Respiratory (Histo)

Question 1

what are the 2 major division of the respiratory system? what is each of their function?

Answer 1

1. Conduction system: to transmit air to lower division while warming, moistening, and removing particulate matter
2. Respiratory system: gas exchange between air and blood

Question 2

what are the 3 major components of the nasal cavity and what is the epithelium found in each?

Answer 2

1. Vestibule (inside nostrils) = stratified squamous epithelium, slightly keratinized
2. Respiratory portion = pseudostratified columnar epithelium (respiratory epithelium) + cilia (and other cells like goblet cells)
3. Olfactory mucosa = super tall pseudostratified columnar WITHOUT goblet cells

Question 3

what types of cells are found in the nasal cavity epithelium in the respiratory portion?

Answer 3

1. ciliated cells
2. goblet cells
3. basal cells
4. neuroendocrine cells of the APUD
5. brush cells

Question 4

what is the function of the ciliated cells in the nasal cavity?

Answer 4

beat synchronously in a posterior direction (TOWARDS oral cavity) in order to move mucus secreted by the goblet cells so that the mucus can trap particulates for filtration

Question 5

what is the function of goblet cells in the nasal cavity respiratory epithelium?

Answer 5

produce mucus which traps particulate matter

Question 6

what is the function of basal cells in the nasal cavity?

Answer 6

precursors of other cell types (aka the regenerator cells… for regeneration of damaged/old nasal epithelium)

Question 7

what is the function of the neuroendocrine cells in the nasal cavity?

Answer 7

secrete small granules ; they are a part of the amine precursor uptake and decarboxylation (APUD) system

Question 8

what is the function of the brush cells in the nasal cavity epithelium? what structure is characteristic to their function?

Answer 8

have short, blunt, microvilli; function in general sensation.. give you the feeling that you need to sneeze/ticklish nose

Question 9

What is found in the lamina propria of the nasal cavity ? (underlying the epithelium)

Answer 9

1. Loose connective tissue
2. Serous and mucus glands
3. thin-walled venules

Question 10

what is the function of the thin walled venules in the lamina propria of the nasal cavity?

Answer 10

warms incoming air due to the arrangement of loops which causes the air to be warmed by blood flowing through the upper parts of the loops;

Question 11

where is the olfactory mucosa located?

Answer 11

in the roof of each nasal cavity and extends a short distance down over the superior concha and the adjacent nasal septum

Question 12

describe olfactory mucosa epithelium (histology + what are the cells types)

Answer 12

tall pseudostratified columnar and lacks goblet cells; 
4 cell types:
1. supporting (sustentacular cells)
2. basal cells
3. sensory cells
4. Brush cells

Question 13

describe the the sustentacular cells of the olfactory mucosa (structure and function)

Answer 13

structure: tall cylindrical cells, broad at the apex and narrow at the base; have apical microvilli
function : provide metabolic and physical support for olfactory cells

Question 14

describe the basal cells of the olfactory mucosa (structure and function)

Answer 14

structure = small, conical cells with dark ovoid nuclei
function = mitotically active and able to regenerate olfactory function in a few weeks

Question 15

describe the structure/location of the sensory cells of the olfactory mucosa.

Answer 15

aka bipolar cells
location = between the sustentacular cells; soma is the middle layer of the epithelium

structure =

1. spindle shaped with an apical process/ dendrtie which extends to the surface;
2. termination of the apical process is in a bulb-like expansion (olfactory vesicle/knob) with 10-20 cilia
3. proximal part of the cell extends into the lamina propria as an axon which continue to the olfactory bulb of the brain; the axons are clustered into unmyelinated bundles by glial ensheathing cells;
4. cilia contain 350 types of odorant receptors for different odorants

Question 16

describe the olfactory transduction process

Answer 16

odorant molecules are carried through the air to the mucus in the nasal cavity where they bind to a G-protein eliciting a secondary messenger system through cAMP .. eventually the signal is transduced and reaches the bipolar cell which takes the information to the olfactory nerve to the brain for smell perception

Question 17

are the neurons of the olfactory mucosa (for smell) ever replaced?

Answer 17

yes; every 30-60 days

Question 18

what is the function of the brush cells in the olfactory mucosa

Answer 18

have apical microvilli which function in general sensation; they are presynaptic to afferent fibers

Question 19

Describe the lamina propria of the olfactory mucosa

Answer 19

contains Bowman glands and unmyelinated olfactory nerves en route to cribiform plate to terminate at olfactory bulb

Question 20

what are Bowman’s glands? what do they secrete? where are they found? where do they secrete their products? ducts?

Answer 20

• found in the lamina propria of the olfactory mucosa;
• produce a watery secretion to trap odorants and moisten and cleanse the surface
• also secrete LYSOZYME and IgA
• deliver their secretions(proteinaceous) via ducts onto the surface of the epithelium

Question 21

Describe the epithelium of the nasopharynx

Answer 21

lining epithelium is mostly pseudostratified ciliated columnar WITH goblet cells; cilia propel material toward the oropharynx; may be stratified squamous in areas of abrasion

Question 22

describe the lamina propria of the nasopharynx

Answer 22

contains glands, mostly mucous; abundant lymphatic tissue including the NASOPHARYNGEAL TONSILS (adenoids)

Question 23

Is there any muscle associated with the nasopharynx?

Answer 23

yes; the pharyngeal constrictors

Question 24

what are the components of the larynx and what is their general function (ie: respiratory or mechanical).. what type of epithelium can be found in each area?

Answer 24

1. ventricular folds = false vocal folds; involved in respiration (respiratory epithelium + mucous/serous glands)
2. vocal folds = true; involved in mechanical trauma (stratified squamous epithelium non-keratinized)

Question 25

Describe the mucosa of the larynx

Answer 25

2 parts:

1. PSC respiratory epithelium typically covering the ventricular folds
2. non-keratinized stratified squamous epithelium in regions of abrasion (vocal folds)

Question 26

what is squamous metaplasia?

Answer 26

when the respiratory mucosa of the larynx (PSC epithel) changes to stratified squamous epithelium;

it is generally reversible and in areas of altered air flow, the change may persist

clinically correlated to bronchitis

Question 27

Describe the components of the submucosa of the larynx

Answer 27

1. contains MANY mucus glands, few serous glands

2. the true vocal folds contain a supporting ligament of fibroelastic CT and the skeletal muscle of the vocalis muscle

Question 28

what supports the wall of the larynx?

Answer 28

hyaline and elastic cartilages; also CT and skeletal muscle

Question 29

what maintains patency in the trachea?

Answer 29

the cartilagenous rings (~ 20)

Question 30

describe the mucosa of the trachea

Answer 30

PSC epithelium with a DISTINCT basement membrane and underlying lamina propria

same 4 cells: ciliated epithelium, goblet cells, brush cells, basal cells

Question 31

describe the ciliated cells of the trachea

Answer 31

most common; propel material UPWARD toward the pharynx in order to protect the lungs from mucus accumulation;

Question 32

what is chronic bronchitis caused by? what happens in chronic bronchitis?

Answer 32

caused by a loss of cilila from irritation which leads to mucus accumulation in the lungs;

clinical relevance :

1. respiratory epithelium changes to stratified squamous epithelim (squamous metaplasia), but the stratified squamous epithelium is not as functionally efficient
2. loss of cilia
3. removal of mucus is impaired
4. coughing as a compensatory means to expel accumulated mucus
5. overtime, the number of ciliated cells continuous to DECREASE significantly (cycle can be repeated!)

Question 33

where are the granules of the neuroendocrine cells located in the trachea? why is there location significant?

Answer 33

located basally and are released into the underlying connective tissue where they provide local regulatory control

Question 34

what type of granules do the neuroendocrine cells of the trachea contain? what do they produce?

Answer 34

produce biogenic amines (serotonin from 5-hydroxytryptophan)
contain  neuropeptides (bobesin, calcitonin, enkephalin, calcitonin gene-regulated peptide, somatostatin

Question 35

describe the submucosa of the trachea; how is the submucosa separated from the mucosa layer?

Answer 35

loose CT with mixed serous and mucous glands, lymphatic tissue is also present;
separated from the mucosa via aband of ELASTIC tissue

Question 36

Describe the structure of the cartilagenous layer of the trachea; what is its primary function

Answer 36

function = maintain patency of the tracheal tube
structure = 20 "C-shaped" hyaline cartilages which have the open part of the C POSTERIORLY; they are connected to adjacent cartilagenous rings via fibro-elastic connective tissue which blends with their perichondrium

Question 37

what is located external to the tracheal cartilages? what does it contain?

Answer 37

adventitia; contains CT, blood vessels, and nerves

Question 38

How many generations of branching occurs in the bronchi?

Answer 38

10

Question 39

what are extrapulomnary bronchi? how do they differ from the trachea?

Answer 39

aka the right and left primary bronchi; they are branches that ARE NOT confined within the lung lobes; differ from the trachea only in diameter

Question 40

What are intrapulmonary bronchi? how many are located in each lung (rt/left)

Answer 40

bronchi located within the lung;
right lung = 3 secondary bronchi; each serving one of the lobes
left lung = 2 secondary bronchi

Question 41

what supplies the bronchopulmonary segments? how many are in the right lobe? left lobe? how are they separated?

Answer 41

supplied by tertiary segmental bronchi;
right lobe = 10 bronchopulmonary segments
left lobe = 8-10

beach bronchopulmonary segment is separated via a layer of CT and thus provides a discrete anatomical and functional unit

Question 42

how does the intrapulomnary bronchi differ from the extrapulmonary bronchi/trachea?

Answer 42

in the intrapulmonary:

1. epithelium is initially PSC but CHANGES to cililated COLUMNAR with goblet cells (cilia moves material upward and out of the lungs)
2. Interlacing bundles of smooth mucles (muscularis mucosae) are added to the mucosa at the border with the submucosa

Question 43

what are the layers of the intrapulmonary bronchi?

Answer 43

1. mucosa (with muscularis mucosae)
2. submucosa (with glands)
3. cartilagenous layer
4. adventitia

Question 44

what happens to the cartilagenous plates in the intrapulmonary bronchi?

Answer 44

no longer C-shaped… the bronchi increase in branching and thus decrease in diameter and then you get an increase in the number of plates but a decrease in the plate size (just like plate bits)

Question 45

what defines bronchioles?

Answer 45

air passageways of 1 mm or less in diameter; they exhibit 10 generations of branching

Question 46

what is characteristic of the bronchiole wall?

Answer 46

thin; no cartilage and no submucosal glands; relatively more smooth muscle

Question 47

Describe the bronchiolar epithelium (and the cells)

Answer 47

SIMPLE columnar or cuboidal;
cells =
1. ciliated cells
2. goblet cells (decrease in number as branching continues)
3. Clara cells (noncilated bronchiolar cells)
4. basal, brush, an dsmall granule cells

Question 48

what are clara cells? describe their histology

Answer 48

noncilated bronchiolar cells; dome shaped apical margin; have the appearance of typical protein-secretory cells (rER, golgi, secretory granules)

Question 49

what is the function of clara cells?

Answer 49

1. secrete one of the components of surfactant which prevents luminal adhesion (atelectesis)
2. synthesis of Clara cell protein CC16 which is a measurable pulmonary marker
3. involves in Cl transport into the lumen which aids in keeping the luminal surface moist
4. act as reserve cells from damaged cells
5. can detoxify noxious substances

Question 50

what is CC16

Answer 50

a measurable pulmonary marker protein in the clara cell

Question 51

what occurs if the Cl- transport is defected in a clara cell?

Answer 51

cystic fibrosis

Question 52

what type of fibers does the lamina propria of the bronchioles contain?

Answer 52

elastic fibers

Question 53

what happens to the muscularis mucosa in the bronchioles?

Answer 53

it increases and is surrounded by the CT of adventitia

Question 54

what is a terminal bronchiole

Answer 54

• smallest branch of the conducting division
• defines a pulmonary lobule
• they further divide into 3 generations of respiratory bronchioles and they associated alveolar ducts

Question 55

what is a respiratory bronchiole?

Answer 55

the smallest function unit of lung (a pulmonary acinus or respiratory bronchiolar unit)

IT IS THE FIRST SITE OF GAS EXCHANGE

Question 56

what type of epithelium is found in the respiratory bronchiole?

Answer 56

lining epithelium is cuboidal with occasional ciliated cells, but MOSTLY CLARA CELLS

Question 57

describe the lamina propria of the respiratory bronchiole

Answer 57

contains elastic fibers which are vulnerable to destruction by elastases and proteases from neutrophils

Question 58

what gives rise to emphysema? what is emphysema characterized by?

Answer 58

emphysema results from: loss of elasticity of the lamina propria
characterized by: enlarged inter-alveolar airspaces which causes a decrease in the area available for gas exchange and thus efficiency of gas exchange is compromised

Question 59

what are alveolar ducts?

Answer 59

thin walled tubes lined with bronchiolar cells;

Question 60

what is found in the external wall of alveolar ducts?

Answer 60

fibroelastic CT with intermittant bundles of smooth muscle

Question 61

what are alveoli?

Answer 61

the terminal air spaces of the respiratory system and the SITE OF GAS EXCHANGE BETWEEN AIR AND BLOOD!!!

Question 62

what separates of the alveoli?

Answer 62

a thin interalveolar septae of delicate CT with collagen, elastic and reticular fibers + CAPILLARIES

Question 63

what allows air to pass between alveoli?

Answer 63

alveolar pores (pores of Kohn)

Question 64

what are the capillaries of the alveolar wall enmeshed with?

Answer 64

elastin + fine collagen fibers

Question 65

what provides collateral air circulation should a bronchiole be obstructed?

Answer 65

pores; they allow for equalization of pressure between alveoli

Question 66

what cells lines the alveoli wall? what is their function? what percent of the surface to they cover?

Answer 66

squamous alveolar cells aka type I pneunmocyte; function: freely permeable to gases; cover 95% of the surface

Question 67

what are great alveolar cells? what percent of the surface of the alveoli do they cover? what are they joined to? how?

Answer 67

aka type II pneumocyte;
joined to type I pneumocyte via zonula occludens;
cover only 5% of the alveoli surface

Question 68

what is the function of cytosomes? where are they found?

Answer 68

found in type II pneumocytes;
they are rich in phospholipids and are discharges into the alveolar lumen where they function as part of the surfactant system

Question 69

what is the function of type II pneumocytes?

Answer 69

incroporate large amounts of choline as they synthesize phosphatidyl-choline which is the major component (40%) of surfactant.. to reduce surface tension and is thus essential for maintaining patency of the alveolli

Question 70

what does surfactant consist of? what is its functioN?

Answer 70

phosphatidyl -choline = 40%
cholesteral = 50%
4 proteins (SP-A SP-B SP-C SP-D)

Question 71

what is the function of SP-A SP-B SP-C SP-D?

Answer 71

stabilize the surfactnant and contribute to immue response

Question 72

what happens if a premature infant is surfactant deficient?

Answer 72

leads to collapse of alveoli (atelectasis) and is complicated by seepage of FIBRIN and other proteins from the capillaries into the air spaces forming a hyaline membrane

Question 73

what does type II pneumocyte proliferate into?

Answer 73

type I or type II pneumocytes

Question 74

do type I pneumocytes regenerate?

Answer 74

NO

Question 75

what are alveolar macophages? where are they found?

Answer 75

found within the inter-alveolar septum and migrate along the luminal surface of the airway;
they are very phagocytic and very motile

Question 76

what is the function of the alveolar macrophages?

Answer 76

continuously produce lysosomal enzymes

Question 77

are there any fibroblasts in the alveoli?

Answer 77

a few in the interalvolar septume to produce collagen fibers and elastic fibers

Question 78

where, specifically, does gas exchange occur?

Answer 78

at the thinnest portion of the junction between type I pneumocytes and endothelial of the capillary

Question 79

what is found at the alveolar membrane (barrier/junction where gas exchange occurs)?

Answer 79

1. surfactant (overlaying the barrier
2. type I alveolar cell
3. basal lamina of type I alveolar cell
4. basal lamina of capillary endothelial cells (the two basal laminae often fuse)
5. capillary endothelial cell

**1-3 function in maintaining patency

Question 80

where does fluid exchange occur in alveolar membrane?

Answer 80

at the portions where cells are thicker and the basal laminae are not fused

Question 81

what is pleura?

Answer 81

mesothelium covering the lungs

Question 82

where are the pulmonary/bronchial arteries located wtih respect to the the bronchial tree?

Answer 82

accompany

Question 83

where do arteries give rise to the capillary plexus in the respiratory system?

Answer 83

at the level of the alveolar ducts

Question 84

where do veins course in the lungs?

Answer 84

in the septae