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The Epidemiology of Head and Neck Cancer Scott Langevin, MHA CT(ASCP) Doctoral Candidate June 5, 2009 Anatomy of the Upper Aerodigestive Tract (UADT) • Head & neck cancer refers to cancers of the UADT: – – – – – – – Oral Cavity Pharynx Hypopharynx Larynx Nasopharynx Nasal cavity Paranasal sinuses Source: http://utahhealthsciences.net/customer/image_gallery/332/ENT_drawing.jpg Epidemiology • Head and neck cancer in the US, 2008: – 47,560 new cases (3.3% of US cancers) – 9th most common cancer – 11,260 deaths (2% of US cancer deaths) – 14th most common cause of cancer death • Globally, head and neck cancer results in: – 563,826 new cases (5.2% of world cancers) – 301,408 deaths (4.5% of world cancer deaths Survival • 60% overall 5-year survival – Virtually unchanged over past 3 decades – Varies by site Percent 5-Year Survival Site Lip Oral Cavity Oropharynx Hypopharynx Larynx Overall 85.6 56.7 50.6 33.3 62.0 Local 89.6 72.0 61.0 56.0 74.3 Regional 82.7 43.8 50.6 34.6 53.2 Distant 40.0 35.2 30.2 12.9 38.3 Source: Carvalho et al. Trends in incidence and prognosis for head and neck cancer in the United States: a site specific analysis of the SEER database. 2005. Stage at diagnosis by site 90.0 80.0 70.0 Local 60.0 Regional 50.0 Distant 40.0 30.0 20.0 10.0 Larynx Hypopharynx Oropharynx Oral Cavity Lip 0.0 Common Types of Head & Neck Cancer • Head and neck cancer is a heterogeneous category of malignancies • 90-93% are head and neck squamous cell carcinomas (SCCHN) • 3-6% are nasopharyngeal carcinomas (NPC) • 1-3% are salivary cancers Squamous Cell Carcinoma of the Head and Neck (SCCHN) Clinical Presentation & Treatment • Currently no proven screening method except visual examination • Symptoms: hoarseness, dysphagia, odynophagia, ulcerations, bleeding • 1st line treatment modalities: – Early stage: surgery (preferred) or radiation – Advanced stage: typically surgery + chemoradiation • Currently Cisplatin is treatment of choice, alone or in combination • EGFR inhibitors are in trials (cetuximab) Epidemiology • 93% of head and neck cancers are SCCHN • Median age at diagnosis = 62 years – Although, incidence in adults < 45 increasing • Particularly for base of tongue and tonsillar SCC • Men are 2.78 times as likely to develop SCCHN – 2.59 times as likely to die from it • Higher incidence in African-Americans – Poorer 5-year survival (16-20% lower) Prognostic Indicators • TNM stage (higher = worse) • Cervical nodal involvement is one of the strongest predictors (50% reduction in survival) – 2/3 SCCHN patients present with cervical mets – 10% present with distant mets – Extracapsular spread (ECS) further reduces survival • Other predictors – – – – – Nodal burden Perineural invasion Histologic grade Extent of necrosis Positive tumor margins Recurrence and Second Primaries • > 50% of patients with locally advanced SCCHN experience recurrence within 2 years • 2nd primaries occur in 15% of SCCHN patients at a rate of 3-5% per year • Tumor recurrence or development of a second primary is a major reason for treatment failure and adversely impacts long-term survival Tobacco • IARC classifies cigarette smoking as a Group 1 carcinogen and a causal factor for SCCHN • Linear dose-response for smoking & SCCHN – Duration > intensity, although both matter – 3- to 10-fold increase in risk for smokers vs. nonsmokers – 5- to 25-fold increase in risk for heavy smokers vs nonsmokers • Other forms of tobacco are also associated with SCCHN (pipe, cigar, chew) • Tobacco use also associated with 2nd primary SCCHN Source: Sturgis et al. Cancer. 2007. 110(7): 1429-35 Carcinogenic Effect of Tobacco • > 60 carcinogens identified in tobacco smoke • Polycyclic aromatic hydrocarbons (PAH) are most potent in burnt tobacco • Nitrosamines and their metabolites are most potent in smokeless tobacco • Main effect is via DNA adduct formation -> mutations Alcohol (EtOH) • IARC classifies consumption of alcoholic beverages as causal for SCCHN • Contributive factor in ~75% of SCCHN • Dose-response effect – 50 g EtOH/day is associated w/ 2- to 3-fold increased risk relative to non-drinkers – Heavy drinkers (> 100 g/day) = 4- to 6.5-fold increase compared w/ non-drinkers • Also associated w/ 2nd primary SCCHN Carcinogenic Effect of EtOH • Main effect derived from acetaldehyde, the primary metabolite – Forms DNA adducts and interferes w/ DNA synthesis and repair – High levels of acetaldehyde in saliva of alcoholics w/ SCCHN • EtOH metabolized by bacterial enzymes – Poor oral health = increased acetaldehyde levels Cigarette & EtOH Synergy • There is an interaction between EtOH and smoking, as it relates to SCCHN – The combined effect is multiplicative of the individual effects alone • Combined use accounts for 73% of SCCHN • EtOH acts as a solvent for tobacco carcinogens • Smoking results in a shift in oral flora leading to increased acetaldehyde concentrations Human Papillomavirus (HPV) • 25% of SCCHN associated w/ HPV – 45-60% of oropharyngeal tumors, especially palatine and lingual tonsils • In contrast, 10% HPV+ in normal OP mucosa • 90-95% of HPV+ tumors are HPV16+ • HPV positive tumors represent a distinct clinical subset of tumors – Patients are younger, less likely to smoke/drink – Tumors are more likely basaloid and poorly diff – Better prognosis HPV Oncogenic Effect • Primarily stems from action of E6 & E7 viral oncoproteins – E6 binds and inactivates p53 tumor suppressor • Loss of p53 mediated apoptosis – E7 binds and inactivates pRb tumor suppressor • Loss of G1-S phase checkpoint • p16 overexpression is a surrogate marker for HPV-mediated SCCHN Other Risk Factors • Environmental/Occupational – Indoor air pollution • Wood smoke or heating/cooking with fossil fuels – Chronic second-hand tobacco smoke exposure • 1.5- to 5-fold increase in risk – Metal working – Exposure to toxins during mustard gas production • Diet – High in animal fat, low in fruits and vegetables associated w/ increased risk of SCCHN – Low folate intake may also be associated • Gastroesophageal reflux Field Cancerization • The epithelium is chronically exposed to environmental carcinogens – Particularly true of smokers/drinkers • Mutations that confer a growth/survival advantage are clonally selected – Gradually replace normal epithelium – New mutations occur within these fields giving rise to subclones; eventually can become malignant – Can give rise to distinct but clonally related tumors – Evidenced by mutations/alterations in “negative” margins • This helps explain high recurrence/second primary rate of SCCHN Nasopharyngeal Carcinoma (NPC) Nasopharyngeal Carcinoma (NPC) • Arise from the epithelial lining of the nasal cavity/nasopharynx • Results from the interplay of environmental, genetic and viral risk factors • 70-75% present with ear & nasal symptoms • 75% present with painless, enlarged cervical nodes Treatment • Radiation or chemoradiation is typically the 1st line of therapy – NPC is radiosensitive – Difficult to operate on nasopharynx • thus surgery is not generally used as 1st line therapy for primary tumor – Surgery is used to remove cervical nodes with metastatic disease NPC Classification • WHO classifies NPC into 3 types: 1. Keratinizing SCC (type I) 1. • • Believed to be of a distinct etiology from types II & III Dominant type in low incident regions 39.4% of US NPC 2. Non-keratinizing SCC (type II) • • 5% of high-incident regions 25.0% of US NPC 3. Undifferentiated SCC (type III) • • 95% of high incident regions 14.0% of US NPC * 21.6% of US NPC are diagnosed as Carcinoma, NOS Incidence & Mortality • 80,000 cases with 50,000 deaths annually – < 1 per 100,000/year incidence – 23rd most common cancer in the world • 2-3 fold higher risk for males:females • Broad racial/ethnic and geographic variation – 4th most common cancer in Hong Kong • Highest incidence in Asian, N African/Mid east, and Arctic populations Migrant Studies • After migration, risk remains high – Chinese in US have 10-20 fold increased risk compared to US Whites and Blacks – However, Chinese immigrants have ½ the risk of their counterparts in China – Conversely, Whites born in China or Philippines have an increased risk for NPC compared with US • Suggests both environmental and genetic components NPC Incidence and Age US incidence by age • Monotonic increase with age • Secondary peak from 55-59 yo Hong Kong incidence by age • Peak age at 50-59 yo Source: Chang et al. Cancer Epidemiol Biomarkers Prev. 2008;15(10):1765-77 NPC Prognosis • Overall 5-year survival of 65% (US) – Local: 80-90% – Regional: 50-70% – Advanced: poor • Varies by type: – Undifferentiated (type III) has best prognosis due to high radiosensitivity – Keratinizing (type I) have worst prognosis • more radioresistant Epstein-Barr Virus (EBV) & NPC • Member of the herpesvirus family • Transmitted chiefly via saliva • Primarily targets B lymphocytes but also infects oropharyngeal tissue • EBV DNA detected in ~100% of type II and III NPC – Type I is not as consistent – Also detected in NP dysplasia EBV Prevalence • > 90% of the world population is EBV seropositive (mostly latent infection) • Geographic variability in when infection occurs – Hong Kong: • 80% of kids infected by age 6 • ~100% by age 10 – US: • 50% of kids infected by age 5 • 95% of adults infected by age 40 • Tends to occur earlier in developing countries – Likely due to crowding and less hygienic conditions • 30-50% adults develop mononucleosis after primary infection – Usually latent in children EBV & NPC • Early-life EBV infection increases risk • EBV appears to be a necessary but insufficient cause of cancer – Most people are infected; only a small minority get the disease • EBV most likely interacts with genetic and environmental risk factors in NP carcinogenesis Environment EBV Genetics NPC Salt-Preserved Fish & Meat • Strongest non-viral risk factor (especially fish) • Associated with type II & III – Weekly consumption: 1.4-3.2 fold increased risk – Daily consumption: 1.8-7.5 fold increased risk • Childhood exposure increases risk > adult – Traditional weaning food in China • Salt is an ineffective preservative – Partial putrification – Contains: • • • • Nitrosamines (also found in tobacco) Bacterial mutagens Genotoxins EBV reactivating compounds Smoking • 2-6 fold increased risk of NPC – Particularly true for Type I – 2/3 of Type I attributable to smoking • IARC classifies smoking as a Group I carcinogen – Sufficient causal evidence for NPC Occupational Exposures • Nasal cavity is the primary initial site of fume exposure • Difficult to study due to (relatively) rare exposures • Occupational exposures associated with NPC: – Formalin • 2-4 fold increase in risk • Although not consistent across all studies • Supported by evidence from animal studies – Heat/combustion exposures – Wood dust – Chlorophenols Other Risk Factors • Fruit & vegetable consumption (protective) • Prior hx of chronic ENT or respiratory infection – 2-fold increase in risk • Family hx of NPC – 4-10 fold increased risk for 1st degree relative hx • Some HLA and xenobiotic metabolism alleles have been associated with NPC Salivary Gland Cancers Salivary Gland Cancers • 1-3% of head and neck cancers • Incidence: 2 per 100,000 people/yr – Incidence is rising in US • Mean age is 64 yo – 2/3 occur in people > 55, although occur at all ages • Heterogeneous group of malignancies – WHO lists 18 histologies Site of Origin • Major salivary glands: 95% of cancers – 80% occur in the parotid • 20% of parotid tumors are malignant – 10% occur in the submandibular gland • > 50% are of submandibular tumors are malignant – 5% occur in the sublingual glands • > 50% of sublingual tumors are malignant • Minor salivary glands – Cancers mostly occur in the oral cavity, nasopharynx or nasal cavity Clinical Presentation & Treatment • Present as fixed, painless lumps or swelling, with trismus, or facial nerve weakness – May present with or without lymphadenopathy • Surgery is the primary treatment modality – May be combined with radiation • Stage and grade correlate well with prognosis • After primary treatment, 50% experience local, regional, or distant mets 5-year Survival by Stage at Diagnosis 100% 96% 90% 77% 80% 73% 70% 60% 50% 37% 40% 30% 20% 10% 0% I II III IV Salivary Gland Cancers • Major risk factors: – Radiation – Mixed results for occupational exposures • Because it is relatively rare, there are few epidemiologic studies available with adequate statistical power to identify associations Mucoepidermoid Carcinoma (MEC) • • • • Most common: 30-35% of salivary tumors Usually involves major salivary glands 3:2 female:male ratio Mean age of diagnosis is in 5th decade – Occurs at all ages – Most common salivary malignancy in children MEC Prognosis • 30-70% present with nodal involvement • 10-20% present with distant mets • Grade correlates well with prognosis – High grade: < 50% 5-year survival – Low grade: 95% 5-year survival • Recurrences are mostly locoregional but can metastasize (lung, bone) Adenoid Cystic Carcinoma (ACC) • 2nd most common salivary cancer • Occurs in both major and minor glands – Most common minor salivary malignancy • 3:2 female:male ratio • 4th – 6th decade is the peak occurance – But occurs at all ages ACC Prognosis • Patients initially do well but do poorly long term – 5-year survival = 89% – 15 year survival = 40% • Local control w/ surgery & radiation = 85% • Tends to recur up to several years later as systemic mets – 30-50% experience distant mets – Rarely mets to regional lymph nodes • Often associated with perineural invasion Adenocarcinomas • Acinic cell carcinoma – Most occur in the parotid – Generally slow growing – Usually low grade but depth of invasion into adjacent tissue is a better predictor of prognosis • Polymorphous low-grade adenocarcinoma – Occurs in minor glands; good prognosis • Adenocarcinoma, NOS – Poor 5-year survival (< 50%) Rare Adenocarcinomas • Typically low grade (good prognosis): – Basal cell adenocarcinoma – Clear cell adenocarcinoma – Cystadenocarcinoma – Sebaceous adenocarcinoma – Mucinous adenocarcinoma • Typically high grade (poor prognosis) – Oncocytic adenocarcinoma – Salivary duct carcinoma Malignant Mixed Tumors • Tend to occur in the major glands • Prognosis depends upon grade 1. Carcinoma ex pleomorphic adenoma – Account for the majority of MMTs 2. Carcinosarcomas 3. Metastasizing mixed tumor very, very rare Other Salivary Malignancies • Squamous cell carcinoma • Epithelial-myoepithelial carcinoma • Anaplastic small cell – Minor glands; quick growing • Undifferentiated carcinoma (poor outcome) – Large cell undifferentiated – Lymphoepithelial carcinoma • Higher incidence in Inuits Questions