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RSNA Review Article
The progress of head and neck radiology on Radiological Society of North America 2012
JIANG Bin  WANG Zhen-chang 

DOI:10.3969/j.issn.1674-8034.2013.03.001.


[Abstract] 178 scientific studies about the head and neck radiology were published on the annual meeting of Radiological Society of North America (RSNA) 2012 including 59 formal presentations and 119 posters and exhibits. The content involves eyes, ears, sinuses, pharynx, and neck. Many potentially advanced techniques were covered including spectral CT, PET/CT, PET/MRI, and MR elastography, etc. This article is a review of the hot issues involving the progress of head and neck radiology and focusing on facial reconstruction and transplantation, nasal pharyngeal carcinoma, orbit and neck.
[Keywords] Head and neck;Magnetic resonance imaging;Review literature

JIANG Bin Department of Radiology, Capital Medical University Affiliated Beijing Tongren Hospital, Beijing 100730, China

WANG Zhen-chang* Department of Radiology, Capital Medical University Affiliated Beijing Tongren Hospital, Beijing 100730, China

*Correspondence to: Wang ZC, E-mail: cjr.wzhch@vip.163.com

Conflicts of interest   None.

Received  2013-02-21
Accepted  2013-03-28
DOI: 10.3969/j.issn.1674-8034.2013.03.001
DOI:10.3969/j.issn.1674-8034.2013.03.001.

[1]
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[2]
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[3]
Pomahac B, Lengele B, Ridgway EB, et al. Vascular considerations in composite midfacial allotransplantation. Plast Reconstr Surg, 2010, 125(2): 517-22.
[4]
Pomahac B, Aflaki P, Nelson C, et al. Evaluation of appearance transfer and persistence in central face transplantation: a computer simulation analysis. J Plast Reconstr Aesthet Surg, 2010, 63(5): 733-738.
[5]
Pomahac B, Aflaki P, Chandraker A, et al. Facial transplantation and immunosuppressed patients: a new frontier in reconstructive surgery. Transplantation, 2008, 85(12): 1693-1697.
[6]
Wang HT, Liu AL, Miao YW et al. 3.0 T MR imaging of nasopharynx with IDEAL T1-weighted contrast-enhanced technique. Chicago: RSNA, 2012: DOI: .
[7]
Huang BS, Khong PL, Whitcher B, et al. Dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) for characterizing nasopharyngeal carcinoma (NPC): comparison of semi-quantitative and quantitative parameters and correlation with tumor stage. Chicago: RSNA, 2012: DOI: .
[8]
Chen YB, Yao YQ, Hong JS, et al. The analysis of dynamic change in apparent diffusion coefficient values on human nasopharyngeal carcinoma xenografts after irradiation and its correlation with histologic features. Chicago: RSNA, 2012: DOI: .
[9]
Luk YS, Wan C, Lai B, et al. Usefulness of 18-FDG-positron emission tomography (PET)/computed tomography (CT) in detecting and restaging residual/recurrent nasopharyngeal carcinoma (NPC): comparison with magnetic resonance imaging (MRI) and additional role of plasma EBV DNA. Chicago: RSNA, 2012: DOI: .
[10]
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[11]
Wang L, Zhai RY. Developing courses of late radiation brain injury in patients with nasopharyngeal carcinoma after radiation therapy: morphologic evaluation with MR imaging. Chicago: RSNA, 2012: DOI: .
[12]
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[13]
Habermann CR, Muenscher A, Bier J, et al. MR-elastography of the parotid gland: feasibility and first experiences. Chicago: RSNA, 2012: DOI: .
[14]
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[15]
Habermann CR, Muenscher A, Bier J, et al. Functional imaging of parotid glands using diffusion-weighted echo-planar MRI: is an age related differentiation between smokers and non-smokers possible? Chicago: RSNA, 2012: DOI: .
[16]
Habermann CR, Treszl ATB, Muenscher A, et al. Non-invasive differentiation of non-tumorous parotid gland diseases using high-resolution dynamic contrast-enhanced MRI. Chicago: RSNA, 2012: DOI: .
[17]
Lee DH, Kim E, Kim JH, et al. Magnetic resonance imaging of congenital or developmental neuropathic strabismus: common and uncommon findings. Chicago: RSNA, 2012: DOI: .
[18]
Jiang H. Prediction of response to immune-suppression therapy in patients with Graves’ ophthalmopathy using dynamic contrast-enhanced mr imaging of extraocular muscles. Chicago: RSNA, 2012: DOI: .
[19]
Ashtari M, Cyckowski L, Chung D, et al. Presurgical planning for retinal gene therapy using functional MRI. Chicago: RSNA, 2012: DOI: .
[20]
Slapa RZ, Migda B, Jakubowski W, et al. New elastographic parameter for characterization of thyroid cancer. Chicago: RSNA, 2012: DOI: .
[21]
Sodagari F, Ghajarzadeh M, Shakiba M, et al. Diagnostic accuracy of sonoelastography in detecting malignant thyroid nodules: a systematic review and Meta-analysis. Chicago: RSNA, 2012: DOI: .
[22]
Dhyani M, Arellano H, Anvari A, et al. Follicular neoplasms of the thyroid: can shear wave elastography (SWE) assist differentiation of benign and malignant nodules? Chicago: RSNA, 2012: DOI: .
[23]
Cantisani V, Ricci P, Segni MD, et al. Multiparametric ultrasound and quantitative elastosonography evaluation in the differential diagnosis of benign and malignant thyroid nodules: interobserver variability assessment on a large population. Chicago: RSNA, 2012: DOI: .
[24]
Cantisani V, Guerrisi I, Mancuso E, et al. Prospective comparative evaluation of quantitative-elastosonography (Q-elastography) and contrast-enhanced ultrasound for the evaluation of thyroid nodules: preliminary experience. Chicago: RSNA, 2012: DOI: .
[25]
Guo T, Zhang M, Li W, et al. Differentiating malignant and benign thyroid nodules with spectral CT imaging. Chicago: RSNA, 2012: DOI: .
[26]
Chen BT, Jain AB, Vora LH, et al. 18F-FDG PET/CT findings significantly correlate with outcome of ultrasound guided biopsy of thyroid nodules. Chicago: RSNA, 2012: DOI: .
[27]
Sun HR, Han SG, Liu B. Differentiation of Graves disease, hashimoto thyroiditis and subacute thyroiditis by apparent diffusion coefficient values: initial experience. Chicago: RSNA, 2012: DOI: .
[28]
Sarkar SN, Hackney DB, Mangosing J, et al. Empirical relations among fat and water images in neck MRI using iterative decomposition of water and fat with echo asymmetric and least-squares estimation (IDEAL) at 1.5 and 3. Chicago: RSNA, 2012: DOI: .
[29]
Vogl TJ, Burck I, Harth M, et al. Comparison of different imaging modalities in patients with head and neck cancer: PET/CT vs MRI. Chicago: RSNA, 2012: DOI: .
[30]
Thomas MM, Parsons MS, Shetty V, et al. Simultaneous PET/MR of the head and neck: an initial experience. Chicago: RSNA, 2012: DOI: .
[31]
Baki MM, Punwani S, Birchall M, et al. Quantitative measure of vocal fold motion: a feasibility study. Chicago: RSNA, 2012: DOI: .
[32]
Larson MC, Kerl JM, Bauer RW, et al. Evaluation of the speech of surgically treated patients with velopharyngeal dysfunction by true real-time MR imaging with simultaneous sound recordings in comparison to videofluoroscopy examinations in follow-up exams. Chicago: RSNA, 2012: DOI: .
[33]
Hwang IP, Choi SH, Yun TJ, et al. Differentiation of recurred tumor and post-treatment changes in head and neck squamous cell carcinoma: application of high-b-value diffusion-weighted imaging. Chicago: RSNA, 2012: DOI: .
[34]
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[35]
Abramyuk A, Hietschold V, Appold S, et al. Radiochemotherapy induced changes of local tumor blood supply estimated by DCE-CT and fractal analysis in head and neck tumors. Chicago: RSNA, 2012: DOI: .
[36]
Buchbender C, Scherer A, Terjung J, et al. Diagnostic accuracy of PET/MRI and DWI/MRI fusion images for neck lymph node staging in head and neck cancer. Chicago: RSNA, 2012: DOI: .
[37]
Jouvet JC, Boussel L, Berthezene Y, et al. Whole body MRI with diffusion-weighted sequences compared with 18 FDG PET-CT, CT and superficial lymph node ultrasonography in the staging of advanced cutaneous melanoma: a prospective study. Chicago: RSNA, 2012: DOI: .

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