Oral Mucosa Lecture 2024 (PDF)

Summary

This document is a lecture on oral mucosa, covering various aspects like function, origin, composition, structure, and different types. It includes details of relevant anatomical parts and diagrams.

Full Transcript

Oral Mucosa

Karla Coburn DDS, PhD
[email protected]
Learning Objectives

1. Describe the general structure of the oral epithelium with its different types of cells
2. Describe the location and histological features of the different types of oral mucosae
(lining, masticatory, specialized).
3. Describe the histological organization of the tongue, including the different types of
papillae and their function.
4. Describe the structure of the gingival tissue and its different presentations.
5. Describe the structure of the lips, cheeks and soft and hard palate.
6. Describe the different types of junctions of the oral cavity: mucocutaneous junction,
mucogingival junction and dentogingival junction.
Lecture Outline
1. Functions of the Oral Mucosa

2. Origin of the Oral Mucosa

3. Components of the Oral Mucosa

4. Structure of the Lamina Propria and Submucosa

5. General Structure of the Epithelium

6. Structural Variations of the oral mucosa

7. Masticatory mucosa

8. Lining Mucosa

9. Specialized Mucosa

10.Junctions in the oral mucosa
Oral Mucosa: Functions

Protection
✓ The oral mucosa shows a number of adaptations to withstand all the stress caused
by biting, chewing and hard particles from food.
✓ Major barrier to microorganisms: first line of defense

Sensation
✓ The oral mucosa receptors respond to temperature, touch, pain and taste.
✓ Reflexes such as swallowing, gagging and salivating also are initiated in the oral
mucosa.

Secretion
✓ Saliva, produced by the salivary glands
Oral Mucosa: origin
✓ Oral mucosa consist of two separate tissue
components: a covering epithelium and an
underlying connective tissue (lamina propria),
both derived from the 1st PA.

✓ Epithelium: ectoderm from stomodeum
✓ Lamina propria: ectomesenchyme
Oral Mucosa: Components and General Organization
✓ Mucosa: (stratified squamous epithelium and lamina propria - LP).No muscularis mucosae!
✓ Submucosa: dense irregular CT, with adipose tissue or minor salivary glands.
Some regions lack a submucosa, so the fibers of the LP attach directly to the periosteum underneath:
mucoperiosteum (mucosa is more resistant and less flexible).
Absence of smooth muscle: skeletal muscle

General GI mucosa Typical oral mucosa - Soft and pliable Mucoperiosteum - Firm, immobile
(Lining mucosa) (Masticatory mucosa)

Smooth
muscle
Skeletal
muscle
 Lamina Propria
✓ Papillary Layer: scarce loose connective
tissue immediately underneath the
epithelium: more cellular, fine collagen
fibers, many blood capillaries

✓ Reticular Layer: dense irregular
connective tissue underneath papillary
PL
layer: bundles of type I collagen

Cells
RL
✓ Fibroblasts
✓ Mast cells
✓ Macrophages
✓ Plasma cells
✓ Neutrophils, lymphocytes
Interface between Epithelium and Lamina Propria
✓ This junction is a wavy interface at which papillae of the connective tissue interlock
with the epithelial ridges (or rete pegs). Areas subjected to more stress have the
greatest number of papillae per unit area of mucosa
Connective tissue
Purpose: papillae

✓ Increases the surface area Epithelium
between the tissues, providing
better attachment.

✓ Facilitates the metabolic
exchange between the Epithelial
Lamina propria
avascular epithelium and the ridges
connective tissue
Submucosa
✓ Deeper to the lamina propria, is
composed of a dense irregular
connective tissue, that may contain minor
salivary glands or fat tissue

✓ Absent in some regions, such as
attached gingiva and most of the hard
palate

✓ Helps to attach the lamina propria to
underlying tissues (muscle or bone)
Submucosa

Oral Epithelium

Lamina propria

Submucosa
Lecture Outline
1. Functions of the Oral Mucosa

2. Origin of the Oral Mucosa

3. Components of the Oral Mucosa

4. Structure of the Lamina Propria and Submucosa

5. General Structure of the Epithelium

6. Structural Variations of the oral mucosa

7. Masticatory mucosa

8. Lining Mucosa

9. Specialized Mucosa

10.Junctions in the oral mucosa
Oral Epithelium
✓ Stratified squamous epithelium, keratinized or not.
✓ Constantly renewed (6-20 days)
✓ Cells:

1) Keratinocytes
2) Melanocytes: produce melanin
3) Langerhans cells: antigen presenting cells
4) Merkel Cells: mechanoreceptors
Keratinocytes Lipid-rich layer
around the cells

✓ Most numerous cells, form a stratified Exocytosis
of lamellar
squamous epithelium. granules

✓ Undergo a differentiation process, in Keratohyaline granules
(filaggrin)
which they progressively accumulate
keratins and move upward.
Lamellar
✓ In keratinized epithelia, the most granules
(lipid)
superficial keratinocytes eventually die,
becoming packs of keratin, surrounded
by a lipid layer that contributes to the Melanin

formation of a barrier against water
loss
Hemidesmosome
Desmosome Basal
Keratin lamina
General Structure of the Oral Epithelium
✓ Basal Layer (stratum basalis)
✓ Prickle Layer (stratum spinosum)
✓ Granular Layer (stratum granulosum)
✓ Keratin layer (stratum corneum)
Only present in keratinized epithelium
Basal Layer (Stratum basale)
✓ One layer of cells, mostly keratinocytes, but
also contains melanocytes and Merkel cells.
✓ Cells attached to each other by spot
desmosomes and to the basal lamina by
hemidesmosomes.

✓ Function:
Keratinocyte
germinative layer
and provides
attachment to the
underlying lamina Basal layer
propria
Melanocyte

Basal layer
Basal layer: Melanocytes
✓ Melanocytes derive from the neural crest cells.
✓ They synthesize melanin pigment in melanosomes and “donate” it to adjacent
epithelial cells via their cytoplasmic extensions.

Gingiva showing melanin pigmentation
Prickle Cell Layer (Stratum spinosum)
✓ Above basal layer, it is the thickest layer
✓ Many spot desmosomes connecting cells: mechanical resistance
✓ Upper cells start to produce lamellar granules (lipid coating that acts as a cement to
prevent penetration of water and other materials).
✓ Mostly keratinocytes, few Langerhans’s cells

Prickle
cell layer

Desmosomes

Basal layer
Pemphigus Vulgaris
✓ Autoimmune disease in which autoantibodies
attack cadherins on desmosome structure,
causing epithelial cells to separate from each
other.
Granular layer (Stratum granulosum) Keratin layer

✓Just above the prickle cell layer
✓Cells contain two types of granules:

Lamellar granules: lipid
content that once released,
coats the cells, acting as a
cement to prevent
Granular layer
penetration of water and
other materials
Keratin
Granular
layer
Keratohyaline granules:
large, basophilic; contain
filaggrin, which helps to
organize and compact
keratin molecules
Keratin layer (Stratum corneum) Keratin layer

✓Most superficial layer in keratinized epithelium
✓Consists of flat, dead cells – basically keratin
scales associated with filaggrin.

Granular layer

Keratin
Main types of maturation in oral epithelium
Orthokeratinization
✓ Nuclei are lost in the keratinized surface layer.
✓ Keratohyalin granules are visible in the granular layer.

Parakeratinization
✓ The keratin squames retain their pyknotic nuclei.
✓ Granular layer often not visible
✓ Normal on oral mucosa

Nonkeratinization
✓ Most common presentation within the oral mucosa
✓ No clear division of strata exists
✓ Granular layer often not visible and nuclei are apparent in the surface layer.
Main types of maturation in oral epithelium
Parakeratinized layer Superficial cell layer
Orthokeratinized layer (cells retain nuclei)
Intermediate cell layer
GL

GL
Prickle
Prickle
cell
cell layer
Prickle layer
cell layer

Basal Basal cell layer
layer

Gingiva,
Hard palate, orthokeratinized Basal layer
Gingiva, parakeratinized
parakeratinized Buccal mucosa, non keratinized
Lecture Outline
1. Functions of the Oral Mucosa

2. Origin of the Oral Mucosa

3. Components of the Oral Mucosa

4. Structure of the Lamina Propria and Submucosa

5. General Structure of the Epithelium

6. Structural Variations of the oral mucosa

7. Masticatory mucosa

8. Lining Mucosa

9. Specialized Mucosa

10.Junctions in the oral mucosa
 Structural Variations of the Oral Mucosa
✓ Throughout the oral cavity, structural variations can be observed in the:
Type of surface epithelium
Composition of the lamina propria
Form of the interface between epithelium and connective tissue
How the mucosa is attached to underlying structures
Nature of the submucosa (if present or not, if holds glands or fat)
Structural Variations of the Oral Mucosa
✓ The oral mucosa can be divided into three main types:

Lining mucosa (60%): alveolar mucosa, floor of mouth, buccal and labial mucosa,
soft palate and ventral surface of tongue

Masticatory mucosa (25%): hard palate and gingiva

Specialized mucosa (15%): Dorsal surface of the
tongue
Structural Variations of the Oral Mucosa
Lining mucosa: stratified squamous non- Masticatory mucosa: stratified squamous Specialized mucosa: dorsal
keratinized epithelium lines the alveolar keratinized epithelium, found on hard palate surface and postero-lateral
mucosa, labial and buccal mucosa, floor of and gingiva borders of the tongue (mucous
mouth, ventral surface of the tongue and membrane with taste buds)
soft palate.
Lecture Outline
1. Functions of the Oral Mucosa

2. Origin of the Oral Mucosa

3. Components of the Oral Mucosa

4. Structure of the Lamina Propria and Submucosa

5. General Structure of the Epithelium

6. Structural Variations of the oral mucosa

7. Masticatory mucosa

8. Lining Mucosa

9. Specialized Mucosa

10.Junctions in the oral mucosa
Gingiva
✓ Stratified squamous epithelium, para or
orthokeratinized.
✓ Dense lamina propria, firmly attached to the 2
periosteum (mucoperiosteum). Wavy interface
epithelium-CT
3

1. Free gingival margin (marginal gingiva) which
defines the gingival sulcus. 1
2. Attached gingiva: firmly attached to the
tooth and bone

3. Interdental papilla: area between two adjacent
teeth beneath their contact point.
Gingiva
✓Free Gingival Groove: sets the
superficial boundary between free and
attached gingiva.
✓ Attached gingiva: continuous with
alveolar mucosa

Attached gingiva
(Stippled)

Free gingiva
Gingiva
✓ The surface of the attached gingiva and interdental papilla commonly has a texture
that is referred to as being stippled or resembling that of an orange peel.
✓ Stippling occurs because of the rete pegs.
✓ It is consistent with health, but not required for health.
Gingival Stippling

Stippled Not stippled
Interdental Papilla and Col
✓Interdental papilla: gingiva located between the teeth and extending below the
contact. It fills the interproximal space between the teeth.
✓Col: concave zone of gingiva between the lingual and vestibular papilla: thin non
keratinized epithelium (not masticatory mucosa!).
 Hard Palate
✓ Stratified squamous epithelium, para or orthokeratinized.
✓ Dense lamina propria, firmly attached to the periosteum:
mucoperiosteum – no submucosa: firm and immobile).
✓ Submucosa is found mostly on the latero-posterior
regions and may contain adipose tissue or minor salivary
glands.
Hard Palate

Submucosa with salivary glands

Mucoperiosteum
Lecture Outline
1. Functions of the Oral Mucosa

2. Origin of the Oral Mucosa

3. Components of the Oral Mucosa

4. Structure of the Lamina Propria and Submucosa

5. General Structure of the Epithelium

6. Structural Variations of the oral mucosa

7. Masticatory mucosa

8. Lining Mucosa

9. Specialized Mucosa

10.Junctions in the oral mucosa
 Lining mucosa
✓ Composed of stratified squamous nonkeratinized epithelium (SSNK), supported by a
lamina propria and submucosa.
✓ Soft and pliable
✓ Lack of keratinization allows visualization of blood vessels in the lamina propria
Soft Palate
✓ SSNK epithelium
✓ Lamina propria and submucosa (with minor salivary glands/fat tissue)
✓ Deep to the submucosa: muscles of the soft palate. Highly vascularized (compared to
hard palate).
 Ventral Surface of the Tongue
✓ SSNK epithelium
✓ Lamina propria: elastic fibers; extensive vascular supply: drug delivery
✓ Submucosa of the tongue: dense irregular connective tissue, continuous with
connective tissue surrounding skeletal muscle
 Floor of the Mouth
✓ Thin SSNK epithelium
✓ Lamina propria: short papillae; some elastic fibers;
extensive vascular supply: drug delivery

✓ Submucosa: loose
connective tissue
containing fat,
minor salivary
glands and the
two major
sublingual glands
Mucocutaneous Junction
✓ Interface between the skin and the oral mucosa.

✓ Skin: stratified squamous keratinized
epithelium, contains skin appendages
(pilosebaceous apparatus, sweat glands)

✓ Vermillion zone: thin stratified squamous
keratinized epithelium. Many capillaries
underneath, no appendages (but
occasional ectopic sebaceous glands).

✓ Labial mucosa: thick stratified squamous
nonkeratinized epithelium. Contains minor
salivary glands (labial glands)
Lip - Skin
Lips

Vermillion zone

Skin
Vermillion zone, 10x

Labial
mucosa

Labial mucosa, 10x
Buccal Mucosa
✓ SSNK epithelium, flat interface with lamina propria
✓ Salivary glands in the submucosa.
✓ Ectopic sebaceous glands can be occasionally found in the buccal and labial mucosa,
(and even on the vermillion zone),called Fordyce's granules.
Fordyce’s granules
✓ Clinically appear as clusters of
yellowish spots

Buccal mucosa,
nonkeratinized
epithelium.

Fordyce granules:
Ectopic sebaceous
glands in the lamina
propria
Buccal Mucosa: Linea alba
✓ Epithelial hyperkerathosis: bilateral white lines on the occlusal plane (linea alba)
Lecture Outline
1. Functions of the Oral Mucosa

2. Origin of the Oral Mucosa

3. Components of the Oral Mucosa

4. Structure of the Lamina Propria and Submucosa

5. General Structure of the Epithelium

6. Structural Variations of the oral mucosa

7. Masticatory mucosa

8. Lining Mucosa

9. Specialized Mucosa

10.Junctions in the oral mucosa
Tongue
Tongue: interlacing bundles of skeletal muscle that allow change shape/position
Functions: Speech, Mastication, Deglutition, Taste perception

Netter
Dorsal Surface of the Tongue: Specialized mucosa
✓ The dorsal surface of the tongue is covered by lingual papillae, which may have
a sensory function (taste perception) and or mechanical function.

Fungiform
papillae

Vallate papillae

Filiform papillae
Foliate Papillae
✓Located on lateral aspects of posterior tongue
✓Numerous taste buds

Foliate papillae
Vallate Papillae
✓ Vallate (circumvallate) papillae: 8–12, form V-shaped row in back of tongue.

✓ Serous minor salivary glands (Von Ebner glands) have their ducts opening within
the sulcus surrounding the vallate papillae.
Fungiform Papillae
✓Mushroom shaped, scattered widely over tongue; look reddish (thin stratified non
keratinized epithelium with a rich vascular core.

Fungiform papillae
Filiform Papillae
✓ Filiform papillae: conic shape, gives tongue roughness to
provide friction; highly keratinized and does not contain
taste buds. Functionally acts as a masticatory mucosa,
possessing a mechanical function.

Filiform papillae

Fungiform papillae
Lecture Outline
1. Functions of the Oral Mucosa

2. Origin of the Oral Mucosa

3. Components of the Oral Mucosa

4. Structure of the Lamina Propria and Submucosa

5. General Structure of the Epithelium

6. Structural Variations of the oral mucosa

7. Masticatory mucosa

8. Lining Mucosa

9. Specialized Mucosa

10.Junctions in the oral mucosa
Junctions in the Oral Mucosa
Within the oral mucosa are four important junctions:
✓ Mucocutaneous (interface between the skin and labial mucosa)
✓ Mucogingival (interface between the gingiva and alveolar mucosa)
✓ Soft-Hard Palate junction (interface between the hard and soft palate)
✓ Dentogingival (interface between the gingiva and the tooth).
Mucocutaneous Junction
✓ Interface between the skin
and the oral mucosa. The
skin, which contains hair
follicles, sebaceous and
sweat glands, is
continuous with the oral
mucosa at the lips.

Minor salivary
glands
 Mucogingival junction
✓ Interface between the attached gingiva (keratinized) and the alveolar mucosa (SSNK)
✓ Clinically visualized by a slight indentation called the mucogingival groove and by the
change from the bright red of the alveolar mucosa to the paler pink of the gingiva

Section through the mucogingival junction (orange dashed line). The differences in thickness, ridge
pattern, and keratinization between epithelium of the gingiva and alveolar mucosa are seen.
Soft Palate-Hard Palate Junction

Photomicrograph of the junction (dashed line) between mucosa covering the hard and the soft palate. Note the
difference in thickness and the ridge pattern between keratinized epithelium of the hard palate and nonkeratinized
epithelium of the soft palate is apparent.
 Dentogingival junction
✓ Interface between the gingiva and the enamel of the tooth. This is the principal seal
between the oral cavity and the periodontal tissues.

Sulcular epithelium:
✓SSNK epithelium, with no
rete pegs
✓Not attached to the
surface of the tooth.

Junctional epithelium
SSNK epithelium
No rete pegs
High rate of turnover
Dual basal lamina
Junctional Epithelium
✓ Primary component of the Free
Gingival
dentogingival junction, this is the Enamel sulcus gingiva
first line of innate host defense
in the periodontal region,
hindering bacterial advancement
into periodontal tissues.
Sulcular
epithelium

✓ Disturbance of this attachment Attached
by infection food or gingiva
debris results in deepening of
the gingival sulcus (pocket).
Junctional
epithelium

✓Formed during eruption, when
oral epithelium fuses with
reduced enamel epithelium
Junctional Epithelium
✓Dual basal lamina (BL):
Internal BL: attaches epithelium to enamel via hemidesmosomes
External BL: attaches epithelium to underlying connective tissue via hemidesmosomes

Rei Sekiguchi, Kenneth M. Yamada, 2018 - Chapter Four - Basement Membranes in Development and Disease. https://doi.org/10.1016/bs.ctdb.2018.02.005
Sulcular Epithelium
✓Lines the gingival sulcus, Gingival
Free
therefore is not attached to Enamel sulcus gingiva
the surface of the tooth.
✓Coronal to the junctional
epithelium
Sulcular
✓Stratified squamous non- epithelium

keratinized epithelium, with Attached
no rete pegs gingiva

Junctional
epithelium