salivary glands

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Glands classification
Salivary gland classification
Anatomy of salivary glands
Development of salivary glands
Histology
Difference between serous & mucous acinus
Imaging
Disorders
references

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EXOCRINE: duct present
ENDOCRINE: no duct
secrete hormones directly into the blood.
GLANDS OF THE BODY:

CLASSIFICATION OF THE SALIVARY
GLANDS:
SALIVARY GLANDS – EXOCRINE
(COMPOUND TUBULOACINAR)
- MEROCRINE GLAND
BASED ON THE SIZE:
MAJOR - extraoral
MINOR - intraoral
BASED ON THE NATURE OF SECRETION:
SEROUS
MUCOUS
MIXED
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• Serous secretion
• Solubilze substances -
stimulate the taste cells
around circumvallate
papillae
LINGUAL GLANDS:
GLANDS OF BLANDIN & NUHN:
• Mucous
• Ventral aspect of tongue
WEBERS GLAND:
• Pure mucous - posteriorly

 Largest
 Wt – 15g
 a three sided pyramid
 4 surfaces & 3 borders.
 With apex directed
downwards.
 Accessory parotid – a part of
forward extension, often
detached.
PAROTID GLAND
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1. Superficial Temporal
vessels.
2. Auriculotemporal n.
3. Cartilaginous part of
External Auditory Meatus.
4. Temporal branch of Facial
n.
SUPERIOR SURFACE:
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RELATIONS:

1. Ramus of the mandible.
2. Masseter muscle.
3. Medial pterygoid muscle
ANTERO-MEDIAL SURFACE
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1. Mastoid process
2. Sternocleidomastoid
3. Posterior belly of Digastric
4. Styloid process and the
muscle & ligaments
attached to it.
5. Internal carotid artery &
Internal jugular vein.
POSTERO-MEDIAL SURFACE
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1. Cervical branch of Facial n.
2. Retromandibular vein.
3. Posterior belly of digastric.
4. External Carotid artery.
APEX
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1. Skin and superficial fascia.
2. Great Auricular nerve.
3. Parotid lymph nodes.
SUPERFICIAL SURFACE
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• Zygomatic branch of Facial
n.
• Transverse Facial artery.
• Buccal branch of Facial n.
• Accessory Parotid gland.
• Parotid duct.
• Mandibular branch of
Facial n.
ANTERIOR BORDER
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STRUCTURES WITHIN PAROTID
GLAND
1. External carotid A
2. Retromandibular
Vein
3. Facial Nerve
4. Parotid lymph
nodes Superficial temporal A
Maxillary A
P.Auricular A
Superficial temporal V
Maxillary V
Post auricular V
External jugular Common Facial V
Facial Nerve
temporal
buccal
mandibular
cervical
zygomatic
Zygomaticotemporal
Cervicofacial
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PAROTID DUCT:
 Stensons duct
 Thick walled
 5 cm long
 Emerges from middle of anterior border
It opens into the vestibule of mouth opposite to the 2nd upper
Molar.
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BLOOD SUPPLY:
External carotid artery
VENOUS DRAINAGE:
Into external jugular vein
LYMPHATIC
DRAINAGE:
Parotid nodes
Upper deep cervical nodes
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NERVE SUPPLY:
Sensory: auriculotemporal n
for gland, great auricular nerve
for the capsule.
Sympathetic: plexus around the
middle meningeal artery.
Parasympathetic: reach the
gland through
auriculotemporal nerve.

SUBMANDIBULAR
GLAND:
- Anterior part of digastric
triangle
- J-shaped
- Walnut size
- 3- surfaces – lateral,
medial, inferior
- Covered by 2 layers of
deep cervical fascia.
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PARTS
1. Superficial part
2. Deep part
3. Submandibular duct
Superficial part
Deep part
Submandibular duct
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RELATIONS
1. Inferior surface: skin, superficial fascia (containing
platysma, cervical branch of facial n, facial vein,
Lymph Nodes) & deep fascia.
2. Lateral surface:
submandibular fossa,
facial artery,
insertion of medial
pterygoid.
3.Medial surface:
mylohyoid,hyoglossus,
styloglossus, lingual n,
hypoglossal n,
submandibular
ganglion. 24

SUPERFICIAL PART
Wedge shaped, extending:
Posteriorly: to the angle of mandible.
Superiorly: to mylohyoid line of mandible.
Inferiorly: it overlaps the 2 bellies of digastric m
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DEEP PART
• Small part lying deep to mylohyoid
• Superficial to hyoglossus
• Between lingual nerve above & hypoglossal nerve
below
Mylohyoid
Lingual n.
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SUBMANDIBULAR DUCT:
Wharton’s duct
Thin walled
5cm long
Emerges at the anterior end of the deep part of the
gland.
Runs forward on hyoglossus
Open at floor of the mouth, on the summit of sublingual
papilla, at the side of the frenulum of tongue.
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BLOOD SUPPLY
Facial artery
VENOUS DRAINAGE
Common facial & lingual vein
LYMPHATIC DRAINAGE:
Submandibular lymph nodes

NERVE SUPPLY:
Supplied by branches of submandibular ganglion –
sensory fibres from lingual nerve.
secretomotor fibers.
vasomotor sympathetic fibres from the plexus on the facial a
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SUBLINGUAL SALIVARY GLAND
Smallest of the three glands
 3-4 gm
Almond shape
RELATIONS
SUPERIOR: mylohyoid
INFERIOR: mucosa of floor of mouth
MEDIAL: sublingual fossa
LATERAL: genioglossus
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SUBLINGUAL DUCT:
Bartholins duct
Duct of rivinus
About 15 ducts
BLOOD SUPPLY:
• Lingual & submental arteries
• Venous drainage corresponds to the
arteries
NERVE SUPPLY:
Same as that of the submandibular gland

DEVELOPMENT OF SALIVARY GLANDS:
PAROTID :6TH WEEK,
ECTODERMAL
SUBMANDIBULAR ;
6TH OR 7TH WEEK
ENDODERMAL
8TH WEEK
ENDODERMAL IN
ORIGIN 34

BUD STAGE
CORD STAGE
INITIATION OF BRANCHING
REPITATIVE BRANCHING & LOBULE
FORMATION
DUCT CANALIZATION
CYTODIFFERENCIATION
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STAGES

INDUCTION OF ORAL
EPITHELIUM
BY UNDERLYING MESENCHYME
FORMATION & GROWTH OF THE
EPITHELIAL CORD
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INITIATION OF BRANCHING
REPETITIVE BRANCHING OF THE
EPTHELIAL CORD & LOBULE
FORMATION:
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CANALIZATION OF PRESUMPTIVE
DUCTS
CYTODIFFERENCIATION
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BRANCHING MORPHOGENESIS:
Clefts develop in bud
two or more new buds form
Succesive generations of buds
Requires::
Epithelial mesenchymal interactions
Signaling molecules: Fibroblast growth factor protein family
Sonic hedgehog
Transforming growth factor β & their receptors.

BRANCHING OF THE EPITHELIAL CORD:
.
Type III Collagen: Accumalates at cleft points , critical for branching to occur(active
branching).
Type IV & I Collagen: For the maintenance & support of established
branches(stabilization).
Collagen selective degradation & synthesis(after branching).
Differential contraction of actin filaments at the basal & apical ends of the
epithelial cells.
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ROLE OF COLLAGEN:

HISTOLOGY OF SALIVARY GLANDS:
TERMINAL END STRUCTURE:
CELL TYPES:
THREE PRIMARY CELLS
 MUCOUS
 SEROUS
 MYOEPITHELIAL
DUCTAL SYSTEM:
CLASSIFICATION BASED ON
ITS LOCATION:
(1)INTRALOBULAR DUCTS
- INTERCALATED
- STRIATED
(2) INTERLOBULAR
- EXCRETORY DUCT
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DIAGRAM SHOWING ACINI AND DUCT
SYSTEM IN SALIVARY GLANDS:
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DISTINGUISHING CHARACTERISTICS OF THE
MAJOR SALIVARY GLANDS:
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Parotid gland:
• A purely serous gland
• Interlobular connective tissue contains a large number of
fat cells which increases with age.
• Fat cells – totally vacuolated appearance.
• Serous cells are deeply stained with H & E staining.
• Intralobular ducts are prominent.

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Submandibular gland:
• A mixed type of gland.
• Majority of the acini are serous.
• More striated and fewer intercalated ducts.
• Acini are either purely serous or are mixed tubules-
smaller serous & larger mucous cells.
• Serous demilunes are evident.

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Sublingual gland:
• Most of the acini are mucous-secreing.
• There are few purely serous acini in humans.
• Few mixed acini with serous demilunes.
• Intralobular duct system are poorly developed.
• Intercalated ducts are virtually absent.
• Absence of striations in the columnar cells lining the
intralobular ducts.
• Sublingual saliva has a much higher concentration of
sodium than the other major salivary glands.

DISTINGUISHING CHARACTERISTICS OF THE
MINOR SALIVARY GLANDS:
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• Produce serous & mucous secretions.
• Secretory activity appears to be continuous rather than
in response to specific stimuli.
• 10% of total salivary secretion.
• But approx 70% of mucous secretion.
• Empty the secretory products into oral cavity through
numerous small ducts.
• Are polystomatic (multiple main excretory ducts).
• Ducts of minor salivary gland (lips), tend to form
cysts(mucocele).

MUCOUS CELL:
- Synthesis, storage & secretion of the secretory product.
- Secretory droplets – larger than serous
- Larger than serous cell
- Secretory end piece - tubular
SECRETION:
- little or no enzymatic activity
- lubrication, protection of oral tissues.
METHOD OF EXPELLING THE SECRETORY
PRODUCT:
(1)EXOCYTOSIS
(2)Several droplets fuse to form larger droplets –
escape through breaks in the plasma
membrane 48

SEROUS
- Devote 80% of its capacity – production of ZYMOGEN
granules.
- Secretory end piece - spherical
SECRETION:
-enzymatic
- shows acid phosphatase, esterases, glucoronidase,
glucosidase & galactosidase activity.
METHOD OF EXPELLING THE SECRETION:
• membrane of the granule fuse with plasma membrane at
the lumen
• prevents loss of cytoplasm.
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INTERCELLULAR JUNCTIONS:
TIGHT JUNCTION (ZONULA OCCLUDENS)
maintain cell surface domains
regulate passage of material from the lumen to intercellular spaces
ADHERING JUNCTION (ZONULA ADHERENS)
DESMOSOME (MACULA ADHERENS)
GAP JUNCTION:
allow passage of small molecules between cells(ions, metabolites etc
HEMIDESMOSOMES:
Secretory cells to the basal lamina & to the connective tissue.
These junctions coordinate activity of all the cells within an end piece.
Holds adjacent
cells together

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Parameter serous acinus mucous acinus
Size of acinus small large
Lumen narrow wide
No: of cells 8 - 12 ≥ 8
Size of cell smaller larger
Shape of nucleus round oval / flat
Position of n basal third basal
Supranuclear zymogen granules mucinogen granules
Cytoplasm (electron dense) (electron lucent)

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Parameter serous acinus mucous acinus
Cells lateral not clear clear
boundaries
Secretory end piece spherical tubular
Apical microvilli present absent
Amylase activity less more

SEROUS DEMILUNES:
Mucous end pieces in the major salivary glands & some
minor salivary glands have serous cell associated with them
in the form of a demilune or cresent covering the mucous
cells at the end of the tubule.
RECENT STUDIES:
- is an artifact traditional methods of preparing
samples. Formaldehyde.
- samples preserved by quick-freezing in liquid nitrogen &
fixed with osmium tetraoxide in acetone, no demilunes are
found.
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MYOEPITHELIAL CELLS
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• BASKET CELL: a basket cradling the secretory cell.
• Associated with the secretory end pieces & intercalated
ducts.
• Located between basal lamina & the secretory cells(
attached by desmosomes)
• Numerous branching processes extend from the cell
body to embrace the end pieces
• Ultrastructurally - similar smooth muscle cells .
• Stellate shape – secretory cells.
• Fusiform shape – intercalated ducts.

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FUNCTIONS OF MYOEPITHELIAL CELLS:
Accelerate initiate outflow of saliva from acini.
Reduce luminal volume, may shorten & widen ducts
helping to maintain their patency.
Contribute to secretory pressure in the acini or duct.
Support underlying parenchyma & decrease back
permeation of fluid.
Help salivary flow to overcome decrease in the
peripheral resistance of the ducts.

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RECENT STUDIES:
- Signaling the secretory cells
- Protecting the salivary gland tissues
- Produce a no: of proteins( tumor suppressor activity) –
barrier against invasive epithelial neoplasm.

INTERCALATED DUCT:
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Primary saliva first pass through
Modify saliva
Contribute to the macromolecular components of saliva
stored in secretory granules.(lyzozyme, lactoferrin)
prominent in salivary glands having a watery secretion
(parotid).
Diameter is small, lumina is larger than that of the end
pieces.
Undifferenciated cells present.

STRIATED DUCT:
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 Receive saliva from intercalated ducts.
 Site of electrolyte resorption(sodium & chloride)
 Secretion of pottasium and bicarbonates
 Secretory product: isotonic hypotonic fluid.
 Ductal cells: kallikrein & epidermal growth factor

EXCRETORY DUCT:
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 Located in the connective tissue septa between the
lobules of the gland(interlobular duct).
 Larger in diameter than striated ducts.
 Pseudostratified epithelium columnar cells.

CONNECTIVE TISSUE
Consists of surrounding capsule and septa
capsule: demarcate gland from adjacent tissue.
septa: divide gland into lobes & lobules.
Cells: Fibroblasts,macrophages, dentritic cells, mast
cells,plasma cells, adipose cells, granulocytes, lymphocytes.
Extracellular matrix: Glycoproteins and proteoglycans
Collagen & elastic fibers.

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FUNCTION OF CONNECTIVE TISSUE CELLS:
• A structural support.
• Assists in the maintenance of homeostasis in the oral cavity.
• In inflammatory processes associated with pathology.

GROWTH FACTORS AND PEPTIDES SECREATED BY THE
SALIVARY GLANDS:
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EPIDERMAL GROWTH FACTORS (EGF):
Found in human salivary glands.(intercalated ducts of the
parotid gland
Influences tooth eruption, epidermal keratinization & cell
proliferation & differenciation throughout the body.
Absorbed from the saliva by cells lining the oral cavity,
esophagus, stomach & small intestine.
GLUCOGON LIKE PROTEIN:
 Human submandibular salivary gland
ATRIAL NATRIURETIC PEPTIDE
 Localized in the salivary glands
 It could regulate fluid balance

INNERVATION OF THE SALIVARY GLANDS
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INTRAEPITHELIAL INNERVATION:
SUBEPITHELIAL INNERVATION:

SALIVARY GLAND IMAGING
• Plain film radiography
• Sialography
• Computed tomography
• Radionuclide imaging
• Ultrasonography
• Magnetic resonance imaging

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SIALOGRAPHY:
• evaluate of the
functional integrity
of the salivary glands
• case of obstructions
• evaluate the ductal
pattern
• facial swellings, to
rule out salivary
gland pathology
• intra-
glandular neoplasms

CT scan
Inflammatory diseases, calculi, neoplastic
diseases

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MRI
Less obscuration for dental amalgam
Superior contrast resolution
Better mass characterisation
Enhanced MRI: perineural disease
if abscess is suspected
determine the exact location and extent of a
tumor

DISORDERS OF SALIVARY GLAND
Functional disorders
- increased secretion.
- decreased secretion.
Developmental disorders
Obstructive disorders
Inflammatory and infectious disorders
Immunological disorders
Neoplastic diseases

DEVELOPMENTAL DISORDERS
• Aplasia (agenesis)
• Atresia
• Aberrant salivary gland. (stafne’s cyst)
• Diverticuli
• Darier’s disease (duct dilation with periodic stricture)

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SALIVARY
STONES:
Sialolithiasis
• Common in
submandibular salivary
duct
• Calcium phosphate in
the form of
hydroxyapatite is the
main mineral
component.
• Larger stones induces
sialoadenitis.
OBSTRUCTIVE DISORDERS:

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MUCOCELE
• (1) Extravasation mucocele
• (2) Retention mucocele

Systemic conditions with salivary gland
involvement
Infectious disorders:
• Actinomycosis
• Granulomatous disease
• Cmv infections
• Hepatits
• HIV

Metabolic disorders
• Sjogren’ syndrome
• Thyroid disease
• Graulomatous disease
• Alcoholism
• Malnutrition
• Eating disorders
• Diabetes (uncontrollred)

SJOGRENS SYNDROME
Dry eyes
Dry mouth

HISTOLOGICAL CLASSIFICATION OF
SALIVARY GLAND TUMOURS
WHO (1991)
• Pleomorphic adenoma
• Myoepithelioma
• Basal cell adenoma
• Warthins tumour
• Oncocytoma
• Canalicular adenoma
• Sebaceous adenoma
• Monomorphic adenoma
• Ductal papilloma
- inverted ductal papilloma
- intraductal papilloma
- sialadenoma papilliferum
• Cystadenoma
- papillary cystadenoma
- mucinous cystadenoma
1. ADENOMA

• Acinic cell carcinoma
• Mucoepidermoid carcinoma
• Adenoid cystic carcinoma
• Polymorphous low grade
adenosarcoma
• Epithelial- myoepithelial
carcinoma
• Basal cell adenocarcinoma
• Sebaceous carcinoma
• Papillary cystadenocarcinoma
• Mucinous adenocarcinoma
• Oncocytic carcinoma
• Salivary cell carcinoma
• Adenocarcinoma
• Malignant myoepithelioma
• Carcinoma in
pleomorphic adenoma
• Squamous cell carcinoma
• Small cell carcinoma
• Undifferenciated
carcinoma
• Other carcinomas
2. CARCINOMAS

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3. NONEPITHELIAL TUMOURS
4. MALIGNANT LYMPHOMAS
5. SECONDARY TUMOURS
6. UNCLASSIFIED TUMOURS
7. TUMOR LIKE LESIONS
- sialadenosis
- oncocytosis
- necrotizing sialometaplasia
- benign lymphoepithelial lesion
- salivary gland cysts
- chronic sclerosing sialadenitis of submandibular gland
- cystic lymphoid hyperplasia in AIDS

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SYNDROMES ASSOCIATED WITH SALIVARY
GLAND DISEASES:
 Hemifacial microsomia
 LADD snydrome
 Treacher collins syndrome
 Sjogren’s syndrome
 Felty’s syndrome
 Aglossia- adactylia syndrome
 Heerfordt’s syndrome

EFFECTS OF AGING:
• decrease in salivary flow
• acinar atrophy accompanied
by fibrosis
• replacement of the secretory
tissue with adipose tissue.
• structural alterations in the
ducts including intraductal
deposits.
• appearance of oncocytes,
enlarged, inactive secretory
cells with pycnotic nuclei
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REFERENCES:
• Oral development and histology
James Avery, third edition
• Human anatomy
B D Chaurasia, fifth edition
• Theory and practice of histological techniques
John D Bancroft
sixth edition
• Oral histology
Ten Cates
eighth edition
• Oral histology & embryology
Orbans
thirteeth edition

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• Textbook of Oral Pathology
Shafers
Seventh edition
• Oral bioscience
Ferguson
• Salivary Gland Imaging
RSNA Refresher Course (November 29, 2012)
Bronwyn E. Hamilton, MD
• Salivary gland diseases
Margaret M. Grisius, philip c. fox

salivary glands

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