CardioResp class notes

Question 1

What factors dictate the Partial pressure of O2 in arterial blood?

Answer 1

• Alveolar ventilation
• Ventilation/ perfusion
• FiO2

Question 2

What is the driving force for saturating hemoglobin with O2?

Answer 2

PO2 = partial pressure of oxygen in any blood

Question 3

What are the ways that H+ is removed from the blood?

Answer 3

• respiration

- renal (metabolic) mechanism

Question 4

Normal ABG ranges?

Answer 4

pH: 7.35-7.45
PaC02: 35-45
HCO3: 22-28
PaO2: 80-100mmHg
SaO2: 95-100%

Question 5

What is respiratory acidosis?

Answer 5

pH decrease
PaCO2 increase
HC03 normal

Ex: lactic acidosis, keteacidosis

Question 6

What is respiratory alkalosis?

Answer 6

PpH increase
CO2 decrease
HCO3 normal

Ex: potassium depletion, Cushing’s syndrome

Question 7

What is metabolic acidosis?

Answer 7

pH decrease
CO2 normal
HCO3 decrease

Ex: hypoventilation, COPD

Question 8

What is metabolic alkalosis?

Answer 8

pH increase
CO2 normal
HCO3 increase

Ex: anxiety, hyperventilation

Respiratory compensation= min- hrs
Renal compensation= 1-5 days

Question 9

What factors cause impaired oxygenation?

Answer 9

aka: low PaO2

• hypoventilation
• decreased inspired O2
• diffusion impairment
• shunt
• ventilation perfusion mismatch

Question 10

NG tube precaution

Answer 10

Turn Off if HOB is less than 30 degrees

Question 11

List effects of Anesthetics

Answer 11

Decreases:
- deep breathing, tidal volume, coughing, FRC, increased RR, increased need for appropriate closing volume.

Causes increased:
- infections, secretion retention, atelectasis, WOB, immobility, LOS, but decreased vital capacity

Question 12

What reflex can be inhibited from Anesthetics?

Answer 12

Hypoxic pulmonary vasoconstriction reflex:

- shunting of blood from poor to well ventilated areas, causing V/Q mismatch

Question 13

Indications for O2 therapy

Answer 13

• SpO2

Question 14

When to involved an RT?

Answer 14

• O2 >40%

- SaO2

Question 15

What is a nebulizer?

Answer 15

Delivers drug into the airway by a vapor mist

Question 16

What is FiO2? How does it vary?

Answer 16

• proportion of inspired oxygen
• room air = 21%
• varies with breathing pattern, rate and TV
• 1L/m = FiO2 = 24% (add 4 % per litre)
• 5L/m = FiO2 = 40 %

Question 17

What flow rate do you use a simple mask?

Answer 17

5-10L/min

FiO2 25-50%

Question 18

What % of inspiration is controlled by the diaphragm?

Answer 18

40%

- two parts: lower 6 ribs + upper 3 Lspine to central tendon

Question 19

What are the accessory inspiratory muscles?

Answer 19

• SCM
• Scalenes
• Pec Minor
• Parastenal intercostal
• external intercostal

Question 20

Expiratory muscles:

Answer 20

• internal intercostals

- all abdominals but mostly TA

Question 21

Adaptation from inspiratory muscle training

Answer 21

Improves:

• inspiratory mm strength
• exercise tolerance / decreases dyspnea

Question 22

Pathophysiology of COPD and results.

Answer 22

• Parenchymal inflammation (emphysema) & decreased recoil
• Airway inflammation & remodelling

Results in:
- decreased expiratory flow, hyperinflation, gas exchange abnormalities

Question 23

Signs and symptoms of COPD

Answer 23

Signs:

• airway obstruction
• Hx of toxin exposure
• impaired diffusion capacity
• increased lung volume
• hypoxemia
• Anorexia

Symptoms:
- Dyspnea, chronic productive cough, wheeze, fatigue/ weakness

Question 24

How to test for COPD?

Answer 24

Spirometry w/ bronchodilator
- FEV1 decrease
Lung volume and diffusion capacity
CT Scan

Question 25

COPD management

Answer 25

• smooth mm relaxation: SA & LA beta agonist
• oral Cortico steroid to reduce airway inflammation
• exercise
• O2 therapy

Question 26

Positioning for respiratory distress

Answer 26

• Head, shoulders down breath in/out of mouth : pursed lip

Question 27

Differentiate b/w hypoxia and hypoxemia

Answer 27

Hypoxia: cells not getting enough O2

Hypoxemia: not enough O2 in blood

Question 28

Discuss V/Q matching in lung

Answer 28

Apex:
- Large alveoli with poor blood flow = V/Q >1
- PA>Pa>Pv
Mid zone:
- V/Q = 1------ Pa>PA>Pv

Base:
V/Q PvP>PA

Question 29

To optimize V/Q how do u position a patient in unilateral lung disease?

Answer 29

• Bad lung up b/c perfusion is better in the dependent part of the lung.

Question 30

What is ventilation like in restrictive diseases

Answer 30

Reduced compliance:

- decrease lung volume causing increase RR + WOB

Question 31

What is the ventilation in obstructive diseases

Answer 31

Increased resistance to airflow:
- higher intra pleural pressures are needed to overcome the high airway resistance due to loss of elastic recoil and alveoli destruction

Question 32

What determines the amount of O2 in the blood?

Answer 32

• Hb saturation: Carrying capacity

- SO2: Saturation of Hb with O2 (how much of the carrying capacity is being used)

Question 33

Name 13 secretion techniques

Answer 33

• Cough +/- splint
• Huffing (forced expiratory technique): 2 reps followed by 3 DB
• Assisted cough: manual force to xyphoid
• Active cycle breathing: relax breath, big with hold, relax, huff
• Vibrations
• Percussions: see precaution list
• Rib springing
• PEP mask: positive expiratory pressure
• Autogenic drainage: unsticking, collecting, evacuating
• Postural drainage: special positions
• exercise:
• suction:

Question 34

Postural drainage position for: Left upper lobe

Answer 34

Apical segment:
- sitting at 80 degrees
Posterior segment: 
- Incline prone w/ left side partially up
Left lingua:
- decline, supine, left side up a bit

Question 35

Postural drainage position for: Left lower lobe

Answer 35

Superior (apical) segment:
- Flat, prone, pillow under belly
Anterior segment:
- Decline, supine
Posterior segment:
- decline prone, pillows under hips
Lateral segment:
- decline, side lying

Question 36

Postural drainage position for: Right upper lobe

Answer 36

Apical:
- sitting at 80 degrees
Anterior:
- flat supine, hips ER
Posterior:
- flat, prone, pillow under chest

Question 37

Postural drainage position for: Right middle lobe

Answer 37

Middle lobe:

- decline, supine, right side up a bit

Question 38

Postural drainage position for: right lower lobe

Answer 38

Superior:
- flat, prone, pillow under belly
Anterior segment:
- decline supine
Posterior:
- decline, prone, pillow under hips
Lateral segment:
- decline, side lying

Question 39

What are the pressure requirements for suctioning

Answer 39

Adults: 120-150 mmHg
Children: 80-120 mmHg
Infant: 60-80 mmHg

Question 40

What are the indications for suctioning

Answer 40

• unable to clear secretion
• loss of airway control
• lung pathologies
• need a sputum sample

Question 41

Contraindications to nasopharyngeal suctioning

Answer 41

Bleeding

• epiglottis or croup
• acute head or facial injury
• CSF leakage
• Nasal stenosis/ infection/ polyps

Question 42

Define lung compliance

Answer 42

Ability of lung to stretch during a change in volume

Question 43

What is atmospheric pressure

Answer 43

At sea level 760 mmHg

Question 44

What is intrapulmonary pressure

Answer 44

• pressure in the alveoli of the lungs

- Rises and falls with patterns of breathing but always equalizes itself with atmospheric pressure

Question 45

Define Intrapleural pressure

Answer 45

• pressure within pleural cavity

- fluctuates with breath but always ~ 4 mmHg

Question 46

What is transpulmonary pressure

Answer 46

Difference between intrapulmonary and intra pleural pressure
- keeps the lungs from collapsing

Question 47

List different breathing exercises

Answer 47

• Diaphragmatic: belly breathing
• Diaphragmatic plus hold: prevents atelectasis, increases diffusion time
• lateral costal breathing: lower lung zones, cue with hands
• pursed lip breathing: expiration 2x inspiration
• Segmental breathing: use tactile and pressure cues
• Incentive Spirometry: sustain for 3 seconds, no evidence
• breath stacking: when deep breathing is too painful
• SOS for SOB
• Rib springing:

Question 48

How does a BODE index score relate to COPD

Answer 48

Score of 7+ = very poor prognosis
- FEV1
- Distance walked in 6 min (m)
- MMRC dyspnea scale
- BMI
-

Question 49

Aerobic FITT for pulmonary rehab

Answer 49

F: 1-2x/day (3-7days/week)

I: Borg 3-5/10 (SpO2 >88%), 50-80 % of 6MWT avg speed

T: intervals

T: large mm groups

Question 50

Resistance FITT for pulmonary rehab

Answer 50

KISS: more reps before weights

Question 51

What is EIB

Answer 51

Increase in airway resistance following rigorous exercise

- >10% decrease in FEV1 or peak expiratory flow rate occuring maximally at 3-15 to mins after exercise

Question 52

How is EIB diagnosed

Answer 52

• FEV1, PEFR tests
• incremental exercise
• saline or mannitol challenge
• escaping voluntary hyperventilation

Question 53

Signs and symptoms of EIB

Answer 53

SOB, dry cough, wheeze, chest congestion/discomfort, fatigue, decreased exercise tolerance

Question 54

What is hyperosmolarity theory for EIB

Answer 54

Water loss in the airways causes narrowing of airways and creates a wheeze:
- evaporation of water causes increased osmolarit pay of airway and results in mast cell degranulation and release of brochoconstrictor mediators

• with colder air there is less H2O which is why it’s more prevalent

Question 55

What are the 3 stages of EIB

Answer 55

1) Early:
- most severe, cough ++, after 80% VO2max 3-8 mins

2) refractory period:
- the chemicals that cause EIB get depleted after being released
- allow the inflammation to subside, then u have 3 hrs where no brochospasm will occur.

3) Late phase:
- less severe symptoms may reoccur hours later.

Question 56

Exercise advice for EIB

Answer 56

• Warm up, intervals/ built in rest periods.
• cover mouth and nose
• self monitor
• try baseball, golf, wrestling, avoid swimming and skiing.

Question 57

How to test inspiratory muscles

Answer 57

Strength: MIP
Endurance: Threshold trainer

Question 58

IMT FITT prescription

Answer 58

F: 4-5 days/week
I: start 9 cm H20 or 25% MIP, progress 5%/week
T: 5-15 min/day, add 1-3min up to ~ 30min
T: threshold type trainer

Monitor: fatigue, HR, BP, dyspnea, SpO2

Question 59

What is bronchopulmonary dysphasia

Answer 59

• chronic lung disease in children

- — Crackles, wheeze, cyanosis, hypoxemia, LRTI, abnormal CXRay

Question 60

What is croup and bronchiolitis

Answer 60

Virus produces inflammation and edema of upper airway (croup) and lower (bronchiolitis)
- harsh barking cough, hoarse voice, stridor

Question 61

Common respiratory patterns for ppl with CP

Answer 61

• poorly developed chest or scoliosis
• diaphragm for breathing and posture
• chronic hypoventilation
• inability to take DB
• ineffective cough
• low energy/ fatigue
• risk of aspiration

Question 62

What does respiratory distress look like in kids

Answer 62

• > RR, cyanosis, nasal flaring, grunting, head bob, apnea/ bradycardia, breathing pattern, structural deformities ( pectins excavatum, carinatum [pidgeon chest], scoliosis)

Question 63

Anatomical differences of adult and new born

Answer 63

• different chest shape and structure
• immature alveoli structure and function
• Narrow airways
• nose breathers
• diaphragmatic breathing only
• lower TV, higher RR: new born TV= 18-29 mL, adult = 500mL
• increased WOB
• infection risk

Question 64

Changes in body and breathing for 6-12 month child

Answer 64

• ribs move downward from intercostal activity / efficient diaphragm
• increased mm
• larger lung volumes and airway size: increase TV/ RRdecrease

Question 65

Heart SA

Answer 65

Point 1) 5th interspace, 9 cm L of midline
Point 2) 5th rib (SC articulation)
Point 3) between the 2nd interspace at the level of sternum

Question 66

What is IPPA?

Answer 66

Inspection:
Palpation:
- chest expansion, tactile fremitis, trachea position, vitals
Percussion:
- normal = resonant, fluid = dull, air = hyper-resonant
Auscultation:
- 6 anterior, 10 posterior
- bronchial = hollow breath/ short pause. Normal over large airways
- Adventitious:
— crackles early = obstruction, late = edema/fibrosis
— wheezes: musical snoring
— stridor: laryngeal/ tracheal obstruction
—Pleural rubs: creaking leather

Question 67

11 steps of reading a CXRay

Answer 67

1) is it PA or AP?
2) over or under exposed?
3) satisfactory inspiration (9 ribs post, 6 ant)
4) is patient rotated:
5) is heart enlarged: A/B ratio should be smaller than 50%
6) Silhouette signs:
7) position of mediastinum
8) landmarks of the mediasternum
9) Hila/ fissures normal
10) How are the bones
11) clinical reasoning skills

Question 68

What does atelectasis/ collapse look like on CXRay

Answer 68

• shift of landmarks
• silhouette signs
• collapse can look white because there is no air

Question 69

Respiratory mm innervations

Answer 69

Inspiration:

• accessories: C2-4
• diaphragm : C3-5
• intercostals : T1-11

Muscles of expiration:
- intercostals: t1-11
Abdominals t6- L1