Objective To discuss the nursing measures for thyroid nodule patients who undergo core-needle biopsy (CNB) guided by ultrasound. Methods We retrospectively analyzed the experiences and main points of nursing for 1 900 thyroid nodule patients who underwent CNB guided by ultrasound between June 2010 and May 2014. Results All the 1 900 patients underwent CNB successfully. The nursing time was between 5 and 15 minutes, averaging (8.0±3.7) minutes. Complications included hematoma in 25 patients (1.3%) and needle syncope reaction in 30 patients (1.6%), which were cured through symptomatic treatment. No complications such as nerve injury, anesthesia accident or death occurred. No medical disputes happened due to specimen errors or loss. The success rate of specimen collection was 98.4% (1 870/1 900), and the diagnostic accuracy was 95.3% (1 812/1 900). Conclusions Ultrasonography-guided CNB is a safe and reliable operation with a high success rate, high diagnosis accuracy and few complications. Being familiar with the process of nursing cooperation and correct disposal and transfer of biopsy specimens are crucial for successful CNB in patients with thyroid nodules.
Objective To evaluate the diagnostic performance of thyroid imaging reporting and data system (TI-RADS)classification and elastography in differentiating benign and malignant thyroid nodules according to size. Methods A total of 222 thyroid nodules (209 cases) with solid or predominantly solid internal contentdiagnosed at pathological findings were enrolled in this study, all the 209 cases underwent surgery in our hospital from Jan.2014 to Jun.2014. The diagnostic performance of TI-RADS classification and elastography in differentiating benign and malignant thyroid nodules according to size nodules were evaluated (for≤1 cm and > 1 cm respectively). Results By using TI-RADS category and elastography, 178 thyroid nodules were diagnosed as malignant nodules, and 44 thyroid nodules were diagnosed as benign nodules. The high predictive factors for malignant thyroid nodules of > 1 cm were irregular shape(OR=6.376), microcalcification(OR=21.525), and capsule invasion(OR=3.852), P < 0.05. The factors for thyroid nodules of≤1 cm were anteroposterior to transverse diameter ratio≥1(OR=3.406), capsule invasion (OR=3.922), and high elastography score(OR=1.606), that suggested the possibility of malignant (P < 0.05). For nodules of > 1 cm, the sensitivity, specificity, accuracy, positive predictive value, negative predictive value, and Youden index of TI-RADS combining with elastography were 98.3%(59/60), 68.6%(24/35), 87.4%(83/95), 84.3%(59/70), 96.0% (24/25), and 66.9% respectively; for nodules of≤1 cm, the sensitivity, specificity, accuracy, positive predictive value, negative predictive value, and Youden index were 98.5%(67/68), 30.5%(18/59), 66.9%(85/127), 62.0%(67/108), 94.7%(18/19), and 29.0% respectively. Conclusion TI-RADS category combined with elastography for diagnosis of thyroid nodules in different size has just a bit differently diagnostic indicators, but that play a high diagnostic performance on the thyroid nodules with maximum diameter > 1 cm.
ObjectiveTo assess the effect of short-axis and long-axis punctures of thyroid nodules on the diagnostic rate of ultrasound guided aspiration biopsy (US-FNAB). MethodsWe retrospectively analyzed the clinical data of 2 686 thyroid nodule patients who underwent US-FNAB between March 2011 and November 2014. The US-FNAB was performed by 5 beginners (571 each for Dr1-Dr4 and 402 for Dr5). Yields of US-FNAB were divided into two levels according to the classification standard of the Bethesda system:adequacy and inadequacy. Short-axis puncture technique was used by Dr2 and long-axis puncture was performed by the others. According to chronological sequence of thyroid nodules examined, we compared the inadequate diagnostic rate between Dr2 and the others for the first 200 cases and the last 200 cases, respectively. The inadequate diagnostic rate was compared among the 4 doctors who used long-axis punctures for the first 200 cases and the last 200 cases, respectively. ResultsThe inadequacy rate of US-FNAB for Dr2 was higher than that for Dr1, Dr3, Dr4 and Dr5 in the first 200 cases, with statistical significance (P=0.036,<0.001,=0.007 and <0.001, respectively). There was no significant difference in inadequate diagnostic rate among the 4 doctors who used long-axis punctures for the first 200 cases (P=0.033, 0.551, 0.011, 0.122, 0.672 and 0.050). The inadequacy rate of US-FNAB for Dr2 was higher than that for Dr5 and lower than that for Dr4 in the last 200 cases with statistical significance (P=0.027 and 0.003, respectively). The inadequacy rate of US-FNAB for Dr5 was lower than that for Dr3 (P=0.005) and Dr4 (P<0.001) among the 4 doctors who used long-axis punctures for the last 200 cases. ConclusionFor beginners, the inadequacy rate of short-axis puncture is higher than long-axis puncture. We suggest beginners learn long-axis puncture method. There is no significant difference in inadequate diagnostic rate among short-axis and long-axis punctures, when the number of operated cases reaches 200. At this point, the operator can choose either way to puncture according to the disease condition or personal interests.
Objective To report our experience in using The Bethesda System for Reporting Thyroid Cytopathology(TBSRTC), and to investigate the diagnostic value of the system based on the cytologic-histologic result. Methods Pathological data of 2 257 thyroid nodules classified by TBSRTC which were obtained from the Department of Pathology of West China Hospital between Jan.2010 to Dec.2012 were collected and analyzed, to investigate the diagnostic evaluation indicators, such as the sensitivity, specificity, and diagnostic accuracy of the system based on the cytologic-histologic result. Results Of the 2 257 thyroid nodules, 442 (19.6%) were diagnosed as categoryⅠ, 1 184(52.4%) were diagnosed as categoryⅡ, 216(9.6%) were diagnosed as categoryⅢ, 38(1.7%) were diagnosed as categoryⅣ, 172(7.6%) were diagnosed as categoryⅤ, 205(9.1%) were diagnosed as categoryⅥ. Using TBSRTC categoryⅡas the boundary point of diagnosing benign and malignant diseases, the sensitivity, specificity, and diagnostic accuracy were 93.7%(236/252), 86.6%(323/373), and 89.4%(559/625)respectively, while categoryⅢwas excluded from analysis. When including categoryⅢinto analysis, the sensitivity, specificity, and diagnostic accuracy were 94.3%(267/283), 74.9%(323/431), and 82.6%(590/714)respectively. Conclusion The validity of TBSRTC was high at our institution. TBSRTC has proven to be an accurate and reliable approach for the diagnosis of thyroid nodules.
Objective To explore the value of virtual touch tissue quantification(VTQ) of acoustic radiation force impulse (ARFI) in the differential diagnosis between benign and malignant thyroid nodules. Methods The ultrasound (US), elastography imaging(EI), and VTQ of ARFI were performed to determine the characteristics and features of 63 thyroid nodules. The pathological diagnosis was the gold standard. According to the receiver operating characteristic curve (ROC) of US, EI, and VTQ, the critical points and diagnostic values of US, EI, and VTQ in diag-nosis of malignant thyroid nodules were achieved. Results Of the 63 nodules, 45 were benign and 18 were malignant. The area under curves of US, EI, and shear wave velocity(SWV) were 0.837(95% CI:0.712-0.962), 0.863(95% CI:0.751-0.974), and 0.900 (95% CI:0.810-0.990) respectively, and all the 3 kinds of technique had diagnostic value(P=0.001), but there were no significant difference among the 3 kinds of technique on the area under curve(P > 0.05). According to the receiver operating characteristic(ROC) curve, the critical point of US in distinguishing benign nodules with malignant nodules was 3 conventional ultrasonography, which displayed a sensitivity of 83.3%, a specificity of 86.7%, and a accuracy of 85.7%. The critical point of EI grades in distinguishing benign nodules with malignant nodules was gradeⅣ, which displayed a sensitivity of 94.1%, a specificity of 82.6%, and a accuracy of 87.3%. The critical value of SWV in distinguishing benign nodules with malignant nodules was 3.39 m/s, which displayed a sensiti-vity of 88.9%, a specificity of 91.1%, and a accuracy of 90.5%. Conclusion US, EI, and VTQ techniques all have diagnostic values in the differential diagnosis between benign and malignant thyroid nodules, and we should make combination with all of the 3 kinds of technique when performing differential diagnosis.
Objective To summary the change of surgical approaches, indications, contraindications, and complications of endoscopic thyroidectomy. Methods Endoscopic thyroidectomy related literatures at home and abroad were collected to summary the change of surgical approaches, indications, contraindications, and complications of it. Results The approaches of endoscopic thyroidectomy had their own advantages, wherein breast and complete areola approaches were mainstream surgical procedures; the indications were closely correlated with surgeons and devices, and there were no uniform indications yet. With the advance in endoscopic techniques, the contraindications would be gradually resolved, and the assistance of new devices and the accumulation of experience reduced the incidence of surgical complications, but there were still probability of occurrence of such complications. Conclusion Endoscopic thyroidectomy is the main means of treating thyroid nodules, which will be more widely used with the advance in techniques, the innovation of devices, the expansion of indications as well as the overcoming of contraindications.
ObjectiveTo assess the effect of the size of thyroid nodules on the diagnostic rate of ultrasound guided aspiration cytology (US-FNAB). MethodsThe data of 1 142 (performed by two doctors, 571 each) thyroid nodules between March 2011 and April 2014 in our hospital were retrospectively analyzed. Yields of US-FNAB were divided into two levels of adequacy and inadequacy according to the classification standard of the Bethesda system. The thyroid nodules were classified into five groups according to the largest diameter:≤5 mm group, 5-10 mm group,10-20 mm group, 20-30 mm group, and <30 mm group. According to the grouping of the nodules and the efficiency of US-FNAB drawed curve, the adequacy rates of alone and total of two examiners in each group were analyzed, respectively. ResultsThe adequacy rates of US-FNAB of alone and total of two examiners in≤5 mm group, 5-10 mm group,10-20 mm group, 20-30 mm group, and <30 mm group was 68.42%, 83.72%, 86.08%, 84.62%, and 73.53% (examiner 1); 68.75%, 70.53%, 81.05%, 86.15%, and 73.91% (examiner 2); 68.59%, 77.53%, 83.59%, 85.47%, and 73.75% (total of two examiners), respectively. The total adequacy rate of US-FNAB of two examiners in≤5 mm group was lower than that in 10-20 mm group (P<0.001) and 20-30 mm group (P=0.001). The adequacy rate of US-FNAB of examiner 1 in 5-10 mm group was higher than that examiner 2 (P=0.001). ConclusionsThe size of thyroid nodules significantly influences the adequate diagnostic rate of US-FNAB. The adequacy rates of US-FNAB of the largest diameter≤5 mm or <3mm were lower. The low adequacy rate of US-FNAB may be associated with cystic degeneration in the larger nodules.
Thyroid nodules are a common endocrine disorder, and their early detection and accurate diagnosis are crucial for the prevention of thyroid cancer. However, the highly heterogeneous morphology and boundaries of thyroid nodules pose significant challenges to their precise identification and classification. Traditional diagnostic approaches rely heavily on physicians’ experience, which increases the risk of misdiagnosis and missed diagnoses. With the rapid advancement of computer-aided diagnosis (CAD) technologies, applying deep learning algorithms to the analysis of thyroid nodule ultrasound images has shown great potential. This paper reviews the latest research progress on deep learning-based CAD methods for thyroid nodules, with a focus on their applications in image preprocessing, segmentation and classification. The advantages and limitations of current techniques are analyzed, and potential future directions are discussed. This review aims to highlight the potential of deep learning in thyroid nodule diagnosis and to provide a foundation for selecting feasible pathways for future clinical applications.
ObjectiveTo investigate the clinical value of real-time elastosonography in diagnosis of thyroid nodules. MethodsThe clinical date of 168 patients with thyroid nodules, admitted to our hospital from June 2009 to December, were retrospectively analyzed with pathological findings as the reference standard. The findings on elastography were classified into five grades: grade 0 to Ⅳ. The nodules with grade less than Ⅱ were diagnosed as benign, otherwise more than Ⅲ were diagnosed as malignancy. ResultsThere were 208 nodules in 168 patients: nodular goiter was in 125 cases, thyroid adenoma in 36 cases, thyroid malignant tumor in 41 cases including 39 cases for thyroid papillary carcinoma, 1 case for thyroid medullary carcinoma, 1 case for thyroid non-Hodgkin lymphoma. Other nodules were in 6 cases, including diffuse toxic goiter in 1 case, local lymphocytic thyroiditis in 3 cases, and subacute granulomatous thyroiditis in 2 cases. There were 148 thyroid nodules in grade 0-Ⅱ and 60 nodules in grade Ⅲ-Ⅳ. According to the pathological findings, 97.3%(144/148) thyroid nodules of grade 0-Ⅱ were benign, however, 38.3% (23/60) of grade Ⅲ-Ⅳ were benign. Furthermore, 2.7% (4/148) thyroid nodules of grade 0-Ⅱ were malignancy, while 61.7% (37/60) of grade Ⅲ-Ⅳ were malignancy. The sensitivity, specificity, and accuracy of the real-time elastosonography in diagnosis of thyroid nodules was 90.2%(37/41), 86.2%(144/167), and 87.0%(181/208), respectively. ConclusionReal-time elastosonography can reflect the relative hardness of thyroid nodules and provide useful information for diagnosis, which is helpful in differentiating benign and malignant thyroid nodules.
Objective To further strengthen the understanding of the genesis of thyroid tumors through the analysis of thyroid nodules in the clonal origin. Method The related literatures which discussed the clonality of thyroid nodules were reviewed and analyzed. Results About the clonal origin of thyroid nodules, the X chromosome inactivation detection and single gene mutation detection were the most widely chosen one at present. Most of the materials available at present related to X chromosome inactivation proposed that major part of the thyroid nodules were monoclonal and the malignant cells spreaded by means of the inner lymphatic vessel net,whereas polyclonal and monoclonal thyroid nodules coexisted occasionally. Only BRAF mutation was found of certain importance in clonal origin identification in the thyroid nodules. Conclusions Thyroid nodule is prevalent in clinical practice,while the clonality of thyroid nodules especially the thyroid tumor is not clear. And for the time being the commonly used methods to identify the clonal origin of thyroid nodule are X chromosome inactivation and single gene mutation detection. Published results confirm the finding of X chromosome inactivation methods that the majority of thyroid nodules are monoclonally originated.