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中华医学超声杂志(电子版) ›› 2016, Vol. 13 ›› Issue (03) : 224 -230. doi: 10.3877/cma.j.issn.1672-6448.2016.03.012

所属专题: 文献

浅表器官超声影像学

甲状腺发育异常超声表现及漏误诊分析
闫磊1, 章建全1,(), 盛建国1, 赵璐璐1   
  1. 1. 200003 上海,第二军医大学长征医院超声诊疗科
  • 收稿日期:2015-07-27 出版日期:2016-03-01
  • 通信作者: 章建全
  • 基金资助:
    国家自然科学基金资助项目(No.81171436)

Comprehensive ultrasonic appearances contributing to the diagnosis of thyroid dysplasia and factors of misdiagnosis

Lei Yan1, Jianquan Zhang1,(), Jianguo Sheng1, Lulu Zhao1   

  1. 1. Department of Ultrasound in Medicine, Changzheng Hospital, Second Military Medical University, Shanghai 200003, China
  • Received:2015-07-27 Published:2016-03-01
  • Corresponding author: Jianquan Zhang
  • About author:
    Corresponding author: Zhang Jianquan, Email:
引用本文:

闫磊, 章建全, 盛建国, 赵璐璐. 甲状腺发育异常超声表现及漏误诊分析[J]. 中华医学超声杂志(电子版), 2016, 13(03): 224-230.

Lei Yan, Jianquan Zhang, Jianguo Sheng, Lulu Zhao. Comprehensive ultrasonic appearances contributing to the diagnosis of thyroid dysplasia and factors of misdiagnosis[J]. Chinese Journal of Medical Ultrasound (Electronic Edition), 2016, 13(03): 224-230.

目的

总结甲状腺发育异常超声表现,并分析其漏误诊原因。

方法

回顾性分析2004年1月至2014年12月第二军医大学长征医院收治的205例甲状腺发育异常患者的超声声像图。其中170例患者以手术病理确诊,16例患者经穿刺活检病理确诊,19例患者以CT、MRI、发射型计算机断层成像影像学检查中2种以上检查结果一致支持甲状腺发育异常确诊。

结果

205例患者中甲状舌管囊肿185例,甲状舌管瘘2例,甲状腺缺如4例,迷走甲状腺5例,副甲状腺9例。205例甲状腺发育异常患者超声正确诊断188例,诊断准确率为91.7%(188/205)。其中甲状舌管囊肿、甲状舌管瘘、甲状腺缺如、迷走甲状腺、副甲状腺的超声诊断准确率分别为92.4%(171/185)、50.0%(1/2)、100%(4/4)、80.0%(4/5)、88.9%(8/9)。超声漏诊5例:其中甲状舌管囊肿4例,迷走甲状腺1例。超声误诊12例:其中甲状舌管囊肿10例,4例超声误诊为颈部皮样囊肿,4例超声误诊为颈部脓肿,2例超声误诊为甲状腺峡部胶质潴留;甲状舌管瘘1例超声误诊为颈部脓肿;副甲状腺1例超声误诊为肿大淋巴结。超声正确诊断的171例甲状舌管囊肿患者中,161例超声表现为甲状腺与舌骨之间的区域内呈圆形、类圆形甚至条索状的无回声区,10例超声表现为颈前正中长椭圆形或不规则形低回声区;超声正确诊断的1例甲状舌管瘘患者超声表现为甲状舌管囊肿浅层向皮肤延伸的条索状低回声;4例甲状腺缺如患者超声表现为缺如侧的甲状腺床位置无甲状腺回声显示;超声正确诊断的4例迷走甲状腺患者超声表现为颈部正常位置无甲状腺显现,他处见类似甲状腺回声的结节;超声正确诊断的8例副甲状腺患者超声表现为颈部正常位置有甲状腺显现,他处见类似甲状腺回声的结节。

结论

甲状腺发育异常在超声表现上具有特征性。漏误诊影响因素包括超声检查者对颈部超声表现的熟知程度和经验、扫查技术的规范性、对可疑超声表现的质疑习惯以及主动拓展扫查范围乃至寻求其他影像学检查的意识。超声医师应熟悉其各种类型的超声声像图表现,掌握其超声检查的技术要领。

Objective

To investigate the sonographic features of thyroid dysplasia for improving the diagnostic accuracy.

Methods

The data of 205 cases of thyroid dysplasia in Changzheng Hospital from January 2004 to December 2014 was investigated retrospectively. For confirming the diagnosis of thyroid dysplasia, surgical pathology, ultrasound-guided percutaneous core-needle biopsy and integration of computed tomography (CT), magnetic resonance imaging (MRI) and emission computed tomography (ECT) findings were employed in 170, 16 and 19 cases respectively.

Results

As a final diagnosis of the 205 cases, 185 cases were diagnosed as thyroglossal duct cyst, 2 cases as thyroglossal fistula, 4 cases as thyroid absence, 5 cases as aberrant thyroid and 9 cases as accessory thyroid. Among them, accuracy rate of ultrasonic diagnosis was 92.4% (171/185) for thyroglossal duct cyst, 50.0% (1/2) for thyroglossal fistula, 100% (4/4) for thyroid absence, 80.0% (4/5) for aberrant thyroid and 88.9% (8/9) for accessory thyroid. Five cases were missed in ultrasonic diagnosis, which were 4 cases of thyroglossal duct cyst and 1 case of aberrant thyroid. Twelve cases were misdiagnosed by ultrasonography as follows: among the 10 thyroglossal duct cyst cases, four were mistaken as neck dermoid cyst, four as neck abscess, two as thyroid colloid retention. One case of thyroglossal fistula was mistaken as neck abscess. One case of accessory thyroid was mistaken as enlarged lymphatic node. In the 171 correctly diagnosed thyroglossal duct cyst, 161 cases has the ultrasonic features as follows: an anechoic lesion in round or oval shape located between thyroid and hyoid, while 10 cases have the appearance of oval or irregular-shaped hypoechoic lesion. The 1 case of thyroglossal fistula appeared in a stub-like hypoechoic lesion extending from a thyroglossal duct cyst-like structure to the subcutaneous layer. The 4 cases of thyroid absence have no presence of thyroid lobe in the thyroid bed. The 4 ultrasound correctly-diagnosed aberrant thyroid cause absence of thyroid glands in the thyroid bed, but presence of thyroid-like structure elsewhere. The 8 ultrasound correctly-diagnosed accessory thyroid not only have thyroid glands present in the thyroid bed, but also have presence of thyroid-like structure elsewhere.

Conclusions

The ultrasonic features of thyroid dysplasia can be characteristic to meet a correct diagnosis. The factors contributing misdiagnosis may be involved with the good awareness and experience of normal neck ultrasonography, the standard-operation of scanning, the consciousness of questioning suspicious sonographic scanning habits and expand the area of the initiative and even combine with other imaging modalities. The sonographer should be familiar with the various types of sonographic findings and key points of thyroid dysplasia.

图1 甲状舌管囊肿患者超声声像图。囊肿(箭头所示)位于甲状腺峡部至舌骨之间的颈中线,前方为胸骨舌骨肌和甲状舌骨肌(M)。囊肿形态欠规则,壁光滑,腔内透声欠佳,可见絮状低回声,并见分隔及粗大钙化。彩色多普勒血流成像示囊壁可见血流信号,囊腔内无血流信号
图2~4 左侧甲状腺缺如患者超声声像图。图2示右侧正位甲状腺最大横切面,峡部仅右半侧显现;图3 示左侧正位甲状腺及左半侧峡部均未显现,左甲状腺床的主要空间为食管(箭头所示)所占据;图4 示左甲状腺床长轴切面,食管纵切面(红色箭头所示)清晰显现,左下甲状旁腺(黄色箭头所示)亦清晰显现
图6 右侧颈动脉鞘内副甲状腺患者磁共振成像图。副甲状腺(红色箭头所示)与右侧正位甲状腺(黄色箭头所示)信号强度一致,位置紧邻似相连,但是二者间的包膜分隔依稀可辨
图11,12 胸骨后副甲状腺患者增强CT图。图11示主动脉弓(红色箭头所示)水平横断面,纵隔内可见类圆形的软组织灶,轻度不均匀增强(黄色箭头所示);图12 示中线水平矢状断面,颈部甲状腺(红色箭头所示)延伸至胸骨(黄色箭头所示)后,肺与气管均受其挤压
图18 舌根部迷走甲状腺患者磁共振成像图。示矢状断面,迷走甲状腺(红色箭头所示)位于舌根部,呈较强信号,舌根受挤压,气道明显狭窄(黄色箭头所示)
图19~21 双侧颈部副甲状腺患者超声声像图。图19示左侧副甲状腺(箭头所示)位于胸锁乳突肌旁;图20 示左侧副甲状腺(箭头所示)内血流信号丰富;图21 示右侧副甲状腺(箭头所示)位于颈动脉鞘内
[1]
王克诚. 甲状腺外科学 [M]. 河北: 河北科技出版社, 1998: 208.
[2]
Seok H, Oh SJ, Ha WC, et al. Dual ectopic thyroid presenting with an anterior neck mass [J]. Korean J Intern Med, 2015, 30(1): 129-130.
[3]
Sapkota S, Kumar PH, Pokhrel R. Thyroid isthmus agenesis [J]. Med J DY Patil Univ, 2015, 8(4): 563-565.
[4]
夏玉光. 彩超诊断先天性右侧甲状腺缺如并甲状腺功能亢进1例 [J]. 中国超声医学杂志, 2012, 28(7): 594.
[5]
Kansal A, Aggarwal S. ′Two are not always better than one′ --dual ectopic thyroid: a rare anomaly [J]. Thyroid Res Pract, 2014, 11(3): 113-115.
[6]
Singh GB, Kumar D, Ranjan S, et al. A rare case of double ectopic thyroid without orthotopic thyroid gland [J]. Int J Pediatr Otorhinolaryngol Extra, 2015, 10: 28-30.
[7]
都健, 刘国良, 张崚. 先天性甲状腺发育异常97例临床分析 [J]. 中国医科大学学报, 1996, 25(6): 643-644.
[8]
邓又斌, 谢明星, 张青萍. 中华影像医学: 超声诊断学卷 [M]. 2版. 北京: 人民卫生出版社, 2011: 179-180.
[9]
于晓霞, 邹卉, 柴建, 等. 伴甲状腺异位的先天性甲状腺功能减低症患儿NKX2.5基因突变研究 [J]. 中华实用儿科临床杂志, 2014, 29(8): 586-589.
[10]
Carré A, Szinnai G, Castanet M, et al. Five new TTF1/NKX2.1 mutations in brain-lung-thyroid syndrome:rescue by PAX8 synergism in one case [J]. Hum Mol Genet, 2009, 18(12): 2266-2276.
[11]
李玉芬, 张立琴. FOXE1基因突变与甲状腺发育不全 [J]. 中国儿童保健杂志, 2012, 2(24): 149-150.
[12]
Kusakabe T, Kawaguchi A, Hoshi N, et al. Thyroid-specific enhancer-binding protein/Nkx2.1 is required for the maintenance of ordered architecture and function of the differentiated thyroid [J]. Mol Endocrinol, 2006, 20(8): 1796-1809.
[13]
Fagman H, Andersson L, Nilsson M. The developing mouse thyroid: embryonic vessel contacts and parenchymal growth pattern during specification, budding, migration, and lobulation [J]. Dev Dyn, 2006, 235(2): 444-455.
[14]
Parlato R, Rosica A, Rodriguez-Mallon A, et al. An integrated regulatory network controlling survival and migration in thyroid organogenesis [J]. Dev Biol, 2004, 276(2): 464-475.
[15]
Pasca di Magliano M, Di Lauro R, Zannini M. Pax8 has a key role in thyroid cell differentiation [J]. Proc Natl Acad Sci U S A, 2000, 97(24): 13144-13149.
[16]
黄盛, 张再重, 郝晓鹏, 等. 异位甲状腺诊断和治疗 [J]. 中华内分泌外科杂志, 2014, 8(4): 309-311.
[17]
Guerra G, Cinelli M, Mesolella M, et al. Morphological, diagnostic and surgical features of ectopic thyroid gland: a review of literature [J]. Int J Surg, 2014, 12 Suppl 1: S3-S11.
[18]
Casadei GP, Bertarelli C, Giorgini E,et al. Ectopic thyroid tissue in the adrenal gland: report of a case [J]. Int J Surg Pathol, 2015, 23(3): 170-175.
[19]
姜辉, 孙百胜, 刘东仁, 等. 肝脾多发异位甲状腺腺瘤1例 [J]. 中国医学影像技术, 2009, 25(10): 1922.
[20]
Besik J, Szarszoi O, Bartonova A, et al. Intracardiac ectopic thyroid (struma cordis) [J]. J Card Surg, 2014, 29(2): 155-158.
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