1. What Every Surgeon Should Know About Head and Neck Surgery
David P Goldstein MD FRCSC
Otolaryngology-Head & Neck Surgery
Surgical Oncology
University Health Network

2. Objectives
Focus on approach to evaluation and management of a neck mass and Parotid masses
Briefly highlight key issues in diagnosis & management of following types of neck mass
Congenital disorders
thyroglossal duct and branchial cleft cyst
Salivary gland masses
Carotid body tumor
Squamous cell carcinoma

3. Differential Diagnosis
Congenital
Thyroglossal duct cyst
Branchial cleft cyst
Lymphangioma
Inflammatory
Infectious
Non-infectious
Neoplastic
Primary malignancies
Metastases to nodes

4. Approach to the Differential Diagnosis of Neck Masses
Age
Location, Location, Location
Duration of symptoms
Risk factors
Contents of neck mass

5. Differential Diagnosis
Age is a major determinant
< 20 years – C I N
20 – 40 years - I C N
> 40 years - N I C
C= congenital
I= inflammatory
N= neoplastic

6. Location Anterior Triangle Posterior Triangle Anterior- midline
Posterior- SCM
Inferior- clavicle
Superior- mandible
Posterior Triangle
Anterior- post border of SCM
Posterior- trapezius
Superior- junction of SCM & trapezius

7. Differential of Congenital Neck Masses Based on Location
Midline
Congenital
Thyroglossal duct cyst
Dermoid
Lateral Neck/Ant Δ
Branchial cleft cyst
Thymic cyst
Posterior Neck Δ
vascular/Lymphatic malformation
Beware of the cystic neck mass in an adult

8. Differential Diagnosis of Neoplastic Neck Masses based on Location
Midline Anterior Δ
Thyroid
Larynx cancer
Direct extension
Metastasis
Posterior Δ
Benign
Schwanomas
Malignant
Lymphoma
Nodal metastasis
Skin
UADT
Non H & N
Lateral Anterior Δ
Benign
Schwanomas
CBTs
Salivary gland
Malignancies
Lymphoma
Nodal metastasis
UADT
Skin
Supraclavicular nodes (virchow nodes)
Classically represents nodal metastases from below the diaphragm

9. Differential Based on Growth Rate
Slow growing over years
Tend to be benign or low grade malignancy
Rapidly growing neck masses
Infectious
Malignant – tend to progress over period of weeks to a few months

10. Cystic Neck Mass Congenital Squamous cell cancer Thyroid Cancer
Thyroglossal duct cyst
Branchial cleft cyst
Squamous cell cancer
Oropharyngeal/ tonsil primary
Thyroid Cancer
WDTC present with cystic mass
Classically has dark brown appearance
Tail of parotid masses
Warthin’s tumor

11. Necrotic Neck Mass Infectious Malignant Abscess Tuberculosis
Squamous cell carcinoma

12. Work-Up of a Neck Mass History Physical Diagnostic Imaging Biopsy
Inspection
Palpation
Endoscopy
Diagnostic Imaging US CT
MRI
PET
Biopsy
FNA
Other
Intraoperative endoscopy
TB test

13. History Keep the differential diagnosis in mind
Duration & growth rate of the mass
Malignant lesions tend to have progressive growth at more rapid rate than benign disease
Location
Anterior, posterior or midline
Symptoms of inflammation or infection
Malignant neck masses with necrosis and skin involvement may mimic invasion
Associated symptoms
Dysphagia, odynophagia, otalgia, hoarseness, oral cavity pain, nasal obstruction, epistaxis
Suggests UADT malignancy
B symptoms – fever, weight loss & night sweats
Risk factors
Malignancy
TB exposure
Cat scratch

14. History Past medical history Family history Skin cancer
UADT malignancy
Sarcoidosis
Fungal infection
Dental caries/dental work
Trauma to head and neck
Family history
Thyroid cancer
Paragangliomas

15. History- Risk Factors for Malignancy
Tobacco
Cigarettes, chew, betel nut, cigar
Alcohol
Two together are synergistic
Viruses
HPV- oropharynx cancer
EBV- nasopharynx cancers
HIV- kaposi’s sarcoma, lymphoma
Immunosupression
Transplant patients- Skin cancers, head and neck cancer
Occupational
Wood working, leather work – paranasal sinus cancer

16. Risk Factors Cont’d Previous head and neck cancer Radiation exposure
Develop second cancer in 18% of patients
Radiation exposure
Salivary gland cancers, thyroid cancer, head and neck sarcomas
Autoimmune disorders
Sjogren’s syndrome
lymphoma of salivary glands
Hashimoto’s thyroiditis
thyroid lymphoma

17. Physical Examination Neck mass Location Size Firmness Fixation
Pulsatile
Presence of other neck masses or enlarged nodes
Movement with tongue protrusion
Auscultate for bruits if pulsatile

18. Investigations
If diagnosis of infectious or inflammatory is probable no further work up is necessary and appropriate therapy instituted
Suspected inflammatory disorders may require serologic tests
If there is any uncertainty in diagnosis or the suspected diagnosis is congenital or neoplastic further investigations are required
When in doubt on your exam – do further investigations

19. Fine Needle Aspiration
Diagnostic accuracy 70% to 90%
Simple/ cost effective
US guidance increases yield & accuracy
Indication – almost any neck mass
Only relative contraindication to FNA is pulsatile neck mass
MOST IMPORTANT TEST- WHEN IN DOUBT PERFORM

20. Fine Needle Aspiration
Diagnose most head and neck cancers
Suspect lymphoma
Send for flow cytometry
Cystic neck mass
Send washings
Stain for thyroglobulin
Still a role for FNA in infectious and inflammatory disorders
C & S
Presence of pus does not necessarily exclude malignancy
Squamous cell carcinoma can present with necrotic nodes

21. Open Biopsy Almost NO role in the initial work-up of a neck mass
Contraindications
Pulsatile masses
Parotid masses
Suspected malignancies and FNA not been attempted
When to do
Only after work-up is completed including FNA and diagnosis is still in question
FNA is non-diagnostic
FNA is negative but not in keeping with clinical picture

22. Open Biopsy Situations in which may be indicated Lymphoma
FNA is suspicious for lymphoma & further tissue needed
Cystic neck mass
FNA often inconclusive
Send cyst fluid for cytology
Do full work-up prior to open biopsy
Imaging and panendoscopy of UADT

23. Open Biopsy Incisional vs excisional biopsy
Depends upon size, location and involvement if surrounding structures and suspected pathology
Keep in mind future surgery/neck dissection
Make the incision in line with potential incision one would use if further neck surgery is required

24. Diagnostic Imaging Plain films Ultrasound/Doppler CT scan & MRI
Limited role
CXR
Ultrasound/Doppler
Useful noninvasive test
Vascularity
Solid vs Cystic
Sensitive for adenopathy
Guided FNA
CT scan & MRI
Location
Relation to other structures
Vascularity
Bone invasion
MRI for soft tissue
Tongue
No dental artifact
MRA/MRV

25. MRI
Soft tissue
No dental artifact – oral & oropharynx
Bone invasion

26. CT scans
Bone imaging
Soft tissue imaging
Dental artifact

27. The Pulsating Neck Mass
Differential Diagnosis
Non-vascular mass situated near carotid artery
Carotid body tumor (paraganglioma)
Carotid artery aneurysm
Work-up
Image first
CT with contrast or MRI
If confirmed vascular mass get MRI (MRA & MRV)
Avoid FNA but not end of world
Incisional biopsy contraindicated

28. Presentation & Management of Specific Diagnosis

29. Thyroglossal Duct Cyst
Presentation
May occur at any age but most common in first 2 decades of life
Midline at level of hyoid to thyroid, may be off centre
May have hx of infection
Classic sign is rising with tongue extrusion
Diagnosis
History & Physical
Imaging

30. Thyroglossal Duct Cyst
Cautions
May have papillary ca arising in thyroglossal duct cyst – rare but I perform FNA
Cystic nodal metastasis from papillary thyroid ca to delphian node may have similar presentation
Treatment
Excision – sistrunk procedure (remove cyst with track up to tongue base including central portion of hyoid bone)
Cosmetic and prevent recurrent infection

31. Branchial Cleft Cyst Presentation Treatment
mass along the anterior border of the SCM +/- a sinus tract
Smooth painless slow growing unless infected, may fluctuate in size
Treatment
Surgical excision with removal of the tract
Nerves at risk – CN IX, X, XI XII

32. Lymphoma hx of lymphadenopathy – non-resolving
B symptoms – fever, night sweats, weight loss
nodes soft mobile and rubbery, may be very large “bull neck”
Diagnosis
FNA- special solution & adequate amount
Open biopsy- after FNA & lymphoma suspicious clinically
must be sent fresh
immunophenotyping & flow cytometry

33. Carotid Body Tumor Carotid body tumors (Paraganglioma)
Arise from carotid body located at bifurcation between ICA & ECA
Familial in up to 30%
Bilateral or multiple
Diagnosis
Classic imaging characteristics
Vascular mass splaying ICA and ECA – lyre’s sign
MRI get salt & pepper pattern from the flow voids

34. Carotid Body Tumor Treatment Excision
Proximal and distal control of CA
Prepared to bypass
Complications
Vascular injury
Stroke
CN injury – CN IX,X,XII

35. Squamous Cell Carcinoma
FNA Dx of SCC
Primary detected
No Primary identified; Aka unknown primary
Stage tumor
Imaging to stage the neck disease and help identify the primary source
Primary Identified
Treat primary tumor
Treat neck
Panendoscopy in OR with biopsies of tongue base, hypopharynx, nasopharynx and unilateral tonsillectomy
Treat neck and potential primary sites with radiation

36. Squamous cell carcinoma General Management Principles
Staging
Hx, Px (flex scope)
Imaging
CT Head and neck
MR for tongue/tongue base
Chest CT r/o synchronous primary
Panedoscopy/Quadroscopy (EUA under GA)
Esophagoscopy, Bronchoscopy, Laryngoscopy, +/- nasopharynx
Used for cancers of larynx, hypopharynx and +/- oropharynx
Assess the extent of the tumor & surgical resectabilty
Obtain biopsy specimens
Assess for 2nd primary

37. Squamous cell carcinoma General Management Principles
Treatment Options
Surgery
Radiation
Chemotherapy
Combination of both
Rads or chemo can be given pre- or post op
Treat the primary site and the cervical lymph nodes
Try and treat cervical lymph nodes with the same modality of therapy used for the primary site

38. How do we decide which treatment to offer
Provide the treatment that will offer the highest survival & control rate
based on literature
Early stage disease often similar
Advanced disease usually combination
QOL and morbidity
Organ preservation (larynx, hypopharynx)
Preserve form and function (oropharynx
Swallowing, speech, cosmesis

39. Goals of Treatment Cure Palliation Local regional control Survival
Pain
Bleeding
Cosmesis

40. Squamous cell carcinoma General Management Principles
Oral cavity – surgery
Oropharynx (tonsil, tongue base)- radiation or chemoradiation
Hypopharynx cancer – radiation or chemoradiation
Larynx- transoral laser surgery for small tumors, radiation or chemoradiation for most
Nasopharynx- chemoradiation or radiation

41. Adenocarcinoma
FNA diagnosis of adenocarcinoma in the neck – from a distant site
Lung, breast, GI, GU
May require an open biopsy to get more tissue for analysis to help identify site
Image chest, abdo, pelvis
Rarely treat the neck b/c metastatic disease - palliative therapy to prevent obstruction of trachea or esophagus
Neck dissection - Only if primary site is controlled and patient is potentially curable

42. Salivary Gland Masses Major Salivary Glands Minor Salivary Glands
Parotid- 80%
(80%benign:20%malignant)
Submandibular 15% (50:50)
Sublingual (40:60)
Minor Salivary Glands
Oral cavity/ oropharynx
Larynx
Nose & paranasal sinuses

43. Classification Hemangiomas Vascular malformations
Lymphatic malformations
1st Branchial cleft cyst

44. Classification HIV TB Atypical TB Actinomycosis Cat-Scratch
Toxoplasmosis
Tularemia
Fungal

45. History & Physical Exam
Majority of neoplasms (benign or malignant) present as asymptomatic swelling
Risk factors for malignancy
Majority idiopathic
Ionizing radiation
Sjogren’s syndrome
Lymphoma
Skin cancers

46. Clinical Presentation of Cancers
Pain
Fixation & invasion of surrounding structures i.e. dermis, mandible
Trismus
Facial nerve paralysis
Adenopathy

47. Facial Nerve Paralysis with a Parotid Mass
Very rarely occurs with benign tumors
12% to 15% parotid malignancies will exhibit facial paralysis
Pathologies
Adenoid cystic carcinoma
Poorly differentiated carcinoma
SCC

48. Lab Tests Biopsy Serology if suspect auto-immune process
FNA – mainstay
Open biopsy
Very rarely indicated for parotid masses: AVOID in most cases

49. Fine Needle Aspiration
Debate about utility of FNA in parotid masses
Among all H & N sites the parotid gland is associated with the highest FNA inaccuracy rates
False negative rates higher then false positive
Sensitivity rates reported can be as low as 38% when comes to recognizing malignant nature of parotid masses
Diagnostic precision is difficult
Determine high vs. low grade tumors is also difficult

50. Why do an FNA? Accuracy in determining benign from malignant disease
Rates of ~ 90%
It may help in planning surgery especially informed consent
It may help in timing of surgery in resource restricted climate
Change clinical approach in up to 30% of patients
Results interpreted in the face of the clinical presentation and imaging

51. Diagnostic Imaging CT Scan and/or MRI
Ultrasound
Identifying a mass
Guide FNA
Assessing adenopathy
Technitium-99m Scan
Diagnosis of Oncocytoma or Warthin’s tumor
Sialography
Rarely used
Little role in routine work-up of a parotid mass
CT Scan and/or MRI
Main modalities for imaging parotid neoplasms

52. Value of Imaging Know what you are getting into Malignancy
“tip of iceberg” with deep lobe involvement
Approach
Malignancy
Resectability
Skull base
Structures requiring resection
Nodal status
Facial nerve status
Adenoid cystic carcinoma- proximal portion

53. Common Pathologies Benign Malignant Pleomorphic adenoma
Malignant degeneration into carcinoma ex-pleomorphic adenoma in 2-10% of pleomorphic adenomas
Warthin’s tumor
10% bilateral
Malignant
Mucoepidermoid carcinoma
Adenoid cystic carcinoma
Metastases from skin cancers

54. Prognostic Factors with Malignancy
Histology
High Grade Malignancies
Older Age
Pain at presentation
Stage of primary tumor & nodal metastases
Skin invasion
Facial nerve dysfunction
Peri-neural growth
Positive margins

55. Malignant Secondary Neoplasms
Direct extension
Cutaneous SCC/BCC
Lymphatic metastases
SCC
Melanoma
Hematogenous
Metastases
Lung, Kidney, Breast
Direct extension
Metastatic SCC

56. Factors in Decision Making
Patient factors
Age
Co-morbidities
Patient’s concerns
Tumor Factors
Histology
Benign vs malignant
Do you have a diagnosis & how certain are we
Growth rate
Risk factors for malignancy

57. Surgery Majority can be managed with a superficial parotidectomy
Subtotal parotidectomy
Involvement of deep lobe
Parotidectomy and transcervical approach to parapharyngeal space tumours

58. Surgical Complications
Temporary VII nerve paresis=21%
Frey’s syndrome=6%
Infection=3.6%
Hematoma=2.7%
Hypertrophic scar=2.4%
Seroma=0.8%
Salivary fistula=0.4%

59. Indications for Post-operative Radiotherapy
High grade cancers
Recurrent cancers
Gross or microscopic residual disease
Regional lymph node metastases
Evidence of locally advanced tumors

60. Thyroid Cancer

61. Epidemic of Thyroid Cancer
3.6 per in 1973 → 8.7 per in 2002
represents 2.4 fold increase
Davies, L. et al. JAMA 2006;295:

62. Thyroid Malignancies Well-Differentiated Carcinomas (80-85%)
Papillary Thyroid Carcinoma (PTC)
Follicular Thyroid Carcinoma (FTC)
Medullary Thyroid Carcinoma (5-10%)
Anaplastic Thyroid Carcinoma (5-10%)
Other malignancies
Lymphomas
Distant Metastases

63. Well-Differentiated Thyroid Carcinoma
Papillary Thyroid CA
75-80% of thyroid carcinomas
Frequently Multifocal
Dx on FNA or FS
Common Nodal Dz
Infrequent Distant Dz
Slightly Better Prognosis
Follicular Thyroid CA
5-10% of all thyroid carcinomas
more aggressive natural history
Solitary Lesion
Dx on final path
Infrequent Nodal Dz
Common Distant Dz
Slightly Worse Prognosis

67. Medullary Thyroid Carcinoma
C - cell/parafollicular cell origin
May be sporadic/nonfamilial (80%) or familial (20%)
Familial forms
Medullary thyroid carcinoma alone
MEN 2A (Sipple’s)
MTC, Pheochromcytoma, Hyperparathyroidism
MEN 2B
MTC, Pheochromocytoma, Mucosal Neuromas,
Mutations on chromosome 10 for the RET proto-oncogene
Regional lymph node metastases - 50%
Distant metastases

69. Medullary Thyroid Carcinoma
Diagnosis / Screening
Pentagastrin Stimulation with measurement of calcitonin levels
Ret proto-oncogene screening
Patients who screen positive should undergo early thyroidectomy
Early intervention has resulted in 85% DFS at years
Serum calcitonin levels are used as a tumor marker in follow-up

70. Medullary Thyroid Carcinoma
Treatment
exclude pheochromocytoma
total thyroidectomy
central compartment lymphadenectomy
elective lateral neck dissection for patients with palpable thyroid disease
therapeutic lateral neck dissection for patients with palpable neck disease
Adjuvant external beam radiation may be used to enhance locoregional control
The role of chemotherapy remains to be defined

71. Anaplastic Carcinoma
Rare tumor noted for its rapid growth and nearly uniform lethal nature
Typically develops in a pre-existing well differentiated thyroid carcinoma or a goiter
Poor prognostic factors
Advanced age
Presence of regional or distant metastases

72. Lymphoma of Thyroid Gland

73. Thyroid Nodules Approximately 95% of thyroid nodules are benign
4-7% of adults have thyroid nodules
Women > men
Likelihood of malignancy=5%
Malignancy in clinically apparent nodules=20%

74. Work-up of Thyroid Nodule
History
exposure to ionizing radiation
family history of thyroid carcinoma or other endocrine neoplasms (MEN syndromes)
Physical examination
Vocal cord paralysis
Fixed and firm
Cervical nodes

75. Investigations FNA Thyroid U/S TSH
No role for calcitonin, thyroglobulin and thyroid scintigraphy in the initial work-up

76. FNA FNA (R-A) Repeatedly Nondiagnostic (R-A)
Indeterminate Cytology (suspicious, follicular lesion or neoplasm)
Benign
Follicular lesion
“Suspicious” for papillary ca or Hurthle cell neoplasm
Cystic nodule
Solid nodule
Thyroid scan
Among solitary nodules with in determinant (“suspicious”, follicular neoplasm or Hurthle cell neoplasm) risk of malignancy is ~ 20%
Procedure of choice in the evaluation of a thyroid nodule (Recommendation A)
Cold (R-B)
Hot
Surgery strongly considered
Surgery (R- A)
Observation or surgery
Follow (R-A)

77. Risk-group Definitions
AGES
A – age (> 40)
G – grade
E – extent of tumor
extrathyroidal invasion
distant metastases
S – size
Other TNM & MACIS
AMES
A – age(M>40,F>50)
M – metastases (distant)
E – extent of tumor
S – size

79. Treatment Surgery Post-operative radioactive iodine
Post-operative thyroid suppression
External beam radiation
Post-operative screening

80. Total vs Less than Total Thyroidectomy
Eliminates all cancer and potential cancer (up to 50% CL)
Allows RAI
Allows monitoring with thyroglobulin
Deals with tall cell and insular Ca & prevents transformation of PTC to anaplastic ca
No compelling evidence for survival advantage
Difficult for RAI
Thyroglobulin not possible
Spares the parathyroids & RLN

81. Hemi vs Total Thyroidectomy
Low risk disease
Controversial
R.R decreased with total thyroidectomy
Some studies shown no difference
High risk patients
Local & regional RR lower in total thyroidectomy
Possibly improved cause specific survival

83. Complications of Thyroidetcomy
Hypoparathyroidism
Temp vs Permanent
Recurrent Laryngeal Nerve Injury
Unilat vs bilat
Temp vs Perm

84. Complications Post-operative hematoma Concern re: airway
Prevent obstruction with incomplete strap muscle reapprox inferiorly
Drains do not prevent
Management
Airway emergency
Open at bedside if patient in resp distress
To OR

85. Neck Management Clinically negative neck no neck dissection
Nodal metastases at presentation
Do not adversely affect survival
Does increase risk of locoregional recurrence
80% of nodal metastases are central compartment
Lateral ND only if clinically positive nodes or identified intra-op
Functional neck dissection level II-V
Spare IJV, SCM, CN XI, cervical plexus

86. Radioactive Iodine Agent - I131 Effect Goal of therapy Complications
Scan
Thyroid ablation
Therapeutic
Complications
Short term
Long term

87. Radioactive Iodine
Only useful in cases of well differentiated thyroid malignancies
Results
Overall efficacy difficult to clearly delineate
Studies have shown decreased locoregional recurrences and increased survival in some series
Less efficacious in unresectable disease
Pulmonary metastases respond better than bony metastases

88. Thyroid Nodules in Pregnancy
Uncertainty if nodules in pregnancy are more likely to be malignant than those found in non-pregnant women
No population based studies
Recommendations (C)
FNA unless low TSH
Malignancy- follow with U/S
Significant growth by 24 wks gestation
surgery can be performed at that time point
Remains stable or diagnosed in 2nd half of pregnancy
surgery may be performed after delivery
Low TSH
if persists after 1st trimester
thyroid scan after pregnancy
Evaluation is the same except no RAI scan