Exam #2

Question 1

What are the three mechanisms of cranioskeletal growth in early development?

Answer 1

1. Secondary growth cartilages: allows for growth prenatal/postnatal
2. Sutural growth: Postnatal growth
3. Displacement growth (transposition): Postnatal growth

Question 2

Types of secondary growth cartilages:

Answer 2

• Coronoid: Incorporated before birth
• Angular: Disappears before birth
• Malar: Disappears before birth
• Symphyseal: present until 1 year
• Condylar: Present until 20 years
• Articular eminence: Present until 20 years

Question 3

Secondary growth cartilages are associated with:

Answer 3

Bones formed by intramembranous ossification

Question 4

Growth cartilages develop after:

Answer 4

Intramembranous ossification has been initiated

Question 5

secondary growth cartilages will undergo:

Answer 5

Endochondral ossification

Question 6

What are secondary growth carriages comprised of?

Answer 6

Fibrocartilage

Question 7

Adult structures in the skull are classified as:

Answer 7

Synarthroses joints
(Immovable joints)

Question 8

Synostoses are:

Answer 8

Fused bone; term used to describe the adult remnant of an ossified structure

Question 9

What are the primary growth sites for membranous viscerocranium and neurocranium?

Answer 9

Sutures

Question 10

What are sutures?

Answer 10

Regions of CT between bony articulation

Question 11

What regulates suture closure?

Answer 11

Epithelial-Mesenchymal signaling

Question 12

What is Synchondroses?

Answer 12

Term used to describe suture composed of hyaline cartilage formed between bones that ossify by endochondral ossification.

Question 13

What is Syndesmoses?

Answer 13

Term used to describe a suture composed of fibrous connective tissue; Bones ossify by intramembranous ossification

Question 14

What are the 3 types of syndesmoses?

Answer 14

1. Simple: Flat edge b/w bone
2. Serrated: interdigitating edges b/w bone fronts
3. Squamosal: overlap of bone

Question 15

What is the resting zone in synchondroses?

Answer 15

New cartilage cells in center of suture

Question 16

Describe what happens after the resting zone in synchondroses?

Answer 16

Cells move laterally passing through proliferation and into a maturate stage of hypertrophy.

Cartilage matrix surrounding chondrocytes in hypertrophy will calcification and cell dies.

The matrix of a synchondrosis will ossify by endochondral ossification.

Question 17

What are the histological features of Syndesmoses?

Answer 17

• Band of fibrous connective tissues lie between osteoprogenitor cells of periosteum
• CT of a syndesmosis will ossify by intramembranous ossification

Question 18

What are the three sutural growth sites in the cranioskeleton?

Answer 18

1. Cartilaginous Neurocranium
2. Membranous neurocranium
3. Membranous viscerocranium

Question 19

Where do sites of sutural growth occur?

Answer 19

Synchondroses or syndesmoses joints

Question 20

What direction does sutural growth occur?

Answer 20

Perpendicular to position of the suture

Question 21

Sutural closure depends on signaling b/w:

Answer 21

CT suture and ectoderm; brain; dura

Question 22

The longer the cells remain in a proliferative state the longer the suture:

Answer 22

Remains open

Question 23

What is Craniosynostosis?

Answer 23

Premature closure of the sutures

Question 24

Premature sutural closure will lead to:

Answer 24

Compensatory growth of the other patent (open) sutures

Question 25

What are the 6 synchondroses joints in the cranial base?

Answer 25

1. Spheno-ethmoidal (4 yrs)
2. Sphene-Occipital (12-14 years)
3. Spheno-petrosal (10-12)
4. Petro-occipitla (10-12)
5. Interoccipital (ant/post) 1-3 years

Question 26

Describe the Frontal (metopic) suture

Answer 26

• Frontal and Frontal

- Postnatal closure tiem is 2-4 years

Question 27

Describe the Coronal suture:

Answer 27

• Frontal nad Parietal

- Postnatal closure tiem is 40 years

Question 28

Describe the sagittal suture:

Answer 28

Parietal and Parietal

Question 29

Describe the lambdoid suture:

Answer 29

Parietal and and occipital

Question 30

What is the Calvaria?

Answer 30

The calvaria is the top part of the skull. It is the upper part of the neurocranium and covers the cranial cavity containing the brain. It forms the main component of the skull roof. The calvaria is made up of the superior portions of the frontal bone, occipital bone, and parietal bones

Question 31

Frontanelles are present in:

Answer 31

Calvaria

Question 32

Failure to express signaling molecules alters sutural closure and will cause what two outcomes?

Answer 32

Sutures may fail to fuse

Sutures may fuse prematurely

Question 33

What is the Anterior fontanelle?

Answer 33

intersection b/w 2 frontal and 2 parietal

Adult structure: Bregma

Age postnatal closure: 9-18 mo

Question 34

What is the Sphenoid fontanelle:

Answer 34

Intersection b/w sphenoid, temporal, frontal; parietal

Adult structure: Pterion

Age postnatal closure: 3-6 mo

Question 35

What is the posterior fontanelle?

Answer 35

Intersection b/w 2 parietal and occipital

Adult structure: Lambda

Age postnatal closure: 3-6 mo

Question 36

What is the Mastoid fontanelle:

Answer 36

Intersection b/w temporal, parietal, occipital

Adult structure: Astern

Age postnatal closure: 24 mo

Question 37

What is the location of syndesmoses joints in facial skeleton?

Answer 37

1. Frontomaxillary
2. Frontozygomatic
3. Zygomaticotemporal
4. Zygomaticomaxillary
5. Pterygopalatine
6. Palatal
7. Nasofrontal
8. Internasal
9. Intermaxillary

Question 38

What is displacement growth?

Answer 38

Movement of the whole bone either due to growth of the bone itself r growth of neighboring bone.

Growth of maxilla by displacement

Question 39

What is primary displacement?

Answer 39

As bone enlarges due bone deposition, the bone moves to a new location

Question 40

What is secondary displacement?

Answer 40

Enlargement of neighboring bones moves another bone to a new location

Question 41

What is the outcome of primary and secondary displacement?

Answer 41

Downward and forward movement

Question 42

Describe the growth of the Mandible:

Answer 42

Secondary growth cartilages: Condylar growth up’ back and out; symphyseal allows for increased inter-condylar distance; angular carriages allows for increased length

Growth of alveolar process

Modeling/remodeling- deposition on posterior surface; resorption anterior

Displacement growth: growth of cranial base and condylar cartilage move mandible downward and forward

Question 43

Describe the growth of the maxilla:

Answer 43

• Secondary growth cartilages: appositional
• Sutural growth: apposition growth
• Growth of maxillary sinus: Pneumatization
• Modeling/remodeling
• Displacement growth: Growth of maxilla and cranial base and growth of cartilaginous nasal capsule move the maxilla is downward and forward (inferior/anterior)

Question 44

Viscerocranium (Facial skeleton) refers to:

Answer 44

Ectomesenchyme derived bones of jaw and neck. May be cartilaginous viscerocranium or membranous viscerocranium

Question 45

What structures are from the Cartilaginous Viscerocranium?

Answer 45

• Incus
• Inferior conchae
• Malleus
• Stapes, Styloid process, lesser horn and body of hyoid
• Greater horn and body of hyoid

All are ectomesenchyme derived and will all undergo endochondral ossification

Question 46

Meckel’s Carilage is the cartilage precursors for:

What arch?

Answer 46

Malleus

Mandibular process of 1st PA

Question 47

Richert’s cartilage is the cartilaginous precursor for:

Arch?

Answer 47

Stapes, Styloid process, lesser horn and body of hyoid

2nd PA

Question 48

The Palatopterygoquadrate is the cartilaginous precursor for:

Arch?

Answer 48

Incus

Maxillary process of 1st PA

Question 49

Which structure from the Cartilaginous viscerocranium has no named precursor?

Answer 49

Incus: It is an outgrowth of the maxilla

Question 50

Which structure from the cartilaginous viscerocranium is 3rd arch precursor from the 3rd PA

Answer 50

Greater horn and body of hyoid

Question 51

What structures are considered Membraneous viscerocranium?

Answer 51

• Premaxilla
• Nasal bones
  (medial nasal precursors)
• Maxilla
• Lacrimal
• Zygomatic bone (Zygoma)
• Palatine bone
• Squamous portion of temporal
  -Vomer bones
• Body and ramps of mandible

All are Ectomesenchyme and go through intramembraneous ossification

Question 52

What structures of the Membraneous viscerocranium are from the Maxillary 1st arch?

Answer 52

Maxilla
Lacrimal
Zygomatic bone
Palatine bone
Squamous portion of temporal 
Vobmer bones

Question 53

What structures of the membraneous viscerocranium are from the frontonasal process?

Answer 53

Premaxilla and Nasal bones

Question 54

What structures of the membraneous viscerocranium are from the mandibular process of the 1st arch

Answer 54

Body and ramps of mandible

Question 55

The condyle, coronoid, mental symphysis, articular eminent, malar region all develop from:

Answer 55

Secondary growth cartilages that became incorporated into the bone and either degenerated or underwent endochondral ossification

Question 56

What is the Neurocranium?

Answer 56

• Includes cranial base and vault
• Functions to protect the brain and sensory organs
• Neurocranium derived from germ layers (GL): ectomesenchyme and paraxial mesoderm
• GL boundary is coronal and sphenoid-occipital sutures

Question 57

What are the structures of the membraneous neurocranium?

Answer 57

Frontal bones
Parietal bones
Occipital (interparietal portion (unpaired))

All of the above form through intramembraneous ossification

Question 58

What is the germ layer of the Frontal bones?

Answer 58

Ectomesenchyme

Question 59

What is the germ layer of parietal bones?

Answer 59

Paraxial mesoderm

Question 60

What is the germ layer of the occipital (interparietal portion)

Answer 60

paraxial mesoderm

Question 61

What are the structures of the cartilaginous neurocranium?

Answer 61

• Ethmoid bone/perpendicular plate
• Sup/Middle conchae
• Body and wing of sphenoid
• Petrous portion of temporal bone
• Mastoid portion of temporal
• Base of occipital

Will all undergo endochondral ossification

Question 62

Precondral cartilage and olfactory/nasal cartilaginous capsule will develop into:

Answer 62

Ethmoid/perpendicular plate sup. and middle conchae

Question 63

Hypophyseal cartilage and pic capsule will develop into:

Answer 63

Body/wings of sphenoid

Question 64

Parachordal cartilage and periodic capsule will develop into:

Answer 64

Petrous portion temporal mastoid of temporal bone and the base of the occipital

Question 65

What cartilaginous precursors of the Cartilaginous neruocranium are Ectomesenchyme derived?

Answer 65

Prechordal
Hypophyseal
Olfactory/nasal
Optic

Question 66

What cartilaginous precursors of the Cartilaginous neruocranium are paraxial derived?

Answer 66

Periotic

Question 67

What cartilaginous precursors of the Cartilaginous neruocranium are P. Mesoderm derived?

Answer 67

Parachordal

Question 68

What are the paired midline cartilages?

Answer 68

Prechordal
hypophyseal
Parachordal

Question 69

What are the paired sensory capsules?

Answer 69

Olfactory/nasal
Optic
Periotic

Question 70

Cartilage base develops by fusion of:

Answer 70

Sensory cartilage with midline cartilage; Will collectively undergo endochondral ossification

Question 71

What are the 6 principal functions of oral mucosa?

Answer 71

1. Protection against mechanical forces
2. Physical barrier to microorganisms, toxins, antigens
3. Provide immunological defense via humoral and cell mediated immune responses
4. minor salivary glands prevent of desiccation and provided lubrication and buffering capacity
5. Innervation provides sensory and stereognostic input about environment (GSA and SVA)
6. Numerous sensory receptors: Nociceptors, Mechanoreceptors, chemoreceptors, thermoreceptors

Question 72

What is a way to differentiate Nonkeratinized epithelium compared to others?

Answer 72

It has an intermedium layer (upper layer of spinous)

Histological appearance: Nuclei present/ cells frequently appear vaculated flattened cells

Question 73

What is a way to differentiate the Parakeratinized epithelium compared to others?

Answer 73

It has a thin granulosum (1 layer)

Histological appearance: Pyknotic nuclei; flattened cells lighter color of superficial

Question 74

What is a way to differentiate the (Ortho)keratinized epithelium compared to others:

Answer 74

Granulosum is 2-3 layers and has a corner (keratinized) layer

Histological appearance: No nuclei/keratin filaments
Color change of corneum

Question 75

What are progenitor keratinocytes?

Answer 75

Found in basal layer: Stem cell capable of renewal/mitosis. It binds to basement membrane

Question 76

What are maturing keratinocytes?

Answer 76

Found in all layers:

• Synthesize protein in keratohyaline granules
• synthesize intermediate filament (cytokeratin/ to no filaments) *** type may change in cancer
• Synthesize growth factors

Question 77

What is the principal cell type associated with stratified squamous epithelium?

Answer 77

Keratoncytes

Question 78

What are langerhans cells?

Answer 78

Found in spinous layer:

• APC
• Moves between the epithelium and local lymph nodes
• contact hypersensitivity

Question 79

What are melanocytes?

Answer 79

Found in basal layer:

• Number of melanocytes same between individuals
• synthesize melanin as granules which are transferred to keratinocytes
• Number, size of melanin granules; turnover of pigment influences pigmentation
• Clinically: variable melanin pigment in palate; tongue, gingiva, buccal

Question 80

What are Merkel cells?

Answer 80

Found in basal layer

- Unencapsulated mechanoreceptors in epithelium: detects light/ fine touch; protects against excessive stretch

Question 81

What two factors are involved in controlling epithelial phenotype and turnover rate?

Answer 81

1. Epithelial: Mesenchyme interactions: Underlying lamina propria (CT) determines the type of epithelium
2. Turnover rate: Turnover rate varies based on extend of keratinization. Drugs and inflammation affect turnover

Question 82

What is Keratosis?

Answer 82

usually asymptomatic with the white color due to excess keratin production

Question 83

What is Necrosis?

Answer 83

Usually painful, associated with trauma or infection. The white color is due to accumulation of dead cells, bacteria/ fungus

Question 84

What may cause red lesions in the mouth?

Answer 84

• Loss of epithelium
• Loss of keratin associated with dysplasia
• Increase in vascularization and inflammation (erythematosis)
• Lesions may progress from to erosions of ulceration’s

Question 85

What are the characteristics of oral epithelium in the oral mucosa

Answer 85

• Stratified squamous epithelium
• Rete ridges: Epithelium projects into the underlying ct and aids in adhesion
• Dermal papilla: CT interdigitating with rate ridges

Question 86

What are the characteristics of lamina propria in the oral mucosa

Answer 86

Underlying connective tissue finds BM to epithelium
- Contains: Ducts of salivary glands, sebaceous glands (possible), capillaries, lymphocytes, leukocytes

• Papillary layer: superficial layer of CT ( increase in LCT)
• Reticular layer: deeper layer of CT (increase in DICT)

Question 87

What are the characteristics of the submucosa in the oral mucosa?

Answer 87

May be LCT with higher amounts of adipose tissue, or more DICT, with less adipose
- Salivary glands, larger blood vessels are present

Question 88

What is lining mucosa?

Answer 88

Usually associated with SSNK epithelium
Shallow rete ridges
Submucosa is usually present
Soft pliable

Located: Labial surface of lip, buccal surface of cheek, alveolar mucosa, soft palate, floor of mouth, ventral tongue

Question 89

What is Masticatory mucosa?

Answer 89

Usually parakeratinized or SSK epithelium
Long rete ridges
Submucosa is variable: mucoperiosteum often present
Firm and immobile

Located: Hard palate, attached gingiva; found in regions for compression or shearing forces

Question 90

What is specialized mucosa?

Answer 90

• Associated with SSK and lingual papilla containing taste buds
• Also associated with the vermillion zone of lip (no taste buds)
• Longe Rete ridges
• Submucosa is not distinct, CT of mucosa binds to mucosa

Located: predominately anterior 2/3 dorsal surface of tongue- Vermillion zone of lip

Question 91

What is the Outer Cutaneous region of the lip?

Answer 91

It has similar characteristics to thin skin

• Thin SSK epithelium
• Hair follicles
• Sweat glands
• Sebaceous glands

Vermillion border is the mucocutaneoux junction: is a term used to refer to the transition from skin to mucous membrane

Question 92

What is the Vermillion Zone (red area)?

Answer 92

A transition zone is located in the area between the dry skin and wet mucosa membranes.

• Thick SSK epithelium
• Salivary and sebaceous glands are absent
• Increased number of sensory receptors in CT: Meissner’s corpuscles are present
• Highly vascularized CT- Cause region to appear red

Question 93

What is the Intermediate zone?

Answer 93

Transition between vermillion zone and labial mucosa

- Associated with transition of parakeratinized - nonkeratinized epithelium

Question 94

What is the Inner mucosal region: AKA labial surface?

Answer 94

• Thick SSNK epithelium
• Well vascularized
• Minor seromucous (mixed) glands, adipose issue in LP/submucosa

Question 95

What are the histological features of the cheek: (Buccal surface)

Answer 95

Similar to inner mucosal surface of lip

• thick SSNK epithelium
• Well vascularized
• minor seromucous (mixed) glands, adipose tissue in LP/submucosa

Question 96

What is Fordyce’s spot?

Answer 96

Aberrant sebaceous glands which lack hair follicles and open directly onto the epithelial surface may be found on the vermillion and labial mucosa, buccal mucosa or angle of the mouth

Question 97

The hard palate is:

Answer 97

The anterior 2/3 and comprised of bone

Question 98

The soft palate is:

Answer 98

Posterior 1/3 and comprised of fibro-muscular tissue attached to posterior edge of hard palate

Question 99

What type of epithelium covers the nasal side?

Answer 99

PSCC

Question 100

What type of epithelium covers the Oral side?

Answer 100

Covered with oral ss epithelium (extend of keratinization depends on location)

Question 101

What are the general features of the hard palate (Oral side)?

Answer 101

• Covered with masticatory mucosa
• Thick SSK -> Parakeratinized epithelium
• Long rete ridges
• Submucosa varies based on region

Question 102

What are the Characteristics of the Midline region?

Answer 102

• SSK epithelium
• Deep rete ridges
• Mucoperiosteum is visible

Question 103

What are characteristics of the Anterolateral region (Fatty zone)

Answer 103

• Epithelium is folded into rug
• epithelium SSK -> Parakeratinized
• Deep rete ridges interdigitate with underlying CT papillae
• CT contains blood vessels and nerves
• Submucosa contains adipose and attached to bone

Question 104

What are characteristics of the Posterolateral region (Glandular zone)?

Answer 104

Parakeratinized -> SSNK
Masticatory mucosa present
Submucosa contains mucous glnads
Bone present
Rete ridges become flattened

Question 105

What are the general characteristics of the soft palate (oral side)?

Answer 105

• Covered with lining mucosa
• Thick SSNK epithelium
• Shallow rete ridges interdigitating with underlying CT tissue
• Submucosa is loose
• Mucosa gland present
• Skeletal muscle present
• Bone is absent

Question 106

What are the key features of the minor salivary glands?

Answer 106

• Unencapsulated groups of secretory units
• Intra-oral location (submucosa)
• Short; multiple excretory ducts-few interlobular ducts
• epithelium or skeletal muscle may be in field of veiw

Question 107

What are the key features of major salivary glands?

Answer 107

• Encapsulated by CT- Divided into lobules
• Extra-oral location (bilateral)
• Numberous intra and interlobular ducts
• long excretory ducts which open into oral cavity

Question 108

Salivary glands can be classified based on:

Answer 108

Size, Location, amount of saliva produced and type of secretion

Question 109

What type of secretion do salivary glands produce?

Answer 109

Merocrine

Question 110

Constitutive exocytosis occurs in:

Answer 110

Minor glands

Question 111

What is regulated exocytosis?

Answer 111

Controlled by ANS
- All major glands
ANS modulates flow in mino
- Both parasympathetic and sympathetic of ANS contribute; parasympathetic caused a greater volume response; sympathetic greater protein response than volume

Question 112

Salivary secretion depends on:

Answer 112

Reflex activity. Neuronal reflexes control secretions

Question 113

What is an unconditional reflex?

Answer 113

Tactile or gustatory (taste) input stimulates secretion; present at birth

Question 114

What is a Gustatory Salivary reflex?

Answer 114

stimulation of taste buds; sour highest

Question 115

What is a masticatory salivary reflex?

Answer 115

Stimulation of chewing from PDL and mucosa

Question 116

what is an olfactory salivary reflex?

Answer 116

Stimulates submandibular and sublingual

Question 117

what is a conditioned reflex?

Answer 117

acquired response due to stimulation through special senses; requires processing through her brain centers and may stimulate or inhibit salivation

Question 118

Name the germ layer, epithelium, location and type of secretion for the labial gland:

Answer 118

Germ layer: Ectoderm
Epithelium: SSNK
Location: Submucosa of lip (inner mucosal surface)
Secretion: Mixed

Question 119

Name the germ layer, epithelium, location and type of secretion for the Buccal gland:

Answer 119

Germ layer: Ectoderm
Epithelium: SSNK
Location: Submucosa of cheek
Secretion: mixed

Question 120

Name the germ layer, epithelium, location and type of secretion for the Palatine gland:

Answer 120

Germ layer: Ectoderm
Epithelium: SSPK; SSNK
Location: Submucosa of posterior-lateral of hard palate; Submucosa soft palate
Secretion: Pure mucous

Question 121

Name the germ layer, epithelium, location and type of secretion for the Lingual gland:

Answer 121

Germ layer: Endoderm; Ectoderm
Epithelium: SSK; SSNK
Location:
- 1. ANTERIOR: tip of tongue- duct opens ventral surface
- 2. MIDDLE: anterolateral to sulcus terminalis (circumvallate/foliate papilla)- Ectoderm
- 3. POSTERIOR: posterior 1/3 tongue with lingual tonsils - Endoderm
Secretion: 1. Mixed, 2. Pure serous (glands of von ebner) 3. Pure mucous

Question 122

Minor glands contribute to what percentage of total salivary secretion?

Answer 122

5-10%

Question 123

What percentage of the saliva secreted from minor glands is mucous?

Answer 123

70%

Question 124

How many groups of minor salivary glands are located in submucosa layer of oral mucosa/ associated structures?

Answer 124

600-1000

Question 125

Name the germ layer, epithelium, location and type of secretion for the Parotid gland:

Answer 125

Location: Anterior to ear
Size: Largest
Type of secretion: Pure serous
Amount secreted: 25-60 %
Germ layer: Ectoderm

Question 126

Name the germ layer, epithelium, location and type of secretion for the Submandibular Gland

Answer 126

Location: Angle of the mandible 
Size: Intermediate
Type of secretion: mixed >60% serous
Amount secreted: 60-25%
Germ layer: Endoderm

Question 127

Name the germ layer, epithelium, location and type of secretion for the Sublingual gland:

Answer 127

Location: Anterior floor of mouth
Size: Smallest
Type of secretion: Mixed > 70% mucous
Amount secreted: 5-8%
Germ layer: Endoderm

Question 128

Major glands produce what percentage of total saliva?

Answer 128

90%

Question 129

During stimulation which gland produces more saliva? The Parotid or the submandibular?

Answer 129

Parotid

Question 130

Which major glands secretory activity are mainly regulated by exocytosis with some constitutive?

Answer 130

Parotid and Submandibular

Question 131

The activity of the sublingual is regulated via:

Answer 131

constitutive exocytosis

Question 132

What are the two structural components of the salivary glands?

Answer 132

1. Supprotive (stromal) tissue: Connective tissue
2. Glandular (parenchymal) tissue:
   
   • myoepithelial cells
   • secretory acing cells (from acing units- clusters of secretory cells)
   • Dust cells

Question 133

Describe the Stromal support in salivary glands:

Answer 133

Connective tissue:

• CT in major glands forms a capsule that divides tissue into lobes
• CT supports the glandular epithelium
• Conveys blod vessels and nerves
• contains: lymphocytes, macrophages, fibroblasts, plasma cells

Question 134

What cell synthesizes and secretes IgA?

Answer 134

Plasma cells

Question 135

What is palatal adenoma:

Answer 135

Non-ulcerated swelling

Question 136

What is adenoma?

Answer 136

A benign glandular tumor developing form cells of epithelial original and may affect major or minor salivary glands. 80% occur within the parotid gland and 10-20% occurring in minor gland with palatal glands most prevalent

Question 137

What is Carcinoma?

Answer 137

Any malignant form of cancer affecting cells of epithelial origin

Question 138

What is Adenocarcinomas?

Answer 138

Refers to tumors that develop in silvery glands. These usually appear red and ulcerated over time

Question 139

What are the outcomes from radiation treatment?

Answer 139

• Radiation caries: A rapidly developing and highly destructive form of tooth decay, is a well known dental consequence of radiotherapy of malignant tumors in the head and neck region
• Radiation caries appears along the gingival margin and can weaken the tooth surface
• Hypo-Salivation is induced due to scarring of gland/duct and loss of acing cells

Question 140

What are myoepithelial cells?

Answer 140

AKA Basket cells– (Part of Parenchymal tissue)
Have connective activity
Location: b/w acing cells and basement membrane
Function: Supportive; facilities secretory discharge of secretory acing cells
Under control of ANS

Question 141

What are secretory (Acing) cells:

Answer 141

Serous, Mucous, and mixed cells

Question 142

what cells synthesize glycoproteins and enzymes?

These cells have enzyme rich watery secretion which aids in digestion

Answer 142

Serous cells

Question 143

What cells synthesize mucin (mucopolysaccharides)? These cells have carbohydrate rich viscous secretion which aids in protection/bolus formation?

Answer 143

Mucous cells

Question 144

What is the function of salivary ducts?

Answer 144

Involved in transport and modification of saliva secreted from acing cells

Question 145

Where can a mean excretory duct be found and what is the related name? What does it do?

Answer 145

Open into the oral cavity;

• Parotid = stenson’s duct
• Submandibular = warton’s duct
• sublingual = Bartholin’s duct

Note: Epithelium is stratified squamous to stratified columnar/cuboidal

Question 146

What are interlobular ducts?

Answer 146

Excretory ducts found in CT between the lobules

Epithelium is stratified cuboidal to pseudo-stratified columnar to simple columnar

Question 147

What are interlobular ducts?

Answer 147

Two types of ducts found in the lobule surround by acinar cells:

1. Striated ducts: receives product from intercalated duct:
   
   • modifies ion concentration of saliva
   • epithelium is simple columnar to cuboidal
2. Intercalated duct: Receives secretory products directly from the acing cells; limited modifications of saliva
   
   • epithelium: is low/flattened cuboidal

Question 148

What secretes lysozyme and lactoferrin?

Answer 148

Intercalated ducts

Question 149

What is the longest intercalated duct?

Answer 149

Longest is in parotid gland

Question 150

What is involved in a active transport; reabsorption and secretion of electrolytes but no water?

Answer 150

Striated ducts

Question 151

Where can the longest striated duct be found?

Answer 151

Submandibular

Question 152

What is a mucocele?

Answer 152

small soft lesions involving the retention of seromucous secretions in the subepithelial CT due to trauma to minor salivary glands

Cause: Damage to the ducts of the minor salivary glands may result in saliva becoming trapped in the surrounding CT

Question 153

What is a Ranula?

Answer 153

A mucocele involving the major salivary glands on the floor of the mouth

Cause: Tramua to a majro excretory duct leads to pooling of saliva within the submucosa CT layer of tissue- Most rankle involve the major excretory ducts of the sublingual or submandibular gland

Question 154

What are the biochemical components of saliva?

Answer 154

• Water
• Electrolytes
• Mucopolysacharides (mucin)
• Salivary proteins (Lacotferrin, cystain, Histatins, acidic proline- rich proteins)
• Enzymes (amylase, lipase, lysosome)
• Antibodies (secrete IgA)
• Other components include: insulin serum albumin, epidermal growth factors
• small organic molecules: Glucose, amino acids, urea, and cholesterol

Question 155

What are the cellular components of saliva?

Answer 155

Desquamated epithelial cells
Lymphocytes
Bacteria

Question 156

Whole saliva includes both:

Answer 156

biochemical and cellular components that are secreted from all glands

Question 157

What is Primary saliva?

Answer 157

Biochemical components secreted from acing cell/intercalated duct

Question 158

IN Unstimulated/resting flow:

Answer 158

There will be higher amounts of mucous; role of saliva is protection of tooth and mucosa via pellicle

Question 159

IN Stimulated flow:

Answer 159

There will be a higher amount of enzymes, fluids and electrolytes : Role of saliva is clearance; buffering; remineralization

Question 160

Which active components function is protection and are involved in the clearance of tooth surface, lubrication, and pellicle formation?

Answer 160

Water
Mucin
Salivary proteins

Question 161

Which active comments function in buffering capacity and are involved in pH maintenance and neutralization of acids?

Answer 161

PO43-, HCO3-

Question 162

What active components are involved in tooth integrity and help with enamel mineralization/maintenance and will inhibit calcium-phosphate precipitation

Answer 162

Ca2+, PO43-, Fl-, and salivary proteins

Question 163

What active components function in antimicrobial activity and create a physical barrier, involved in immune surveillance, and are bactericidal

Answer 163

Mucins, sIgA, and lysozyme, lactoferrin

Question 164

What active components are involved in digestion and taste and function in bolus formation and carbohydrate and triglyceride digestion?

Answer 164

Water, Amylase, lipase

Question 165

Which active components are involved in tissue repair and are involved in wound healing/ epithelial repair?

Answer 165

Growth factors

Question 166

Primary saliva production is produced by:

Answer 166

Secretory acing cells of gland:

• Composition: Enzymes, proteins, antibodies, water, electrolytes
• Tonicity is isotonic

Question 167

Ionic modification of the primary saliva is modified by:

Answer 167

Started duct cells and interlobular duct cells.

Mechanism: Ion transport via channels and pumps; no change in water

Result: Tonicity of saliva is hypotonic

Question 168

T/F: Tonicity and ion concentration and pH are alters with change in flow rate

Answer 168

True

Question 169

Immune-Protective modification of primary saliva is modified by:

Answer 169

Acing cells and intercalated ducts modify saliva by transport and secretion of sIgA antibodies into saliva

Mechanism: IgA transported from Ct into acing and duct cells and converted to a secretory form of IgA

Outcome: addition of sIgA of primary saliva provides mucosal defense

Question 170

What are the steps of immune-protective modification of primary saliva?

Answer 170

1. Plasma (B) cells synthesis Ina
2. Binding of secretory IgA to receptor on acing/duct cells
3. Receptor mediated endocytosis transports sIgA into acing cell
4. Transcytosis of secretory component of IgA through cell
5. Constitutive exocytosis into saliva: Immuno-protection occurs continually including during unstimulated conditions

Question 171

Describe the Neural pathway for the Parotid

Answer 171

CN IX
Inferior salivary nucleus -> Preganglionic fibers of lesser petrosal (IX) -> Otic ganglion -> Post ganglionic fibers travel with the auriculotemporal of V3 -> Target tissue

(similar pathway for minor glands: (post ganglionic travel with different branches than V3 auriculotemporal) Bccal (Via V3), lingual post 1/3; anterior to sulcus terminals; and oropharynx (Via br. of IX)

Question 172

Describe the neuronal pathway for minor glands: Palatal

Answer 172

Superior salivary nucleus -> preganglionic fibers of greater petrosal (VII) -> pyterygopalatine ganglion postganglionic fibers travel with greater palatine of V

Question 173

What is the Mechanism of control of salivary gland secretion by ANS?

Answer 173

Salivary target issue of ANS = parasympathetic and sympathetic act cooperatively on acing cell; ducts; and myopeitheial cells.

Outcome: ANS stimulation causes regulated exocytosis of secretory granules from acing cells
Fluid/electrolyte secretion - open water channels and facilitate electrolyte transport in acing cells
Increased flow rate - (stimulated flow)- increased electrolyte transport in striated ducts -> buffering capacity and tonicity

Question 174

What are 4 factors that can affect rate of flow?

Answer 174

Blood loss, Dehydration, drugs, stress

Question 175

What neurotransmitter is released from postganglionic fibers in Parasympathetic?

Answer 175

Acetylcholine

Question 176

What is the principal role of the Parasympathetic system?

Answer 176

Regulates opening of water and ion channels; some exocytosis acinar proteins

Question 177

What is the receptor that binds acetylcholine?

Answer 177

Muscarinic

• Most fluid secretion of glands is due to muscarinic stimulation

Question 178

What neurotransmitter released from postgangionic fibers in sympathetic?

Answer 178

Norepinephrine

Question 179

What is the principal role of the Sympathetic system?

Answer 179

Regulates exocytosis of acing proteins

Question 180

What is the receptor that binds Norepinephrine?

Answer 180

1. B-adrenergic: Most protein secretion due to B-adrenic stimulation
2. A-adrenergic: may modulate activation of water channels

Question 181

Norepinephrine and acetylcholine of ANS binding to receptors on the acing cell lead to:

Answer 181

Increased flow rate via increased release of fluid and electrolytes

Question 182

T/F: Water channels are present in duct cells but not acinar cells.

Answer 182

False:

Water channels are present in acinar cells but not in duct cells

Question 183

What kind of solution is primary saliva when released from acing cells?

Answer 183

Isotonic: Will be further modified in ducts via electrolyte transport

Question 184

Describe saliva in a resting flow rate:

Answer 184

Primary Saliva: Rich in proteins; electrolytes (NA+, Cl-, K+, HCO3-) and water: Isotonic

• Modified as saliva flows through duct:
  
  • Removal of Na+/Cl (high absorption) * Na-cl absorption greater than HCO3 secretion
  • Secretion HC03- (some secretion)
  • no water absorbed in duct

Slower flow rate: More time to reabsorb
Result: Hypotonic saliva (relative to plasma)
Resting pH: 6.3-6.7

Question 185

What is the outcome of ANS stimulation saliva composition:

Answer 185

Increased secretion and flow rate

• Parasympathetic: Produces thin watery; low viscosity solution
• Sympathetic: produces viscous enzyme rich; low fluid solution

Question 186

Describe primary saliva in stimulated conditions

Answer 186

Increases in electrolytes and water; proteins
- Modified in duct by:
- Removal of Na/Cl- (little absorption)
- Secretion of HCO3 (Higher rate when stimulated via ANS)
- No water removed in duct
Increased Flow rates: High flow rate = less time to reabsorb
Result: Isotonic saliva (relative to plasma)
Stimulated pH is: ????

Question 187

What is hyposalivation:

Answer 187

Decrease in volume/rate of salivary secretion disease, nerve damage, pharmacology, physiology reasons

Question 188

What are sialadentitis?

Answer 188

Clinical term for a group of inflammatory disorders affecting the salivary glands:
- inflammation may result from, obstruction, trauma, bacterial or viral infections are the most common conditions that affects salivary glands and ducts

Question 189

What is Sialolithiasis:

Answer 189

Clinical term for the condition of salivary duct store (sialolith)
Formation- Calcification of salivary proteins which block the excretory duct

Question 190

What is Sjogren syndrome:

Answer 190

autoimmune disorders affects lacrimal, and salivary glands

Pharmacological induced: Anticholinergics leads to decreased salivation

Question 191

Hypersalivation:

Answer 191

increase in volume/reate of salivary secretion due to neurological disease, stroke, inflammation, pharmacology, psychological reasons

Question 192

What is Sialorrhea:

Answer 192

Hypersalivation: associated with drooling

Question 193

What are the outcomes of Xerostomia?

Answer 193

• Buring sensation or oral soreness
• Taste impairment or dysgeusia
• Loss/atrophy of papillae (dorm of tongue appear fissured)
• An increased rate of smooth surface dental caries (primarily affecting cervical regions of mandibular incisors)
• Plaque and debris retention in the mouth, leading to poor oral hygiene and halitosis
• Gingival recession with an increased susceptibility to periodontal disease and tooth loss
• difficulty retaining dentures in mouth
• Recurrent infections of the major salivary glands
• Increased risk of recurrent oral infections especially oral candidiasis and angular cheilitisi
• Difficulty swallowing
• Dry cough
• Hoarse voice