Introduction

Question 1

Decreased arterial PO2

Answer 1

hypoxemia

Question 2

increased PCO2

Answer 2

hypercapnia

Question 3

What is the alveolar gas equation?

Answer 3

PAO2 = FiO2(Pb-PH2O)-(PaCO2/R) which means the alveolar pressure of oxygen is equal to FiO2–fraction of oxygen in inspired air (RA is 0.21) Pb–barometric pressure (760mmHg) PH2O–vapor pressure of water in the alveoli (~47) PaCO2–arterial CO2 tension R–respiratory quotient (CO2 out/O2in = 0.8)

Question 4

Is there any simpler alveolar gas equation for measurements taken at sea level?

Answer 4

PAO2 = 150-(1.25 x PaCO2)

Question 5

what is transpulmonary pressure?

Answer 5

the alveolar pressure minus the pleural pressure

Question 6

If there is air inside the alveoli of the lungs would you expect the pressure to be higher in the alveoli or the pleural space?

Answer 6

pressure would be higher in the alveoli. (or more negative in the pleura)

Question 7

Your oxyhemoglobin dissociation curve relates the pressure of O2 in the blood to the amount of O2 that is bound to hemoglobin. If this curve has shifted to the _________, oxygen becomes easier to unload (harder to bind). A shift to the ________, makes oxygen harder to unload (easier to bind)

Answer 7

right, left

Question 8

A right shift means that the body is trying to ______________ oxygen

Answer 8

get rid of

Question 9

A left shift means that the body is trying to _____________oxygen

Answer 9

hang onto

Question 10

What are some factors that would cause the body to want to keep oxygen? What direction would this shift be?

Answer 10

increase in pH (alkalosis); decrease in CO2, decrease in temperature are factors causing LEFT shift

Question 11

Your primary respiratory muscle is the ___________.

Answer 11

Diaphragm

Question 12

If you needed extra accessory muscles to help you inspire, you’d use what?

Answer 12

SCM, EXternal intercostals and scalenes

Question 13

If you needed extra accessory muscles to help you expire, you’d use what muscles?

Answer 13

INternal intercostals, external obliques and rectus abdominis

Question 14

what is the term for dyspnea that occurs in the supine position, typically as a result of a decrease in vital capacity

Answer 14

orthopnea

Question 15

what is the term for dyspnea that occurs hours after lying down in a supine position resulting from increased venous return to the heart causing interstitial edema? What health problems can cause this?

Answer 15

Paroxysmal Nocturnal Dyspnea. Seen frequently in CFH and occasionally with asthma

Question 16

what type of pulmonary disease is defined by a low FEV1 and a low FEV1/FVC%? What are some examples of this type of disease?

Answer 16

Obstructive pulm dz, ex: asthma, chronic bronchitis, emphysema, COPD

Question 17

what type of pulmonary disease is defined by a decrease in the tidal volume of air, but not the rate of its flow?

Answer 17

Restrictive pulm dz

Question 18

What are the main functions of the lungs?

Answer 18

1) gas exchange 2) protective fxn 3) circulatory fxn (shares vasculature with heart and directly effects cardiac output)

Question 19

I am an air molecule, I’m entering the lungs in the trachea and destined for the alveolus. What neat sites am I going to see on my way?

Answer 19

mainstem bronchus (oh boy!), lobar bronchus, segmental bronchus, bronchiole, alveolar duct, and destination alveolus!!

Question 20

In a normal person, during tidal breathing would you expect the active process to be inspiration or expiration?

Answer 20

Work to breath in, expiration is result of elastic recoil

Question 21

What do the following things stand for: RV, ERV, IRV, TLC, FRC, TV, VC, FEV1?

Answer 21

RV–residual volume ERV–expiratory reserve volume IRV–inspiratory reserve volume TLC–total lung capacity FRC–functional residual capacity TV–tidal volume VC–vital capacity
FEV1–forced expiratory volume per second

Question 22

In a healthy lung, what is the partial pressure of O2 in the alveoli? what is the partial pressure of O2 in the arteriole?

Answer 22

100mmHg in both

Question 23

In a healthy lung, what is the partial pressure of CO2 in the Alveoli? what about in the arteriole?

Answer 23

40mmHg in both

Question 24

If your patient had an airway obstruction and the partial VENOUS pressure of O2 was 40mmHg, what would you expect the partial pressure of O2 to be in the alveoli? The arterioles? AND what would happen as a result of the airway obstruction?

Answer 24

40mmHg in the alveoli, 40mmHg in the arteriole. No gas exchange is occurring due to obstruction, so the lungs will have vasoconstriction which will SHUNT blood away from that part of the lung, to an area where it can receive oxygen.

Question 25

If your patient has a blood clot in the capillaries just before reaching the alveoli, what will likely happen?

Answer 25

The alveoli will constrict, creating a dead space by diverting its air supply to other well perfused alveoli

Question 26

What is the expected Alveolar-arterial gradient for O2 in a healthy person?

Answer 26

Patient’s age/10 + 10. (on room air. if patient is on O2, the A-a increases 5-7mmHg for every 10% increase in FiO2) the larger the gradient, the more serious the respiratory compromise

Question 27

what are some problems that could cause a large A-a gradient?

Answer 27

alveolar membrane dz, shunt, interstitial dz, VQ mismatch

Question 28

So, your patient is 70 and in the office for dyspnea on room air. You’d like to determine her optimal A-a gradient to see if you can tell if there is a problem when you plug her actual values into the alveolar gas equation. What is her target A-a gradient?

Answer 28

17

Question 29

1) Low inspired oxygen (high altitude)
2) Hypoventilation (drugs, neurologic injury, anesthesia, severe lung disease)
3) R>L shunt (intrapulmonary or intracardiac)
4) Ventilation/perfusion inequality
5) Decreased diffusion (diseases which reduce effective area for gas transfer or thicken the alveolar wall)……could all cause ______________

Answer 29

hypoxemia

Question 30

what effect on the lungs is the end result of smoking?

Answer 30

INCREASED RESISTANCE TO FLOW. (resulting ffrom chronic irritation causing overproduction of thick mucus, hypertrophy of mucus glands, bronchial wall thickening, and bronchoconstriction)

Question 31

what effect on the alveoli is the end result of smoking?

Answer 31

REDUCED ELASTIC RECOIL (old slinky phenomenon)

Question 32

What happens when the air pressure inside the alveoli becomes less than the pressure in the pleural space?

Answer 32

The increased pressure in the pleural space will collapse the bronchioles and patients will have to work to force air out.

Question 33

what happens to your COPD patient when they try to breath faster to compensate for their dyspnea?

Answer 33

Breathing faster does not help because the flow of air out of your lung is so slow that you do not have enough time to fully expire. The amount of air left in your lung at the end of an expiration (FRC) increases with each breath (dynamic hyperinflation)

Question 34

As your COPD patient experiences dynamic hyperinflation, how would they feel subjectively?

Answer 34

Like they are suffocating, because their lungs are already full of air, and they need to keep inhaling to get enough oxygen, but there isn’t room

Question 35

If there is an increase in the partial pressure of CO2, it will trigger a(n) ____________ in minute ventilation, which maintains PaCO2 and pH levels withing the normal range.

Answer 35

increase! This is allows matching of ventilation with perfusion

Question 36

If PaCO2 levels rise, respiration rate increases to try to get rid of it. What do we call this?

Answer 36

Ventilation

Question 37

If the capillary blood in an alveoli does not experience a gas exchange, what defense mechanism will occur?

Answer 37

Shunting

Question 38

How does the bronchiole tree itself contribute to the defense of the lung against infection?

Answer 38

The many branching points interrupt the laminar flow of air that potentially contains particles. This particles will hit an air current (eddy) and particles will likely stick to the mucosal lining in the lungs before reaching distal lung

Question 39

What’s one of the main ways the lungs rid themselves of foreign bodies?

Answer 39

mucociliary transport/clearance

Question 40

What layer of the lungs contains the antimicrobial peptides that are important to immunity? What are some of these peptides?

Answer 40

the SOL layer. Peptides include the lysozymes, lactoferrins, and defensins, collectins (surfactant proteins A and D)

Question 41

What cells are responsible for scavenging the particles and bacteria in the airways and alveoli?

Answer 41

the pulmonary alveolar macrophages

Question 42

The primary function of ______- cells is to sample the airway microenvironment, ingest and process antigens and then migrate to regional lymph nodes to prepare an immune response

Answer 42

dendritic cells (Langerhans cells are dendritic cells)

Question 43

These cells respond to a bacterial infection by promoting an inflammatory response and then directly attacking and killing bacteria

Answer 43

Polymorphonuclear leukocytes

Question 44

______________ cells are part of the rapid initial response and are capable of killing microorganisms without prior sensitization

Answer 44

Natural born killer cells

Question 45

which response involves recognizing and responding to specific antigenic materials after prior sensitization?

Answer 45

Adaptive immune responses

Question 46

What is the defense mechanism that secretes IgA and IgG in order to bind to viruses and bacteria, preventing their attachment to epithelial cells?

Answer 46

Humoral immune mechanisms

Question 47

T lymphocytes are capable of interacting with the humoral immune system to modify antibody production. They are known to produce cytokines which attract macrophages. What part of the immune response do T cells belong to?

Answer 47

Cellular Immune Mechanisms

Question 48

Coughing is a routine and necessary defense mechanism of the lungs. What patients may have trouble coughing?

Answer 48

weak/paralyzed diaphragm, quadriplegic will not be able to have a full inspiration, tracheostomy, paralyzed vocal cord

Question 49

what types of surfaces allow for optimal diffusion?

Answer 49

thin with a large surface area

Question 50

This difference in inflation and deflation volumes at a given pressure is called ______________

Answer 50

hysteresis