Slide Set 6 - Respiration

Question 1

How does the respiratory centre know when to breath?

Answer 1

Through sensory input

Question 2

What sensory input does the brain receive which allows it to know when to breath?

Answer 2

The pneumotaxic centre and apneustic centre of the pons (section of our brain involved in the control of breathing and communication between different parts of the brain) receive signals from the chemo and barre receptors. Once the pons receive these signals, it relays them to the medullary rhythmic area which relay information to the respiratory muscles that drive breathing

So basically: Chemo&Barro-receptors send signal to pons –> medullary rhythmic area –> respiratory muscles

Question 3

What part of our brain can “override the “automatic” control of breathing?

Answer 3

cerebral cortex

Question 4

What two areas is the medullary rhythmic area made up of?

Answer 4

1. Inspiratory area

2. Expiratory area

Question 5

What are the 4 respiratory functions?

Answer 5

1. external respiration
2. transport of gases by the blood
3. internal respiration
4. regulation of respiration

Question 6

What are the 2 divisions of the respiratory system?

Answer 6

1. Upper respiratory tract
2. Lower respiratory tract

+ accessory structures

Question 7

What makes up the upper respiratory tract?

Answer 7

Nasal cavity, tongue, larynx, esophagus, pharynx

Question 8

What makes up the lower respiratory tract?

Answer 8

Trachea, right lung + right bronchus, left lung + left bronchus

Question 9

What are the 2 muscles of inspiration?

Answer 9

1. external intercostals

2. diaphragm

Question 10

What are the 3 muscles of expiration?

Answer 10

1. internal intercostals

2. abdominal muscles

Question 11

What are two secondary muscles used in inspiration and expiration?

Answer 11

Sternocleidomastoids & Scalenes

Question 12

What path does the air we inhale take from the moment we inhale to the moment it reaches the blood?

Answer 12

Down trachea to the bronchi where bronchioles branch off and become smaller and smaller until then end in alveolar sacs. Alveolar sacs exchange the incoming air with the RBCs in the capillaries that surround the sacs

Question 13

In what fashion do the RBCs travel through the capillaries that surround the alveolar sacs? What is the structure of the endothelial cells within these capillaries?

Answer 13

Single file line: for max O2/CO2 exchange

single layered

Question 14

What is the function of the pulmonary arterioles?

Answer 14

bring deoxygenated blood from the heart to the lungs in order to be oxygenated by the capillary network on alveolar sacs

Question 15

What is the function of the pulmonary vein?

Answer 15

Returns oxygenated blood from the capillary network on the alveolar sacs back to the heart to be pumped out the rest of the body

Question 16

What are the functions of the alveolar sacs?

Answer 16

• allow exchange of O2 and CO2 with blood

- filter air via macrophages (large non-discriminant cells of immune system)

Question 17

What is cleft palate?

Answer 17

Failure of the nose and the mouth to unite (partial separation) – due to malformation of palatine bone caused by decreased migration of neural crest cells

Question 18

What are causes of cleft palate?

Answer 18

1. genetic mutation of trisomy on chromosome 13
2. environmental - consumption of the teratogenic drugs by mother during pregnancy: corticosteroids, benzodiazepines, anticonvulsants

Question 19

How can cleft palate be fixed after birth?

Answer 19

Plastic surgery: if there is a gaping the gum, bone graft may be used to fill it

Question 20

What can a mother do in order to decrease the levels of her baby obtaining cleft palate? Causes ___ reduction

Answer 20

Taking multivitamin with folic acid. Causes 48% reduction

Question 21

What component of the nose serves as a filter to screen particles from the air?

Answer 21

hairs that line the nose

Question 22

What component of the nose functions to moisten the air as it passes by?

Answer 22

The turbinates which provide a large mucus-covered surface

Question 23

What is an important function of mucus in the nose?

Answer 23

traps particles before air enters respiratory system

Question 24

What does the pharynx connect?

Answer 24

The upper and lower airways

Pharynx = throat

Question 25

What is the structure of the pharynx?

Answer 25

tubelike structure extending from the base of the skull to the esophagus - made of muscle

Question 26

What 3 parts is the pharynx divided into?

Answer 26

Nasopharynx, oropharynx, and laryngo-pharynx

Question 27

The pharynx is a pathway for what 2 systems?

Answer 27

1. Respiratory system

2. digestive system

Question 28

What happens in the pharynx upon swallowing food?

Answer 28

Swallow reflexes close the trachea allowing the food to go down the esophagus and into the stomach.

Question 29

How does the pharynx produce certain vowel sounds?

Answer 29

by changing shape

Question 30

Where are the lower respiratory tract organs located and what organs are they?

Answer 30

Located within the thorax

Organs:

1. trachea
2. bronchial tree
3. lungs

Question 31

What are the 3 accessory structures of the respiratory tracts?

Answer 31

1. Oral cavity
2. rib cage
3. diaphragm

Question 32

What parts of the upper and lower respiratory tracts does the trachea connect?

Answer 32

Larynx to the bronchi

Question 33

What does obstruction of the trachea lead to?

Answer 33

death

Question 34

What type of muscle is the trachea made of and what is embedded in it?

Answer 34

Smooth muscle which are embedded with cartilage C rings

Question 35

Ciliated epithelium of the trachea - what is the role of:

1. Goblet cells?
2. Cilia?
3. Mucus layer?
4. Watery saline layer between the cilia and mucus later?

Answer 35

1. secrete mucus
2. push mucus towards pharynx
3. traps inhaled particles
4. allows/helps cilia push mucus forward

Question 36

What are the 3 layers of bronchial walls?

Answer 36

1. epithelial
2. smooth muscle
3. connective tissue

Question 37

What form alveolar sacs?

Answer 37

Bronchioles subdivide to form tiny tubes called alveolar ducts, which end in clusters of alveoli called alveolar sacs

Question 38

What are the pores of Kohn?

Answer 38

channels running between two adjacent alveoli across the alveolar wall

Question 39

What forms the alveolar wall?

Answer 39

a single layer of type 1 alveolar cells

Question 40

Alveolar sac: what is the respiratory membrane?

Answer 40

the barrier between which gasses are exchanged by alveolar air and blood

Question 41

What is the respiratory membrane barrier made up of?

Answer 41

1. alveolar epithelium
2. capillary epithelium
3. joined basement membranes

Question 42

What is the surface of the respiratory membrane inside each alveolus coated with? What is the function of this coating?

Answer 42

Coated with surfactant which reduces surface tension produced by type 2 cells

Question 43

What is inspiration?

Answer 43

the process of taking air into the lungs.

Question 44

Why is inspiration considered the active phase of ventilation?

Answer 44

because it is the result of muscle contraction

Question 45

During inspiration, what happens to the:

1. Diaphram?
2. Thoracic cavity?
3. Intra-alveolar pressure?
4. Lungs?

Answer 45

1. contracts and moves downwards
2. increases in volume
3. decreases
4. air flows in

Question 46

What is expiration?

Answer 46

exhalation - the process of letting air out of the lungs

Question 47

During expiration, what happens to the:

1. Diaphram?
2. Thoracic cavity?
3. Intra-alveolar pressure?
4. Lungs?

Answer 47

1. Relaxation
2. decreases in volume due to elastic recoil of tissue
3. increases
4. air flows out

Question 48

What two gas pressure gradients must pulmonary ventilation establish?

Answer 48

1. one in which the pressure within alveoli of lungs is lower than atmospheric pressure to produce inspiration
2. on in which the pressure in alveoli of lungs is higher than atmospheric pressure to produce expiration

Question 49

How are pressure gradients established during pulmonary ventilation?

Answer 49

by changes in size of thoracic cavity that are produced by contraction and relaxation of muscles

Question 50

What are the 3 steps of the respiratory cycle?

Answer 50

1. During inspiration the diaphragm contracts, increasing the volume of the thoracic cavity
2. This increases in volume results in a decrease in pressure, which causes air to rush into the lungs
3. During expiration, the diaphragm returns to an upward position, reducing the volume in the thoracic cavity. Air pressure thus increases, forcing air out of the lungs

Question 51

What is the atmospheric pressure (PB) that occurs during ventilation?

Answer 51

the air pressure of the atmosphere outside of the body’s airways

Question 52

What is alveolar pressure (PA) that occurs during ventilation?

Answer 52

intrapulmonary pressure - the pressure at the far end of the internal airways

Question 53

What is intrapleural pressure (PIP) that occurs during ventilation?

Answer 53

It is the fluid pressure of the pleural fluid between the parietal pleura (outer membrane attached to the chest wall) and visceral pleura (membrane surrounding the lung). This pressure is created by the 2 membranes that surround the lungs

Question 54

What is the primary principle of ventilation?

Answer 54

air moves down its pressure gradient - always moves from an area of high pressure to an area of lower pressure

Question 55

Where must the higher pressure be in order to achieve inspiration?

Answer 55

outside the body

Question 56

Where must the higher pressure be in order to achieve expiration?

Answer 56

inside the body

Question 57

Expansion of the thorax and downward movement of the diaphragm results in ______ intrapleural pressure (PIP), leading to _______ alveolar pressure (PalV)

Answer 57

decreased, decreased

Question 58

Air moves into lungs when _______ pressure drops below _______ pressure.

Answer 58

alveolar, atmospheric

Question 59

What is compliance?

Answer 59

The ability of pulmonary tissues to stretch, making inspiration possible

Question 60

What is surfactant? what produces it? what is its function?

Answer 60

A lipoprotein that is formed from protein and phospholipid secretions by type 2 cells in the wall of the alveolus.

Function: reduces surface tension and prevents alveolar collapse during exhalation

Question 61

How do surfactants prevent the lungs from collapsing during expiration?

Answer 61

They are interspersed between water molecules which decreases the attraction of water molecules to one another - promoting expansion of the lungs and acting agains the tendency to recoil. If surfactants didn’t prevent water molecules from being attracted to one another, the size of the alveolus would decrease

Question 62

What are the primary phagocytes of the innate immune system? Function? What do they secrete?

Answer 62

Alveolar macrophages

Function: clear the airspaces of infectious, allergic, or toxic particles. Are capable of eliminating the small inocula of typical microbes which are aspirated daily in the normal host.

Secrete lysozymes, antimicrobial peptides and proteases via phagocytosis

Question 63

What 3 factors determine the amount of oxygen that diffuses from the alveolar air into the blood?

Answer 63

1. total functional surface area of the respiratory membrane
2. the respiratory volume
3. alveolar ventilation

Question 64

What are 4 structural factors that facilitate oxygen diffusion from alveolar air to blood?

Answer 64

1. capillary bed
2. walls of the alveoli and capillaries from only a very thin barrier of gasses to cross
3. alveolar and capillary surfaces are large
4. blood is distributed through the capillaries in a thin layer so each RBC comes close to alveolar

Question 65

What is the negative feedback control of respiration?

Answer 65

The feedback loop that operates to increase the respiratory rate in response to high plasma CO2

Question 66

What are the 3 main stages of the negative feedback control of respiration?

Answer 66

1. increased cellular respiration during exercise causes a rise in plasma plasma CO2, which is detected by central chemoreceptors in the brain and perhaps peripheral chemoreceptors in the carotid sinus and aorta
2. Feedback information is relayed to integrators in the brainstem that respond to the increase in plasma CO2 above the set point value by sending nervous correction signals to the respiratory muscles, which act as effectors
3. The effector muscles increase their alternate contraction and relaxation, thus increasing the rate of respiration. As the respiration rate increases, the rate of CO2 loss from the body increases and plasma CO2 drops accordingly. This brings plasma CO2 back it its normal set point

Question 67

Changes in what 3 components of arteriole blood influence the medullary rhythmic area?

Answer 67

1. plasma O2
2. plasma CO2
3. pH

Question 68

Which chemoreceptors does a change in plasma CO2 affect? How does it affect it?

Answer 68

central chemoreceptors in medulla

If plasma CO2 increases –> faster breathing
If plasma CO2 decreases –> slower breathing

Question 69

Which chemoreceptors does a change in plasma pH stimulate?

Answer 69

peripheral chemoreceptors in the carotid and aortic bodies + the central chemoreceptors

Question 70

Which chemoreceptors does a change in plasma O2 affect?

Answer 70

barely any effect as long as it stays above certain level

Question 71

How does the cerebral cortex influence breathing?

Answer 71

by increasing or decreasing rate and strength of respiration

Question 72

What happens to air tubes during chronic bronchitis? What is this a result of?

Answer 72

They narrow as a result of swollen tissues and excessive mucus production

Question 73

What is asthma?

Answer 73

Edema of respiratory mucosa and excessive mucus production - obstructs airways

Question 74

What is emphysema?

Answer 74

Enlargement and destruction of alveolar walls - walls of alveoli are torn and cannot be repaired - alveoli fuse into large airspaces