Major Salivary Glands Lecture PDF

Summary

This document presents a lecture on the major salivary glands, covering their anatomy, histology, and common pathologies. It details the function of saliva, its composition, and the various glands involved. The lecture also touches upon clinical aspects, gross procedures, and relevant considerations.

Full Transcript

MAJOR SALIVARY
GLANDS

Anatomical Techniques I
Meghan Dorrell, MHS, PA(ASCP)
 Robbins Chapter 16;
pg. 747-752
Netter plates: 18, 70,
71
READINGS:
Lester pg. 448 – 451

Hruban Chapter 7 (pg
43)
 Identify the major salivary glands and their
ducts anatomically
Differentiate between the type of salivary gland
cells to include their secretions and functions
Recognize the histological differences between
the major salivary glands
Compare and contrast common pathologies
identified in the major salivary glands
OBJECTIVES: Formulate a differential diagnosis based on
gross photos of pathology in the salivary glands
Summarize the clinical features of common
salivary disorders
Formulate a gross plan for dissecting a salivary
gland resection
Create a gross description for a salivary gland
resection
 Anatomy

Histology

Common Pathology
OUTLINE:
How to gross

CAP considerations

IOC considerations
 How many major salivary glands
SALIVARY GLANDS are there? Can you name them?

Function: produce and secrete
saliva
Digestive and protective function
Saliva solute components (0.5%):
Ions
Immunoglobulin A: decrease bacterial
infrections
Lysozyme: antibacterial enzyme
Mucin
Lingual Lipase: from minor salivary
glands
Salivary amalyse: enzyme breaks down
carbohydrates
DUCTS:

Parotid gland:
Stensen’s duct
Submandibular gland:
Wharton’s duct
Sublingual gland:
Bartholin’s duct
 PA ROT I D G L A N D

Weight: 15 – 30 grams
Located anterior and inferior to ear;
between skin and masseter muscle
Stensen’s duct- empty into oral cavity
opposite the second maxillary molar
Intraparenhymal lymph nodes
present
Produces only serous secretions, only
serous acini
PA ROT I D G L A N D - FAC I A L N E R V E

Facial nerve controls facial
movement and expression
Function can be lost/altered
secondary to parotid pathology
Divides the parotid gland into
superficial and deep lobe
SUBMANDIBULAR GLAND
Weight 7 – 15 g
Located inferior to the body of the
mandible
Wharton’s ducts empty into the floor
of mouth on both sides of the lingual
frenulum
- Sublingual caruncle
Produces serous and mucous (serous
predominates)
Received as part of Level 1B neck
dissections
SUBLINGUAL GLAND

Weight: 2- 4 g
Located inferior to the tongue and
deep to the oral cavity mucosa
Mixed mucinous and serous
(predominately mucinous)
Bartholin’s ducts empty into the floor
of mouth lateral to the sublingual
caruncle
- Sublingual fold
SALIVARY GLANDS: EMBRYOLOGY/AGING

Salivary glands are of ectodermal origin
Arise from solid epithelial buds of oral mucosa

Aging:
Generally, connective tissue diminishes with aging/maturation
Myoepithelial cell function decreases → less secretion of saliva →
dry mouth (xerostomia) → halitosis (bad breath)
Function of acinar cells decreases → altered protein content and less
saliva production
 Anatomy

Histology

Common Pathology
OUTLINE:
How to gross

CAP considerations

IOC considerations
 SALIVARY GLANDS:HISTOLOGY
Function unit: terminal branched tubulo-acinar structure of serous or mucous cells
Serous demilunes: semilunar serous cap on a mucous cell

Acinar component can produce serous, mucinous or mixed secretions
Myoepithelial cells: surround acini, mediate contractions/secretions

Serous acini:
Secrete proteins in isotonic Mucinous acini:
watery fluid (serous fluid) Produces acid and neutral
Pyramidal shaped cells: contain sialomucins
PAS+ intracytoplasmic secretory Basally located,
granules condensed nucleus
Produces zymogen enzyme
 SALIVARY GLANDS:HISTOLOGY

Ducts
- Intercalated ducts: lined by secretory cells
cuboidal secretory cells
- Striated ducts: ions are resorbed and
secreted to produce hypotonic saliva
 SALIVARY GLANDS: HISTOLOGY

Minor Salivary Glands: found in lips,
ginigva, floor of mouth (FOM), cheek,
hard/soft palate, tongue, tonsils,
oropharynx

Von Ebner glands of the tongue:
Serous acini only
Base/lateral border of tongue and
palate:
Predominantly mucinous acini
Lip, cheek, apex of tongue:
Mixed serous and mucinous
LEARNING CHECK:

1. Describe the location of the parotid gland?
2. What is the duct’s name for the submandibular gland?
3. Compare the histologic features of the parotid gland and the
sublingual gland?
4. Define a serous demilune
5. What is the relationship of the facial nerve to the parotid gland
6. Which major salivary gland will you receive with a Level IB neck
dissection?
 Anatomy

Histology

Common Pathology
OUTLINE:
How to gross

CAP considerations

IOC considerations
 Xerostomia

Sialolithiasis
COMMON
PAT H O LO GY: Sialadenitis

MAJOR SALIVARY Pleomorphic adenoma
GLANDS Warthin tumor

Mucoepidermoid Carcinoma
XEROSTOMIA
Dry mouth due to a decrease in saliva
production
Associated with:
- Sjogren Syndrome (autoimmune disorder)
- Radiation therapy of head and neck cancers
- Side effect of prescription medication
Presents as:
- Dry mucosa and/or atrophy of tongue
Complications include:
- Increase dental caries
- Candidiasis (fungal infection with candida)
- Dysphagia (difficulty swallowing)
- Dyspnea (difficulty breathing/shortness of
breath)
SIALOLITHIASIS (STONES)
Stones related to obstruction of
orifice by impacted food or local
edema after injury
Can lead to bacterial infections (MC
Staph aureus)
Leads to dilated ducts
Clinical manifestation: Pain and
swelling of gland
Morphological: necrosis and edema
of salivary gland can be present
Can lead to chronic inflammation ->
Sialadenitis (next slide)
S I A L A D E N I T I S - I N F L A M M AT I O N

Causes: trauma, viral, bacterial, autoimmune
(Sjogren syndrome)
MC viral cause is mumps
Prevalent form is mucocele (CPT 88304)
- Fluctuant swelling of lower lip with blue hue
- Due to blockage/rupture of minor salivary gland
duct
- MC inflammatory salivary gland lesion
SALIVARY GLAND NEOPLASMS
65 – 85% arise in the parotid
gland; 10% submandibular
Malignant potential is inversely
proportional to gland size
- Majority of sublingual tumors and 50%
of minor salivary gland tumors are
malignant
- Majority of parotid tumors are benign
- 40% of submandibular tumors are
malignant

MC neoplasm: Pleomorphic
adenoma
PLEOMORPHIC ADENOMA
MC salivary gland neoplasm
Benign; mixture of ductal, myoepithelial and
mesenchymal cells
Can arise from radiation exposure
Make up 60% of parotid tumors
Risk of malignant transformation increases with
time
Recurrence possible if unencapsulated
Morphology:
- round, well demarcated
- Rarely excessed 6 cm
- Cut surface: gray-white with myxoid and blue
translucent areas of chondroid stroma
PLEOMORPHIC ADENOMA: GROSS DIFFERENTIAL
White, rubbery to firm, translucent or cartilaginous
Diffuse infiltration/cystic degeneration = acinic cell or mucoepidermoid
carcinoma
Hemorrhage, necrosis, or frank invasion = carcinomas
WARTHIN TUMOR
Papillary Cystadenoma Lymphomatosum
2nd most common salivary gland tumor
Mostly arises in parotid gland, inferior pole
Benign, occur more frequently in men
8x increased risk in smokers
WARTHIN TUMOR: GROSS DIFFERENTIAL
Circumscribed, orange/tan, often cystic
Thick brown/black fluid within cyst
Cyst lined with papillary nodules
Can be multifocal and 10% can be bilateral
 Gross differential:
MUCOEPIDERMOID CARCINOMA
Low grade/intermediate grade: well
The most common primary malignant salivary gland neoplasm
circumscribed and cystic (cyst
60 – 70% occur in the parotid gland contain mucin)
Account for large fraction of minor salivary gland tumors High grade: infiltrative and solid
Pale gray-white
 Anatomy

Histology

Common Pathology
OUTLINE:
How to gross

CAP considerations

IOC considerations
 CPT: 88305

MINOR SALIVARY GLAND BIOPSY OF THE LIP
Patients with Sjogren syndrome have labial biopsy of normal appearing mucosa for diagnosis
Number of biopsies recommended:
- > 0.2 cm: at least four
- < 0.2 cm: minimum of size
3 levels are recommended

What steps would you take to
Let’s gross it! gross these mucosal biopsies?
 Why would we receive a salivary
SALIVARY GLAND RESECTION: gland resection in the gross
CPT: 88307 room?

Let’s gross it! Recommended sampling:
- Tumor to soft tissue margins
1. Orientation (if present) - Tumor to uninvolved gland
2. _________ - Tumor to any grossly identified
ducts/nerves
3. 3D measurement
- RS of uninvolved gland
4. Describe outer surface: look for large nerves - Parotid:
5. Ink the outer surface What is the rule of thumb of
how many sections of tumor to
6. Serially section perpendicular to long axis (2-3 submit?
mm)
7. Describe lesion:
8. Describe remaining uninvolved cut surface
9. Take sections
 E X A M P L E D I CTAT I O N :
Received fresh labeled “patient’s name” and “parotid” is a 10 g, 6 x 5 x 3 cm unoriented parotid
gland surrounded by adipose tissue that is 0.1 to 0.5 cm in thickness. The outer surface is roughed
with a 0.5 cm in length and 0.2 cm in diameter nerve identified. The outer surface is inked black.
Serially sectioning reveals a 4 x 3 x 3 cm firm tan white homogenous well circumscribed lesion
within the gland that is 0.5 cm from the closest soft tissue resection margin. The lesion does not
grossly involved the large nerve. The remaining parenchyma is tan yellow lobulated glandular tissue.
No lymph nodes are grossly identified. Representative sections are submitted as follows:

A1-2: Full face of lesion, bisected
A3: lesion to closest soft tissue resection margin
A4: lesion to large nerve
A5: uninvolved gland
 Anatomy

Histology

Common Pathology
OUTLINE:
How to gross

CAP considerations

IOC considerations
CAP PROTOCOL: MAJOR SALIVARY GLANDS
Per the synoptic report, what do you need to state in your gross dictation:
Procedure: parotidectomy? Submandibular? Sublingual resection?
Tumor:
- Focality
- Site
- Laterality
- Size (3D)
Macroscopic tumor extent
- pT3: Extraglandular soft tissue?
- pT4a: Facial nerve? Skin? Ear Canal? Mandible
- Pt4b: skull bases? Pterygoid plates? Carotid artery encasement?
Margin status
Lymph nodes
- If positive: size of nodal metastatic deposit, ENE?
What would be the rule for
major salivary gland tumors? An
easy way to remember it?
 KEY POINTS TO REMEMBER FROM THE CAP PROTOCOL:
Adenoid cystic carcinoma should NEVER be assigned low grade/biologic potential category (p15)
Presence of perineural invasion (neurotropism) IMPT predictor of poor prognosis in H&N cancer. (p17)
Facial nerve dysfunction and perineural involvement indicate a neck dissection, postoperative radiation
therapy and affects survival rate (p17)
Primary salivary gland carcinoma involving facial nerve associated with recurrent tumor and decreased
survival (p18)
Complete surgical excision with free surgical margin is primary mode of therapy for salivary gland cancers
(p18)
Cross section diameter of largest lymph node metastasis measured AT TIME OF GROSS is impt (p19)
Selective neck dissection is 10 or more LN; radical/modified neck dissection is 15 or more LN (p19)
Status of cervical lymph node is the single most important prognostic factor in aerodigestive cancer (p21)
Extraparenchymal extension equals clinical or macroscopic evidence of invasion of soft tissue or nerve.
Microscopic evidence alone does not count (p24) ***
 Anatomy

Histology

Common Pathology
OUTLINE:
How to gross

CAP considerations

IOC considerations
I O C C O N S I D E R AT I O N S :
Why do you think we would receive a salivary gland tumor for IOC?
ANY QUESTIONS?