Imaging in head and neck cancer

Opinion statementThe goals of imaging in head and neck cancer are to establish tumor extent and size, to assess nodal disease, to evaluate for perineural tumor spread, and to distinguish recurrent tumor from post-treatment changes. MRI is the preferred modality for assessment of nasopharyngeal, sinonasal, and parotid tumors, because of better contrast resolution, high frequency of perineural spread, and less prominent motion artifacts. MRI is the best modality to delineate the extent of intraorbital and intracranial extension of malignant tumors. Tumors of the oropharynx, larynx, and hypopharynx are frequently primarily imaged with CT, which is less affected by breathing and swallowing artifacts. MRI is also the initial study of choice for tumors confined to the oral tongue, and possibly also for other oral cavity locations because MRI is superior in detection of tumor spread into the bone marrow. There is no clear advantage of CT or MRI for evaluation of nodal disease. Positron emission tomography (PET) is very sensitive for metastatic lymph nodes that are at least 8 mm in size and is the technique of choice in dubious cases. Imaging-guided biopsies are performed whenever needed. For imaging of treated head and neck cancer, PET scans have been found to generally offer higher sensitivity than MRI or CT. Combined PET/CT may be the modality of choice because it almost completely eliminates the false-positive and false-negative PET findings. Patients with head and neck cancer who are referred to tertiary care centers commonly arrive with cross-sectional images obtained at other institutions. Reinterpretation of these studies by dedicated radiologists frequently leads to changes in findings, which alter treatment and affect prognosis.

[1]  L. Loevner,et al.  Imaging of neoplasms of the paranasal sinuses. , 2002, Neuroimaging clinics of North America.

[2]  S. Ng,et al.  Magnetic Resonance Imaging versus Clinical Palpation in Evaluating Cervical Metastasis from Head and Neck Cancer , 2000, Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.

[3]  D. Gervais,et al.  Sonography and sonographically guided fine-needle aspiration biopsy of the thyroid gland: indications and techniques, pearls and pitfalls. , 2003, AJR. American journal of roentgenology.

[4]  J. Meller,et al.  The continuing importance of thyroid scintigraphy in the era of high-resolution ultrasound , 2002, European Journal of Nuclear Medicine and Molecular Imaging.

[5]  G. Adam,et al.  Diffusion-weighted echo-planar MRI: a valuable tool for differentiating primary parotid gland tumors? , 2005, RoFo : Fortschritte auf dem Gebiete der Rontgenstrahlen und der Nuklearmedizin.

[6]  S. Higano,et al.  Usefulness of heavily T(2) weighted magnetic resonance images for the differential diagnosis of parotid tumours. , 2003, Dento maxillo facial radiology.

[7]  M. Becker,et al.  Neoplastic invasion of laryngeal cartilage: radiologic diagnosis and therapeutic implications. , 2000, European journal of radiology.

[8]  M. Becker,et al.  Pretherapeutic staging of laryngeal carcinoma: Clinical findings, computed tomography, and magnetic resonance imaging compared with histopathology , 1996, Cancer.

[9]  S. Ng,et al.  Nasopharyngeal carcinoma: review of how imaging affects staging. , 1999, Journal of computer assisted tomography.

[10]  S. Mukherji,et al.  Use of Cross-Sectional Imaging in Predicting Surgical Location of Parotid Neoplasms , 2005, Journal of computer assisted tomography.

[11]  Regina O Redfern,et al.  Intraobserver variability in the MR determination of tumor volume in squamous cell carcinoma of the pharynx. , 2004, AJNR. American journal of neuroradiology.

[12]  Alicia Y Toledano,et al.  Interobserver reliability of computed tomography‐derived primary tumor volume measurement in patients with supraglottic carcinoma , 2005, Cancer.

[13]  D. Yousem,et al.  Accuracy of magnetic resonance imaging in predicting absence of fixation of head and neck cancer to the prevertebral space , 2005, Head & neck.

[14]  H Ric Harnsberger,et al.  Earring lesions of the parotid tail. , 2003, AJNR. American journal of neuroradiology.

[15]  R. Carrau,et al.  "Puffed-cheek" CT improves evaluation of the oral cavity. , 2001, AJNR. American journal of neuroradiology.

[16]  Surveillance CT and the prompt use of CT-guided fine-needle aspiration in patients with head and neck cancer who have undergone surgery. , 1999, AJR. American journal of roentgenology.

[17]  R. Gandour-Edwards,et al.  Perineural spread of head and neck tumors: how accurate is MR imaging? , 1998, AJNR. American journal of neuroradiology.

[18]  D. Regge,et al.  Virtual endoscopy of laryngeal carcinoma: Is it useful? , 2005, Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.

[19]  M. Fukui,et al.  Role of 18FFDG PET/CT in the treatment of head and neck cancers: principles, technique, normal distribution, and initial staging. , 2005, AJR. American journal of roentgenology.

[20]  R. Murakami,et al.  Dynamic helical CT of T1 and T2 glottic carcinomas: predictive value for local control with radiation therapy. , 2000, AJNR. American journal of neuroradiology.

[21]  J. Weissman,et al.  Preoperative facial muscle imaging predicts final facial function after facial nerve grafting. , 2003, AJNR. American journal of neuroradiology.

[22]  Esophageal Invasion by Thyroid Carcinomas: Prediction Using Magnetic Resonance Imaging , 2003, Journal of computer assisted tomography.

[23]  S. Takashima,et al.  Using MR imaging to predict invasion of the recurrent laryngeal nerve by thyroid carcinoma. , 2003, AJR. American journal of roentgenology.

[24]  Brian J. Schulman,et al.  Reinterpretation of cross-sectional images in patients with head and neck cancer in the setting of a multidisciplinary cancer center. , 2002, AJNR. American journal of neuroradiology.

[25]  D. Yousem,et al.  MR imaging for predicting neoplastic invasion of the cervical esophagus. , 2000, AJNR. American journal of neuroradiology.

[26]  D. Farina,et al.  Magnetic Resonance Imaging Findings of Inverted Papilloma: Differential Diagnosis with Malignant Sinonasal Tumors , 2004, American journal of rhinology.

[27]  D. Farina,et al.  Diagnostic accuracy of magnetic resonance imaging in the assessment of mandibular involvement in oral-oropharyngeal squamous cell carcinoma: a prospective study. , 2004, Archives of otolaryngology--head & neck surgery.

[28]  G. Shah MR imaging of salivary glands. , 2002, Neuroimaging clinics of North America.

[29]  William Ignace Wei,et al.  Correlating MRI and histologic tumor thickness in the assessment of oral tongue cancer. , 2004, AJR. American journal of roentgenology.

[30]  S. Varadarajulu,et al.  Endoscopic Ultrasonography in the Diagnosis and Staging of Neoplasms of the Head and Neck , 2004, Endoscopy.

[31]  H. Curtin Detection of perineural spread: fat suppression versus no fat suppression. , 2004, AJNR. American journal of neuroradiology.

[32]  S. Mukherji,et al.  Preradiotherapy computed tomography as a predictor of local control in supraglottic carcinoma. , 1999, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[33]  H. Thoeny,et al.  Correlation of local outcome after partial laryngectomy with cartilage abnormalities on CT. , 2005, AJNR. American journal of neuroradiology.

[34]  Qiang Yu,et al.  Carotid artery and jugular vein invasion of oral-maxillofacial and neck malignant tumors: diagnostic value of computed tomography. , 2003, Oral surgery, oral medicine, oral pathology, oral radiology, and endodontics.

[35]  D. Ross Nonpalpable thyroid nodules--managing an epidemic. , 2002, The Journal of clinical endocrinology and metabolism.

[36]  L. Ginsberg Reinterpretation of head and neck scans: massive can of worms or call to action? , 2002, AJNR. American journal of neuroradiology.

[37]  M. Hareyama,et al.  Prognostic factors of nasopharynx tumors investigated by MR imaging and the value of MR imaging in the newly published TNM staging. , 1999, International journal of radiation oncology, biology, physics.

[38]  F. Terrier,et al.  Neoplastic invasion of the laryngeal cartilage: reassessment of criteria for diagnosis at CT. , 1997, Radiology.

[39]  M. Bullock,et al.  Sentinel lymph node biopsy in N0 squamous cell carcinoma of the oral cavity and oropharynx. , 2005, Archives of otolaryngology--head & neck surgery.

[40]  S. Mukherji,et al.  Clinical applications of tumor volume measurements for predicting outcome in patients with squamous cell carcinoma of the upper aerodigestive tract. , 2004, AJNR. American journal of neuroradiology.

[41]  N. Screaton,et al.  Head and neck lymphadenopathy: evaluation with US-guided cutting-needle biopsy. , 2002, Radiology.

[42]  C. Snyderman,et al.  Head and neck malignancy: is PET/CT more accurate than PET or CT alone? , 2005, Radiology.

[43]  L. Peters,et al.  The usefulness of fluorine 18–labelled deoxyglucose positron emission tomography in the investigation of patients with cervical lymphadenopathy from an unknown primary tumor , 2003, Head & neck.

[44]  S. Mukherji,et al.  Perineural tumor spread along the auriculotemporal nerve. , 2002, AJNR. American journal of neuroradiology.

[45]  G. Hör,et al.  Prospective comparison of 18F-FDG PET with conventional imaging modalities (CT, MRI, US) in lymph node staging of head and neck cancer , 1998, European Journal of Nuclear Medicine.

[46]  Elisabeth Kjellén,et al.  FDG PET studies during treatment: Prediction of therapy outcome in head and neck squamous cell carcinoma , 2002, Head and Neck.

[47]  D. Yousem,et al.  CT-guided aspirations in the head and neck: assessment of the first 216 cases. , 2004, AJNR. American journal of neuroradiology.

[48]  S. Mukherji,et al.  CT detection of mandibular invasion by squamous cell carcinoma of the oral cavity. , 2001, AJR. American journal of roentgenology.

[49]  Mithat Gonen,et al.  Head and neck cancer: clinical usefulness and accuracy of PET/CT image fusion. , 2004, Radiology.

[50]  Superparamagnetic Iron Oxide Nanoparticles: Nodal Metastases and Beyond , 2004, Topics in magnetic resonance imaging : TMRI.

[51]  Dong Ik Kim,et al.  New sonographic criteria for recommending fine-needle aspiration biopsy of nonpalpable solid nodules of the thyroid. , 2002, AJR. American journal of roentgenology.

[52]  L. Ginsberg MR imaging of perineural tumor spread. , 2004, Neuroimaging clinics of North America.

[53]  D. Yousem,et al.  Carotid artery invasion by head and neck masses: prediction with MR imaging. , 1995, Radiology.

[54]  D. Yousem,et al.  Preoperative imaging to predict orbital invasion by tumor , 2000, Head & neck.

[55]  Zoran Rumboldt,et al.  Perfusion CT for head and neck tumors: pilot study. , 2005, AJNR. American journal of neuroradiology.

[56]  M. Fukui,et al.  Role of 18FFDG PET/CT in the treatment of head and neck cancers: posttherapy evaluation and pitfalls. , 2005, AJR. American journal of roentgenology.

[57]  D. Knol,et al.  Supraglottic carcinoma treated with curative radiation therapy: identification of prognostic groups with MR imaging. , 2004, Radiology.

[58]  A. Baert,et al.  Predicting the local outcome of glottic squamous cell carcinoma after definitive radiation therapy: value of computed tomography-determined tumour parameters. , 1999, Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology.

[59]  M. Castillo,et al.  The palatovaginal canal: can it be identified on routine CT and MR imaging? , 2002, AJR. American journal of roentgenology.

[60]  Ann D King,et al.  Necrosis in metastatic neck nodes: diagnostic accuracy of CT, MR imaging, and US. , 2004, Radiology.