Salivary glands
intro to teeth
Jan Krivanek
10. 3. 2022
Lecture 2
• Overview of the salivary glands of the oral cavity and their microscopic structure
• Large salivary glands - topography, structure and description.
• Saliva
• TMJ
Salivary glands - glandulae salivariae
Exocrine glands with watery, mucous or mixed secretions
Formed by proliferation of the ectoderm of the primitive oral cavity into the ectomezenchyme (composite organ)
Salivary glands classification
• According to the type of secretory compartments and the nature of the secretion:
serous - acini
mucinous - tubules
mixed - acini, tubules + tubules with Gianuzzi lunules (tubuloacinary units)
• According to size:
large – gl. parotis, gl. submandibularis a gl. sublingualis
small – in tela submucosa, the number of 800 - 1000
General structure of large salivary glands
• Ligament capsula fibrosa
septa (+ vessels, nerves, interlobular and larger ducts)
• Parenchyma lobes Glandular compartments
(serous acini, mucinous
tubules, serous lunules)
Ducts
(intercalated, striated,
interlobular, main)
Ligament
gl. parotis and gl. submandibularis ligament forms
capsule
gl. sublingualis and gl. lingualis anterior capsule incomplete
septa
Glandular tissue (parenchyma)
The lobules contain:
secretory compartments: serous acins, mucinous tubules or
tubules with Gianuzzi lunules +
2 parts of the duct system - intercalated and striated ducts
(interlobular and main - in septal ligament)
Structural components of the salivary glands
Wall of secretory compartments:
- basement membrane
- myoepithelial cells
- glandular cells
Wall of intecalated and striated
ducts
- basement membrane
- myoepithelial cells (interalated ducts only)
- Epithelial cells
tubules
Secretory compartments
Serous aciniMucinous tubules Tubules with lunules
Serous acini
spherical to ovoid sacs (60 - 150 µm) with a narrow lumen
wall: serous cells, myoepithelial cells, basement membrane
Cells
• pyramidal shape and
spherical nucleus at the base
• below the nucleus is a
basophilic cytoplasm (rER,
mitochondria and
ribosomes)
• supranuclear - eosinophilic
secretory grains / zymogenic
= proenzyme
(zymogen = inactive
enzyme precursor)
Serózní buňky
Aqueous secretion, rich in proteins and enzymes
Serous cells
Serous acini
Rat salivary gland parenchyma: SA – serous acinus, SG – secretory granule, K –
capillary. TEM, primary magnification 1,500x
Mucinous tubules
Usually larger diameter than serous acins (about 200 μm), distinct lumen
On sections: transversely or longitudinally sectioned
Wall: cylindrical mucinous cells, myopithelial cells and basement membrane
Flattened nuclei
Apexes - numerous grains of mucinogen
Viscous mucus secretion
Tubules with lunules (Gianuzzi) - tubuloacinary units
Lunule (demilune) = aggregation of serous cells at one or both ends of a mucinous tube, similar to a demilunes
Secretory compartments
Serous aciniMucinous tubules Tubules with lunules
• Serous acini
• Mucinous tubules
• Lunules (demilunes)
Secretory compartments
Myoepithelial cells
Capable contractions, Vegetative control
They regulate secretion, control nutrient supply and control electrolytes
Inserted between the bases of secretory cells (acins and tubules) and the basement membrane
Flattened body, several protrusions, between secretory and myoepithelial cells numerous desmosomes or
hemidesmosomes
In the cytoplasm actin microfilaments (bundles) + cytokeratin filaments
The cells help to release the secretion into the lumen of the
secretory compartments and its further passaged through the
inserted ducts (in the wall of which they are also present)
Origin: Neural crest, active from the 25th week of development
Salivary ducts types
– Intercelual (they do not have their own wall, intercellular space)
– Intercalated (simple squamous ep., only serous and mixed glands)
– Striated (simple cuboidal/low columnar ep.; basal labyrinth striation)
– Interlobular (simple – stratified columnar ep., in septs)
– Main (stratified columnar ep.)
Ducts
Intercalated
StriatedIntercellular Main
Interlobular
Intercalated ducts
Narrow and thin-walled channel, collapsed on slides
Wall: basal membrame, myoepithelial cells and simple squamouse to low cubic ep.
Numerous in serous type of glands
(cells of intercalated ducts secrete to saliva macromolecular substances: lysozym + lactoferin)
Striated ducts
Wider than the intercalated ducts (easy to find), usually in the middle of lobe
Wall: Basal membrane and simple cuboidal/low columnar ep.
Microvilli on apexes and an bases characteristic striation (basolateral labyrinth)
In the cytoplasm of cytokeratin filaments
Glandula submandibularis
The cells of striated ducts regulate the content of
water and electrolytes (Na+, K+, Cl-, Ca2+, Mg2+,
HCO3-) in the secretion.
Resorption of Na+, and ClSecretion
of K+ and HCO3nerve
control
Striated duct – basal labyrinth
Base of epithelial cell:
Invagintion of cytoplasmic membrane,
numerous mitochondria
Epithelial cell
Interlobular and main ducts
Interlobular ducts
Located in fibrous septae between the lobes (columnar or stratified columnar epithelium)
They are formed by the connection of several striated ducts
Lined by a high single-layer columnar and in the terminal sections also a stratified columnar epithelium
Main ducts
Stratified columnar ep. with goblet cells
Ductus parotideus
Ductus submandibularis
Ductus sublinguales (major et minores)
Main ducts
Stratified columnar ep.
In epithelium Goblet cells
Wall supported by the dense collagenous
connective tissue and smooth muscle cells
Ductus Rivini (V) – septum of gl. sublingualis.
Topography od large salivary glands
Ductus parotideus
Ductus submandibularis
Ductus sublinguales
(major et minores)
Glandula parotis
• SEROUS gland
• 14 - 28 g
• capsule, septs and lobules
• Serous acini, ducts: long intercalated ducts, numerous of striated ducts
• ductus parotideus (Stenoni) - 2. upper molar (Steno/Stensen, Niels)
• adipocytes
Papilla parotidea
Glandulaparotis
Glandula submandibularis
• MIXED tuboalveolar gland, predominantly SEROUS
• 10-15 g
• serous acini - 80 %, rest are mucinous tubules with Gianuzzi demilunes
• intercalated and striated ducts
• ductus submandibularis (Whartoni) - frenulum linguae
trigonum submandibulare
Glandula submandibularis
Glandula sublingualis
• MIXED tuboalveolar gland, predominantly MUCOUS
• 2g
• located on the floor of the mouth on mylohyoid muscle near the midline
• Mucinous tubules, serous acini are rare, instead of them: Gianuzzi demilunes
• Intercalated ducts are missing, striated ducta are present, but are reduced in number and short
• ductus sublingualis major (Bartholini)
• ductus sublinguales minores (Rivini)
along the crest of the plica sublingualis
Glandula sublingualis
Saliva
Product of all salivary glands of the oral cavity
1.0-1.5 liters / day (0.3-0.6 ml / min)
Small glands 10 % / large glands 90 % (gl. Parotis 25 %, gl. Submand. 60-65 %, gl. Sublingualis 10 %)
Clear or slightly opalescent viscous liquid, slightly acidic pH: 6.8 (6.5 - 7.2)
It consists of a liquid and solid component:
Liquid: water (95%)
ions - Na +, K +, Cl-, Ca2 +, Mg2 +, HCO3-, etc.
proteins: amylase (ptyalin) and maltase, peroxidase, lysozyme, lactoferrin
glycoproteins - mucus (mucin)
immunoglobulins (Ig A, IgG and IgM)
small organic molecules (glucose, amino acids, urea, uric acid, etc.)
Formed: removed dead cells of the epithelium of the oral cavity,
salivary bodies (altered lymphocytes) and
non-pathogenic saprophytic bacteria
2 stages of saliva production: primary saliva (isotonic) – before passing through striated ducts and definitive saliva
(hypotonic) - was modified by striated ducts
Saliva function
Protective: forms a thin film on the surface of the mucosa and teeth - a salivary film
stimulates repair processes in the oral cavity
participates in remineralization and maintains tooth integrity
ensures moisture and self-cleaning of the oral mucosa
protects teeth from bacteria
Antimicrobial: proteins with bacteriostatic effect - lysozyme, peroxidase, lactoferrin, etc.
Moisturizing: moisturizes dry food and makes them easier to swallow
Digestive: initiates cleavage of polysaccharides (salivary amylase)
saliva is a sensitive indicator of oral health
(changes during periodontal disease, caries, candidiasis, etc.)
Location Name Type Size
Lips gll. labiales sup. et inf. mixed, pred.
mucinous
minor
Cheeks
gll. buccales mixed, pred.
mucinous
minor
gll. molares (retromolares) mixed, pred.
mucinous
minor
GL. PAROTIS serous MAJOR
Palate
hard gll. palatinae (glandular zone) mucinous minor
soft gll. palatinae mucinous minor
Tongue
Apex gl. apicis lingue (Blandini-Nuhni) mixed, pred.
mucinous
minor/
major
Terminal
sulcus
gll. Ebner‘s (gll. papillae vallatae) serous minor
Base gll. Weber‘s (gll. linguales post.) mucinous minor
Floor of the
mouth
GL. SUBMANDIBULARIS mixed, pred. serous MAJOR
GL. SUBLINGUALIS mixed, pred.
mucinous
MAJOR
Pathology (diseases) of the salivary glands
Sialadenitis (sialoadenitis) – inflammation of the salivary glands, of bacterial or viral origin
Sialolithiasis - saliva in the ducts becomes a viscous to such an extent that the concentrated secretion can secondary
calcify - prevents drainage - impermeability of the outlets
Sialolithiasis in small salivary glands - dilatation of secretory compartments (mucocele), and enlargement of glands
In case of obstruction of the ductus submandibularis - large retention cyst located at the base of the oral cavity -
ranula
Control of salivary gland function
Autonomic nervous system: efferent fibers enter the glands from the parasympathetic and thoracic
sympathetic fibers, forming dense network on the surface of the secretory compartments and ducts
Stimulation of sympathetic fibers reduces saliva production
Stimulation of parasympathetic fibers increases saliva production
small salivary glands secrete constantly
the large salivary glands secrete only on stimulus
(eg chemical, mechanical, etc.).
Atrophy of the glandular parenchyma
atrophy accompanies some systemic diseases,
drug-induced, irradiation
Consequence: hyposalivation - xerostomia ("dry mouth")
Temporomandibular joing (art. temporomandibularis, TMJ)
The connection between the mandible and the fixed temporal bone of the cranial base
Fossa mandibularis + Tuberculum art. of temporal bone
Caput mandibulae (condylus mandibulae)
Discus articularis – cartilage plate
Caput mandibulae (condylus mandibulae) – elongated ellipsoidal shape, elongated axis oriented horizontally on the
condyle surface - thin plate of compact
Inside is cancellous bone – trabeculles diverge from the center of the condyle radially to the surface
During childhood trabeculles can contain islands of hyaline cartilage
Microscopic structure of TMJ
Fossa mandibularis
• Plate of compact bone
• The anterior border of mandibular fossa constitutes the
tuberculum articulare - it has a similar structure to the
caput mandibulae
TMJ surfaces - fibrous cartilage
• It is reinforced on the back of the tuberculum articulare
• Cartilage better resists degeneration and has a good ability
to regenerate
Discus articularis
• Ligament plate 3 - 4 mm thick
• Its edges are fixed in a joint
• Thinner in the middle - intermediate zone (1 - 1.5 mm)
• Dense collagen tissue of a irregular type
• In adulthood, it may contain islets of hyaline cartilage
• Function: Stabilization and absorbtion of shocks and
vibrations functions
A: Articular layer
B: Proliferative layer
C: Chondrogenic layer
D: Hypertrophic layer
Mandibular
condyle
Complex inner structure
Dorsal section is divided in 2 lamellae:
Superior retrodiscal lamella of elastic fibers, which are inserted to dorsal edge of the fossa
Inferior retrodiscal lamela inserts to the rear edge of condyle
Between lamellae the retroauricular pillow of Zenker is present - areolar connective tissue with rich venous plexus (it is
continuous by pterygoid plexus - plexus pterygoideus)
Ventral section is thickenned and ends in places of insertion of lateral pterygoid muscle
Thickened compartments act as stabilizing regions (wedges): stabilize condylus in the fossa
Dorsal section Ventral section
Discus articularis
Retroauricular
pillow of Zenker
Joint capsule - free, especially on the medial side externally
supported by the lateral and medial ligaments
2 layers: stratum fibrosum and stratum synoviale
Articular cavity contains synovial fluid and is divided in two sections:
upper - discotemporal
lower - discomandibular
Joint biomechanics:
TMJ (articular disc) movements:
https://www.youtube.com/watch?v=mB46
8Jh9aAY&ab_channel=AlilaMedicalMedia
MRI:
https://www.youtube.com/watch?v=ZnNg
MnSfAws&ab_channel=SpringerVideos
Temporomandibular joing (art. temporomandibularis, TMJ)
Final form takes between 20 -25 years of age
Adaptability of TMJ – the ability to adapt to new functional requirements
Very good in cartigale
Poor in discur articularis
a) Degenerative changes in the discus articularis, rupture or disintegration
b) After the 5th decade perforation of the central disc part and connection of both sections of the
articular cavity can occur
Age changes in TMJ
TMJ clicking:
https://www.youtube.com/watch?v=Opgz2EUyI0w&ab_channel=WellingtonVillageOrthodonticsOttawa