Pulmonary Disease Objectives

Question 1

respiratory system general

Answer 1

provide oxygen for aerobic respiration

remove byproduct of cellular respiration (CO2)

therefore controls acid base balance

Question 2

2 functions of respiration

Answer 2

1. ventilation (move air in and out of lungs)

2. gas exchange (exchange O2 and CO2 b/t alveoli and pulmonary capillaries)

Question 3

respiratory circulation coordination

Answer 3

1. IVC and SVC return venous blood to RA
2. RV pumps blood to pulmonary artier, caries to lungs for O2 (CO2 is removed by gas exchange)
3. pulmonary veins return oxygenated blood to the LA
4. LV pumps oxygenated blood to body via aorta
5. arteries and arterioles deliver oxygenated blood to capillaries
6. gas exchanged between tissue and capillaries (o2 goes to tissue, picks up CO2)

Question 4

upper airway consists of

Answer 4

nose/mouth
pharynx/larynx
glottis/epiglottis

Question 5

right lung

Answer 5

3 lobes

RUL (well aerated)
RML (straight bronchi)
RLL

Question 6

left lung

Answer 6

2 lobes and 1 segnet

LUL (well treated)
LLL

singular segment (straight bronchi)

Question 7

lower airway consists of

Answer 7

trachea
lunchs
bronchi

Question 8

trachea

Answer 8

splits into right and left mainstream

Question 9

bronchi

Answer 9

becomes bronchioles –> terminal bronchioles –> acini

stimulated to produce mucous by the parasympathetic nervous system

Question 10

which receptors regulate bronchi

Answer 10

Beta 2

Question 11

respiratory unit is the

Answer 11

acinus

Question 12

acinus consists of

Answer 12

respiratory bronchioles

alveolar ducts/alveolar sacs/alveoli

alceolar septa

Question 13

alveolar septa

Answer 13

pulmonary capillaries and supporting connective tissue

Question 14

alveoli are lined by what cell types

Answer 14

1. flat epithelial squamous cells (supportive)

2. colmumnar (adenomatous) cells – product surfactant

Question 15

surfactant

Answer 15

lipid secreted by glandular cells in alveoli

improves inflation of alveoli and reduces tendency of them to collapse

Question 16

inspiration results from

Answer 16

negative intra thoracic pressure

Question 17

negative intra-thoracic pressure is generated by

Answer 17

1. intercostal muscles lifting ribs horizontally
2. diaphragm flattening

pulls the air into the lungs

Question 18

expiration results from

Answer 18

postive intra thoracic pressure

Question 19

positive intra-thoracic pressure is generated by

Answer 19

1. ribs moving vertically
2. diaphragm rising

pushes air out

Question 20

normal respiration depends on

Answer 20

1. brain function
2. innervation of intercostals and diaphragm
3. integrity and mobility of rib cage

Question 21

gas gradients of lung alveoli

Answer 21

pCO2= 35 mmHG

pO2- 105 mmHG

Question 22

gas gradient of pulmonary arteries

Answer 22

pCO2= 47 mm HG
pO2= 40 mmHG

Question 23

gas diffusion

Answer 23

close proximity between alveoli and pulmonary capillaries cause diffusion of the oxygen into blood DOWN CONCENTRATION GRADIENT

Question 24

diffusion of O2 into blood depends on

Answer 24

1. number of alveoli/alveolar membrane
2. Alveolar septa/interstitial tissue
3. capillaries/pulmonary blood supply
4. O2 delivery/effective ventilation

Question 25

pleura

Answer 25

two surfaces which slide over each other smoothly

small amount of fluid between them

visceral and parietal

negative presusre keeps lung inflated

Question 26

parietal pleura

Answer 26

membrane covering inner cavity surface of thorax

Question 27

visceral pleura

Answer 27

membrane covering surface of lungs

Question 28

pleural effusion

Answer 28

collection of fluid between two laters

Question 29

pathological mechanisms of pleural effusion

Answer 29

1. increased production
2. inflammation of lungs and pleura
3. decreased absorption

Question 30

increased fluid production

pleural effusion

Answer 30

increased hydrostatic pressure forces fluid to leave capillaries and it stays trapped in pleural space

Question 31

inflammation of lungs and pleura

pleural effusion

Answer 31

causes an increase of fluid

due to lung infection or cancer

Question 32

decreased absorption

pleural effusion

Answer 32

low facular oncotic pressures allow fluid to seep out of vessels

Question 33

how do you narrow the diagnosis for pleural effusion

Answer 33

must know why it is there so we perform a thoracocentesis

differentiate into transudates and exudates based on LIght’s criteria

Question 34

thoracentisis

Answer 34

looks at 
protein 
LDH
gram stain 
cluture 
hlucose 
cytology

Question 35

exudates

Answer 35

pleural effusion caused by local factors

fluid is inflammatory and proteinaceous

Question 36

causes of exudate pleural effusion

Answer 36

malignancy
connective tissue dx (SLE, RA) 
pneumonia/parapneumonic empyema 
TB
PE

Question 37

transudates pleural effusion

Answer 37

pleural effusion caused by systemic factors

fluid has minimal protein and is non inflammatory

Question 38

causes of transudate pleural effusion

Answer 38

congestive heart failure
CKD
nephrotic syndrom
myxedma

Question 39

Pneumothorax

Answer 39

occurs when free air enters potential space between visceral and parietal pleura

can be primary or secondary

Question 40

primary pneumothoraces

Answer 40

occur without clinically apparent lung dx

more common in men, 20-40, tall, thin, smoked OR from penetrative trauma

Question 41

secondary pneumothoraces

Answer 41

occur in patients with underlying lung disease

ex. COPD

Question 42

types of pneumothorax

Answer 42

spontaneous
traumatic

can be tension or non tension

Question 43

spontaneous pneumothorax

Answer 43

more often in men, tall, skinny

smokers (marijuana)

rupture of sub pleural bleb

Question 44

traumatic pneumothorax

Answer 44

result of penetrating chest trauma, blast injury, iatrogenic (mechanical ventilator, central line)

Question 45

tension pneumothroax

Answer 45

can be either spontaneous or traumatic pneumothorax

pleural tear and trapped air continues to expand and increase the intrathoracic pressure, causing decreased venous return to heart

Question 46

atelectasis

Answer 46

collapsed ALVEOLI

air can’t get into alveoli
decreased lung volume

elevated diaphragm on one side

Question 47

causes of atelectasis

Answer 47

1. incomplete expansion/poor ventilation (not breathing, pain, post op sedation, burns, gall bladder)
2. obstructive atelectasis (air doesn’t get out) (mucous plug, malignancy, asthma)
3. compressive atelectasis (pnemuthorax, pleural effusion )

Question 48

treatment for atelectasis

Answer 48

incentive spirometer device

cornet device

Question 49

pneumonia

Answer 49

tissue inflammation caused by

1. inflammatory response of local WBC
2. bacterial toxin causing leaky capillaries
3. accumulation of fluid and cells in alveoli and pleura space

fluid infiltrates the lung

Question 50

legionnaires disease

Answer 50

pneumonia caused by legionella

comes from contaminated water systems (inhalation of water droplets via ACs, shower heads, humidifiers)

causes diarrhea, hyponatremia, altered mental status

Question 51

pneumocystis pneumonia

Answer 51

condition that marks the transition of HIV to AIDS

initial s/s are subtle, but must consider HIV and immunodeficiency

hypoxia, SOB in patients with HIV/AIDS

dx from bronchoscopy

Question 52

Tb transmission and pathogen

Answer 52

inhaled air borne droplets land in alveoli

pathogen: mycobacterium Tb

Question 53

latent Tb

Answer 53

healthy person contracts the dx

the capsules resist phagocytic breath down

sealed off in granuloma where they wait and don’t cause disease

person is not contagious, and can mount immune response against infection

Question 54

reactivation Tb

Answer 54

a person with latent Tb develops a breakdown in cellular immunity caused it to escape it’s granuloma

Question 55

primary Tb

Answer 55

immunocompromised person inhaled Tb and they can’t confine it to a granuloma

they are contagious

Question 56

disseminated TB

Answer 56

primary Tb in a severely immunocompromised patient

disease spreads to other organs such as liver, kidney, bone (Potts), spleen, GI, gyn tract, meningitis

Question 57

radiographic image of latent Tb

Answer 57

granuloma will be seen on CXR

*granulomas can be caused by other dxs

Question 58

radiographic image of reactivated Tb

Answer 58

apical cavitation

progressions into lymph node inflammation

Question 59

radiographic image of disseminated Tb

Answer 59

military Tb

finding when Tb is disseminated thought the entire body

Question 60

diagnosis of active Tb disease via

Answer 60

sputum, gram stain (looking for acid fast bacteria) culture, and PCR

Question 61

diagnosis of Tb exposure

Answer 61

via PPD and CXR

induration

intradermal on forearm, read in 48-72 hrs

Question 62

induration levels in indicators (Tb PPD)

Answer 62

0 mm= negative

5 mm= positive if HIV, immunocompromised, immunosuppressive drugs, recent Tb contact

10 mm = positive if <4, high risk occupation, IVDA, high risk disease

15 mm = positive without risk factors

Question 63

bronchitis

Answer 63

bronchial inflammation

may have bronchospasm

two types: acute and chronic

Question 64

acute bronchitis

Answer 64

can be found in trachea, sinus, secondary to upper respiratory infection

Question 65

chronic bronchitis

Answer 65

permanent changes in respiratory cells and pulmonary vasculature

caused by smoking or other irritant

mucous plugging impedes air getting down into alveoli

Question 66

bronchiectasis

Answer 66

recurrent infection and inflammation destroys the bronchial wall

results in dilated bronchial segments

these segments retain mucus and repeated lung infections occur

daily cough with mucus, intermittently purulent

Question 67

2 types of COPD

Answer 67

emphysema

chronic bronchitis

Question 68

emphysema pathophysiology

Answer 68

pink puffers

minimal hypoxia and significant CO2 retention (bc decreased air exchange)

causes destruction and dilation of alveolar walls

coalescence of terminal bronchioles

loss of elastic recoils and air trapping

work of breathing increases its, use accessory muscles and lose weight from work of breathing

Question 69

chronic bronchitis pathophysiology

Answer 69

blue bloaters

significant hypoxia
retained CO2 and edema

inflamed bronchi with production of large volumes of mucous, causing V/Q mismatch

right heart overworks, causing peripheral edea

large volumes of mucous predispose them to repeated respiratory infection

Question 70

pathophysiology of asthma

Answer 70

1. reversible bronchospasm
2. increased mucus and bronchial obstruction by mucous plugs
3. bronchial and bronchiolar edema

hyperresponsive arias triggered by allergy, cold, exercise, infection

Question 71

pulmonary fibrosis caused by

Answer 71

environmental organic and inorganic toxins that damage lung connective tissues

therefore it causes progressive impairment of gras diffusion and exchange

Question 72

etiologies of pulmonary fibrosis

Answer 72

occupational (silicosis, asbestosis)
collagen vascular disease
idiopathic

Question 73

pulmonary hypertension caused by

Answer 73

condition that deoxygenates or causes increased pulmonary artery pressure this leads to hypertrophy of pulmonary arteries

this increased then causes RV to hypertrophy to force blood thru pulmonary arteries

thicker wall causes it to work harder

Question 74

etiologies pulmonary HTN

Answer 74

def side heart failure 
COPD
recurrent PE
collagen capsular disorders 
HIV

Question 75

etiologies of acute respiratory distress syndrome

Answer 75

1. systemic shock (reduce blood flow causing leaky pulmonary capillaries)
2. diret insult to pulmonary capillaries and alveoli

Question 76

ARDS pathphysiology

Answer 76

dump of cytokines due to shock or insult causes endothelial leak

pulmonary capillaries are permeable

boggy alveoli and gas exchanges is impaired

surfactant is wiped away

alveolar collapse occurs which impairs gas exchange