Abstract Purpose Facial nerve electrodiagnostics is a well-established and important tool for decision making in patients with facial nerve diseases. Nevertheless, many otorhinolaryngologist—head and neck surgeons do not routinely use facial nerve electrodiagnostics. This may be due to a current lack of agreement on methodology, interpretation, validity, and clinical application. Electrophysiological analyses of the facial nerve and the mimic muscles can assist in diagnosis, assess the lesion severity, and aid in decision making. With acute facial palsy, it is a valuable tool for predicting recovery. Methods This paper presents a guideline prepared by members of the International Head and Neck Scientific Group and of the Multidisciplinary Salivary Gland Society for use in cases of peripheral facial nerve disorders based on a systematic literature search. Results Required equipment, practical implementation, and interpretation of the results of facial nerve electrodiagnostics are presented. Conclusion The aim of this guideline is to inform all involved parties (i.e. otorhinolaryngologist—head and neck surgeons and other medical specialists, therapeutic professionals and the affected persons) and to provide practical recommendations for the diagnostic use of facial nerve electrodiagnostics.
The objective of this study was to report the incidence of postoperative complications for partial laryngectomy and to identify patient- and tumor-related factors predictive of postoperative complications.A total of 150 patients who had a partial laryngectomy were identified from an existing database of 662 patients treated for squamous cell carcinoma of the larynx from 1984 to 1998. Postoperative complications were recorded and categorized into local, swallowing, airway, and systemic complications. Patient- and tumor-related predictors of complications were identified by univariate and multivariate analyses.There was no postoperative mortality. Twenty percent of patients developed a postoperative complication following partial laryngectomy. Local complications were the most frequent complication and occurred in 17 (11%) patients. Laryngocutaneous fistula occurred in 6 (4%) patients. Multivariate analysis showed that prior radiation was an independent predictor of local complications and laryngocutaneous fistula with a 13-fold increase in relative risk for both.Partial laryngectomy following radiotherapy was more frequently associated with postoperative complications. Problems related to local wound healing, especially the development of laryngocutaneous fistula, constituted the most common postoperative complication in these patients.
Head and neck squamous cell cancer (HNSCC) is the sixth most common malignancy reported worldwide and one with high mortality ratios among all malignancies. Unfortunately 5-year survival rate has not improved (50% overall) for the last few decades except in specialized cancer centres. Oral and HNSCC patients come at late stage due to their own delay as well as professional delay at primary and specialized care levels. Efficacious preventive strategies, educations, and early detections may have the capacity for HNSCC and potentially malignant disorders to be detected at an asymptomatic phase. For primary and secondary cancer prevention, changing lifestyle is an integral part of health promotion interventions, particularly among high risk group. Chemoprevention is an ideal one to lower the chance of getting cancer. Thus the early detection and subsequent intervention may achieve a significant reduction of mortality rate in this population.
Background: In most staging systems, 45 years of age is used to differentiate low risk thyroid cancer from high risk thyroid cancer. However, recent studies have questioned both the precise 45 year age point and the concept of using a binary cut off as accurate predictors of disease specific mortality. Methods: A cohort of 3664 thyroid cancer patients that received surgery and adjuvant treatment at Memorial Sloan Kettering Cancer Center (MSKCC) from the years 1985 to 2010 were analyzed to determine the significance of age at diagnosis as a categorical variable at a variety of age cutoffs (5 year intervals between 30 and 70 years of age). The unadjusted and adjusted hazard ratio for the association between disease-specific survival and age was determined using a Cox proportional hazards model adjusted for other predictive variables sex, histology, and pathological T, N, and M status. Furthermore, predictive nomograms of disease-specific mortality were created and validated on an external dataset of 4551 patients to evaluate the impact of age at diagnosis as both a categorical and continuous variable. Results: In the MSKCC cohort, with a median follow-up time of 54 months (range 1–332), there were 59 deaths from thyroid cancer with a 10 year disease-specific survival of 96%. Adjusted hazard ratios for all age cutoffs from age 30 to age 70 years were significant. There was no specific cutoff age which risk stratifies patients with differentiated thyroid cancer (DTC). Categorizing age into five strata (<40, 40–49, 50–59, 60–69 and >70 years) showed a 37-fold increase in hazard ratio from age <40 years to age >70 years. A predictive nomogram using age as a continuous variable with other predictive variables had a high concordance index of 96%. Validation on the external cohort had a concordance index of 73%. Conclusions: Mortality from DTC increases progressively with advancing age. There is no specific cutoff age which risk stratifies patients with DTC. A predictive nomogram using age as a continuous variable may be a more appropriate tool for stratifying patients with DTC and for predicting outcome.
Poorly differentiated thyroid carcinomas (PDTC) occupy an intermediate position at the prognostic level on the spectrum of thyroid carcinoma progression. However, their histologic definition is controversial. The objective of the current study was to assess the prognostic significance of PDTC defined on the basis of mitosis and necrosis and search for prognostic markers within this group of tumors that are predictive of overall survival (OS) and progression-free survival (PFS).PDTC was defined as thyroid carcinoma with follicular cell differentiation at the histologic and/or immunohistochemical levels and displaying tumor necrosis and/or > or = 5 mitoses per 10 high-power fields (x400). Retrospective chart review and microscopic examination identified 58 patients with primary tumors meeting the above criteria and seen at the Memorial Sloan-Kettering Cancer Center between 1992 and 2004. These 58 patients were analyzed for various histologic, clinical, and imaging parameters. Each parameter was correlated with OS and PFS.Of the 58 patients studied, 22 (38%) patients died of disease with a 5-year OS rate of 60%. Forty-three of the 58 patients (74%) developed disease recurrence or disease progression, with a 5-year PFS rate of 25%. The median follow-up for the entire patient population was 42.6 months (range, 4-205 mos). A tumor size > 4 cm was found to be correlated with a decreased PFS time (P < 0.001). Those tumors with a capsule demonstrated a significantly improved OS compared with unencapsulated tumors (P = 0.001). The extent of capsular invasion was found to be a significant adverse factor for PFS (P = 0.05). The presence of extrathyroid extension into perithyroid soft tissue was found to be correlated with a decreased OS (P = 0.001) and PFS (P = 0.004). Of 27 patients with distant metastasis, 19 (70%) had concentrated radioactive iodine (RAI) at their metastatic sites. On multivariate analysis, extrathyroid extension and tumor size emerged as the only significant variables in predicting PFS (P = 0.04 and P = 0.01, respectively) whereas extrathyroid extension was found to be the sole independent prognostic factor for OS (P = 0.01). Growth pattern and cell type did not appear to influence outcome.PDTC defined on the basis of mitosis and necrosis constitutes a group of tumors that is more aggressive and homogeneous than PDTC defined by growth pattern. Within this group of patients, microstaging (tumor size, the extent of capsular invasion, and, especially, extrathyroid extension), and not growth pattern or cell type, is able to stratify patients into different prognostic categories. RAI uptake occurs in a significant number of patients with PDTC.
