Srinivas M Naren Satya, Amogh V N, Gautam Munnangi Satya, Prathyusha Ivvala Sai, Vikram N R, Retnam M Kamala, Balakrishna B V, Kudva Narendranath
Department of Radiodiagnosis, MV Jayaram Medical College and Research Hospital, Hoskote, Bengaluru, Karnataka, India.
Department of Radiodiagnosis, Christian Medical College, Vellore, Tamil Nadu, India.
J Clin Imaging Sci. 2016 Feb 26;6:5. doi: 10.4103/2156-7514.177551. eCollection 2016.
To evaluate diagnostic reliability of the daily use of thyroid imaging reporting and data system (TIRADS) classification proposed by Kwak et al., in differentiating between a benign and a malignant thyroid lesion, to calculate inter-observer variability in the interpretation of each of the TIRADS ultrasound features and to evaluate role of TIRADS system in reducing unnecessary biopsies of benign lesions.
Three hundred and sixty-five patients with clinically suspected thyroid lesions during the period from November 1, 2011, to August 31, 2015, were prospectively scanned on gray-scale and Doppler imaging by six radiologists separately. We used GE VOLUSON 730 PRO machine (GE healthcare, Milwaukee, USA) equipped with a 7.5-12 MHz high-frequency linear array transducer with color and power Doppler capability. We evaluated five sonological features: Internal composition, echogenicity, margins, presence and type of calcification, and shape of the lesion. Based on the TIRADS proposed by Kwak et al., we determined categories of the thyroid lesions. The diagnostic performance of TIRADS classification system was evaluated by comparison with the fine-needle aspiration cytology (FNAC) reports which were subsequently obtained after taking informed consent from the patients. All follicular neoplasms on FNAC were further followed up with excision biopsy and histology. The cytopathological report was used as the standard final diagnosis for comparison. The P value and odds ratio were determined to quantify how strongly the presence or absence of a particular ultrasound feature was associated with benignity or malignancy in the study population. The risk of malignancy was stratified for each TIRADS category-based on the total number of benign and malignant lesions in that category. Cervical lymph nodes were also evaluated for their size, loss of the central, echogenic hilum, presence of irregular and indistinct margin, microcalcification, and necrotic changes. Cohen's Kappa coefficient was determined separately for each of the five TIRADS malignant features to study the inter-observer agreement. Furthermore, the percentage of benign cases that were accurately determined by TIRADS which could have avoided unnecessary FNAC was determined.
The risk of malignancy in TIRADS categories 1 and 2 was found to be 0%, 0.64% in category 3, 4.76% in category 4A, 66.67% in category 4B, 83.33% in category 4C, and 100% in category 5. Out of the five suspicious sonological features, irregular margins showed the highest positive predictive value (95.45%) for malignancy followed by taller than wide shape (92.86%), microcalcifications (66.67%), marked hypoechogenicity (54.55%), and solid composition (48.15%). The specificity of three sonological features (completely cystic structure, hyperechogenicity, and macrocalcification) in classifying a nodule as benign was 100%. Loss of central echogenic hilum, presence of an irregular and indistinct margin, microcalcification and necrosis were found to have sensitivity of 100%, 63.63%, 27.27%, and 9.09%, respectively and specificity of 95.7%, 98.5%, 100%, and 100%, respectively for cervical lymph node to be malignant. The Kappa value for taller than wide shape, microcalcification, marked hypoechogenicity, solid composition, and irregular margins was 1.0 (95% confidence interval [CI]: 1-1), 1.0 (95% CI: 1-1), 0.90 (95% CI: 0.82-1), 0.88 (95% CI: 0.77-0.92), and 0.82 (95% CI: 0.64-1), respectively. The estimated decrease in unnecessary FNACs was found to be 43.83-86.30%.
TIRADS proposed by Kwak et al., combined with evaluation for sonological features of malignant lymph nodes is a valuable, safe, widely available, and easily reproducible imaging tool to stratify the risk of a thyroid lesion and helps in precluding unnecessary FNACs in a significant number of patients. TIRADS features convincingly show comparable results in the interpretation of TIRADS features more so, in the hands of radiologists experienced in thyroid imaging.
评估Kwak等人提出的甲状腺影像报告和数据系统(TIRADS)分类在日常使用中区分甲状腺良性和恶性病变的诊断可靠性,计算观察者之间对每个TIRADS超声特征解读的变异性,并评估TIRADS系统在减少良性病变不必要活检方面的作用。
2011年11月1日至2015年8月31日期间,365例临床怀疑有甲状腺病变的患者由6名放射科医生分别进行灰阶和多普勒成像的前瞻性扫描。我们使用配备7.5 - 12 MHz高频线性阵列探头且具备彩色和能量多普勒功能的GE VOLUSON 730 PRO机器(美国通用电气医疗集团,密尔沃基)。我们评估了五个超声特征:内部成分、回声性、边界、钙化的存在及类型以及病变的形状。基于Kwak等人提出的TIRADS,我们确定了甲状腺病变的类别。通过与在获得患者知情同意后随后获取的细针穿刺抽吸活检(FNAC)报告进行比较,评估TIRADS分类系统的诊断性能。FNAC中所有滤泡性肿瘤均进一步通过切除活检和组织学进行随访。细胞病理学报告用作标准最终诊断以进行比较。确定P值和比值比以量化特定超声特征的存在或不存在与研究人群中良性或恶性的关联强度。根据该类别中良性和恶性病变的总数,为每个TIRADS类别分层恶性风险。还评估了颈部淋巴结的大小、中央回声强的肾门消失、不规则且不清晰的边界、微钙化以及坏死变化。分别针对五个TIRADS恶性特征确定Cohen's Kappa系数以研究观察者间的一致性。此外,确定了TIRADS准确判定的可避免不必要FNAC的良性病例百分比。
发现TIRADS 1类和2类的恶性风险为0%,分别为3类0.64%、4A类4.76%、4B类66.67%、4C类83.33%以及5类100%。在五个可疑超声特征中,边界不规则对恶性的阳性预测值最高(95.45%),其次是纵横比大于1(92.86%)、微钙化(66.67%)、显著低回声(54.55%)以及实性成分(48.15%)。三个超声特征(完全囊性结构、高回声以及粗大钙化)将结节分类为良性的特异性为100%。发现中央回声强的肾门消失、不规则且不清晰的边界、微钙化以及坏死对于颈部淋巴结为恶性的敏感性分别为100%、63.63%、27.27%和9.),分别为1.0(95%置信区间[CI]:1 - 1)、1.0(95% CI:1 - 1)、0.90(95% CI:0.82 - 1)、0.88(95% CI:0.77 - 0.92)以及0.82(95% CI:0.64 - 1)。发现不必要FNAC的估计减少量为43.83% - 86.30%。
Kwak等人提出的TIRADS,结合对恶性淋巴结超声特征的评估,是一种有价值、安全、广泛可用且易于重复的成像工具,可对甲状腺病变风险进行分层,并有助于在大量患者中避免不必要的FNAC。TIRADS特征在解读TIRADS特征方面显示出令人信服的可比结果,在甲状腺成像经验丰富的放射科医生手中更是如此。
