 2018 were retrospectively enrolled. The patient did not find lymph node metastasis in the central cervical area by preoperative ultrasound. During the operation, the central cervical lymph node of the affected side was dissected or lymph node dissection in the central area of the affected side of the neck plus the lateral area of the neck. With postoperative pathology as the gold standard, patients were divided into central cervical lymph node micrometastasis group (micrometastasis group) and central cervical lymph node non-metastasis group (non-metastasis group). The differences of clinical features and ultrasonic signs between the two groups were analyzed. Results A total of 507 patients were included, including 223 (44.0%) in the micrometastasis group and 284(56.0%) in the non-metastasis group. The results of univariate analysis showed that compared with the non-metastasis group, the patients in the micrometastasis group were younger, the tumor size were higher, the proportion of male, multifocality, bilateral involvement and thyroid capsular invasion were higher. The results of multiple logistic regression analysis showed that lower age [odds radio (OR)=0.967, 95% confidence interval (CI)(0.949, 0.985), P<0.001], male [OR=2.357, 95%CI (1.503, 3.694), P<0.001)], a larger maximum diameter of PTMC [OR=1.232, 95%CI (1.100, 1.379), P<0.001], a larger nodule volume of PTMC [OR=1.031, 95%CI (1.008, 1.114), P=0.032], multifocal lesion [OR=2.309, 95%CI (1.167, 4.570), P=0.016] and invasion of the thyroid capsule [OR=1.520, 95%CI (1.010, 2.286), P=0.045] were independent risk factors for central cervical lymph node micrometastasis. Conclusions The patient’s male, young age, PTMC nodule with large maximum diameter and large volume, multifocal, and invasion of the thyroid membrane are risk factors for the central cervical lymph node micrometastasis of PMTC patients. These clinical and ultrasound signs can provide a theoretical basis for doctors’ clinical management decisions.