Chapter 16 - Critical Care

Question 1

How do you calculate MAP?

Answer 1

MAP = (CO x SVR) + CVP

MAP = 2/3 DBP + 1/3 SBP

Target is often 65 as anything less can eventually cause ischemia.

Question 2

How do you calculate CI? Why is it significant?

Answer 2

CI = CO/BSA = (SVxHR)/BSA

Range 2.6-4.2

Below 2.2 may indicate cardiac shock

Index is useful because it takes an absolute number (CO) and relates it to the size of the individual. Each person should get 2.2 of cardiac output per body surface area.

Of note, weight is not used, because BSA takes height into account, limiting the contribution of adipose to the equation. This better determine perfusion needs.

Question 3

How do you calculate SVRI?

Answer 3

SVR x BSA

Question 4

what percentage of CO does the brain, kidney, heart get?

Answer 4

Brain 15% Kidney 25% Heart 5%

Question 5

Preload is linearly related to what?

Answer 5

end diastolic volume and filling pressure

Question 6

What is afterload?

Answer 6

resistance against the ventricle contracting

Question 7

What is stroke volume determined by?

Answer 7

preload, contractility, and afterload

SV = EDV - ESV

Question 8

How do you calculate ejection fraction?

Answer 8

stroke volume/end diastolic volume

Question 9

What is end systolic volume determined by?

Answer 9

contractility and afterload

Question 10

At what heart rate does CO start to decrease?

Answer 10

150 - decreased diastolic filling time

This is the point where a hypotensive patient will likely improve BP by decreasing heart rate.

Question 11

What % of LVEDV does atrial kick account for?

Answer 11

15-30%

Question 12

What is the Anrep effect?

Answer 12

Automatic increase in myocardial contractility (inotropy) secondary to increased afterload.

This allows the heart to compensate for vascular resistance, otherwise output would decrease proportionally to increased resistance.

Question 13

What is the Bowditch effect?

Answer 13

Automatic increase in contractility secondary to heart rate increase.

^{Increasing heart rate does not allow the Na/Ca exchange to efficiently eliminate intracellular Ca. The resulting Ca buildup leads to increased inotropism.}

^{The Bowditch is an effect of the healthy heart. It does not occur in the failing heart - an engine out of fuel. The clinical result is that beta-blockers improve survival in heart failure.}

Question 14

What is the radial diastolic and systolic pressure in relationship to aortic mean pressures?

Answer 14

diastolic slightly lower, systolic slightly higher

Question 15

How do you calculate O2 consumption (VO2)

Answer 15

VO2 = (CO x CaO2) - (CO x CvO2) = CO x (CaO2 - CvO2)

• CaO2 - concentration of arterial O2 measured at pulm vein
• CvO2 - concentration of venous O2 measured at pulm artery
• (CaO2 - CvO2) is known as AV O2 difference
• VO2 can actually be measured allowing CO to be calculated
  
  • CO = VO2/(CaO2 - CvO2)

Question 16

What is the normal O2 delivery to consumption ratio?

Answer 16

5:1

Question 17

Is O2 consumption supply dependent?

Answer 17

No, does not change until levels of delivery are very low

Question 18

What causes a right shift in the O2 dissociation curve?

Answer 18

Increased CO2, increased temperature, increased ATP production, increased 2,3-DPG production, increased H+ (decreased pH).

The curve describes the relationship between the partial pressure of oxygen (x) and oxygen saturation (y). Increases in these states causes an offloading effect where at lower PO2, the O2 will be less saturated. For temp, acid, this is because of denaturing. Initially more O2 binding increases affinity, increasing O2 sat. Above PO2 60, the effect dampens, and increasing PO2 has a more minimal effect on O2 sat (PO2 60 correlates w/ O2 sat 90%). O2 delivery then relies on Hgb, meaning more transfusions would be needed.

This produces two points in critical states (increased ATP, temperature, acidosis, CO2): Hgb will offload more O2 b/c tissues need more energy, and a higher PO2 is required for a greater O2 sat - eg PO2 80 for O2 sat of 90%.

Question 19

What is the normal p50 (PO2 at which 50% of O2 receptors are saturated)?

Answer 19

27mmhg

Question 20

When does SvO2 go up?

Answer 20

Shunting or decreased extraction (L shift), ie increased O2 delivery, or decreased demand.

SVO2 is mixed venous blood measured from pulmonary artery - ie the end result of O2 consumption.

Shunt - perfusion w/o ventilation; ie V/Q ratio approaches 0. This can occur when alveoli fills with fluid, preventing ventilation though perfusion continues. Sepsis can cause shunting at a microvascular level such that SvO2 would be high but there is evidence of end organ ischemia.

Question 21

When does SvO2 go down?

Answer 21

increased extraction, decreased delivery

• decreased Hb
• decreased SaO2 - hypoxemia
• decreased Q (shock, arrhythmia)

Question 22

What can make wedge pressures inaccurate?

Answer 22

pulmonary htn, aortic regurg, mitral stenosis/regurg, high peep, poor LV compliance

Question 23

Where should a swan-ganz catheter be placed?

Answer 23

zone III (lower) lung

Question 24

What do you do with hemoptysis after flushing a swan-ganz catheter?

Answer 24

Stop the bleeding: pressure then OR

• Increase PEEP which will tamponade the pulmonary arter bleed
• Mainstem intubate non-affected side
• Can try to place fogarty balloon down the affected side
• May need thoracotomy and lobectomy

Question 25

What are contraindications to swan?

Answer 25

previous pneumonectomy, left bundle branch block

Question 26

What is the only way to measure pulmonary vascular resistance?

Answer 26

swan

Question 27

What are the primary determinants of myocardial O2 consumption?

Answer 27

ventricular wall tension and HR

Question 28

what has a higher PO2- pulmonary capillaries or LV?

Answer 28

pulmonary capillaries- LV gets unsaturated bronchial blood

Question 29

what is the normal aa gradient?

Answer 29

10-15 mmhg

This is used to delineate the cause of low PaO2. Eg in high altitude areas, the lung and its exchange are normal, but the PAO2 is low. The gradient is normal, but the PaO2 is also low.

Diffusion defects dec PaO2

RL shunting inc PaO2

Question 30

What blood has the lowest venous saturation?

Answer 30

coronary venous (30%)

The heart tissue can pull a lot more O2 than the rest of the body.

Question 31

What are the signs of acute adrenal insufficiency?

Answer 31

cardiovascular collapse unresponsive to fluids and pressors

Question 32

signs of chronic adrenal insufficiency?

Answer 32

hyperpigmentation, weakness, weight loss, GI sx

decreased K, increased Na, fever, hypotension

Question 33

what steroids are at 1x potency of endogenous?

Answer 33

cortisone, hydrocortisone

Question 34

What steroids are at 5x potency of endogenous?

Answer 34

prednisone prednisolone methylprednisolone

Question 35

What steroids are at 30x strength of endogenous steroids?

Answer 35

dexamethasone

Question 36

What is the pathogenesis and what are the signs/symptoms associated with neurogenic shock?

Answer 36

loss of sympathetic tone, decreased HR, decreased BP, warm skin

tx: volume then phenylephrine vs levophed; midodrine can be used out of acute phase

Question 37

what is the initial alteration in hemorrhagic shock?

Answer 37

increased diastolic pressure, then tachycardia, then hypotension

Question 38

what is beck’s triad?

Answer 38

hypotension, jugular venous distention, muffled heart sounds

Question 39

what does echo show in tamponade?

Answer 39

• decreased RA filling pressures
• possible pericardial effusion
• subsequently decreased LVEF

Question 40

What is the early sepsis triad?

Answer 40

hyperventilation, confusion, respiratory alkalosis

Question 41

what glucose derangement do you get in early gram negative sepsis?

Answer 41

decreased insulin, increased glucose (impaired utilization)

Question 42

What glucose derangements do you get in late gram negative sepsis?

Answer 42

increased insulin, increased glucose (secondary to insulin resistance)

Question 43

What are the signs of fat emboli? where do they usually come from?

Answer 43

• petechia, hypoxia, confusion
• sudan red may show fat in sputum and urine
• lower extremity fx

Question 44

What will echo show in pulmonary thromboemboli?

Answer 44

RV strain

Question 45

When do you suspect PE?

Answer 45

• SX: chest pain, cough, dyspnea; postop, non-amb
• VS: tachycardia, tachypnea, decreased BP if massive PE
• PE: single swollen leg
• ABG: decreased PO2 and PCO2, respiratory alkalosis
• CXR: clear if nothing else going on
• Underlying physiology: PA systolic >40

Question 46

Air Emboli - what do you do?

Answer 46

• place pt. head down and roll to left
• may need to secure airway
• usually resolves w/ positioning and hi-flow O2
• if unstable/neuro sx - tx is hyperbaric O2
• aspirate air out w/ central line/PA catheter to RA/RV

Question 47

When does an intra-aortic balloon pump inflate, deflate?

Answer 47

Inflates on T-wave (diastole); deflates on P-wave or start of q wave (systole)

Question 48

What is a contraindication for an IABP?

Answer 48

Aortic regurgitation

Question 49

When is an IABP placed?

Answer 49

Cardiogenic shock after CABG, MI or in patients with refractory angina. Decreases afterload. Improves systolic blood pressure which improves coronary perfusion

Question 50

Where are alpha-1 receptors

Answer 50

Vascular smooth muscle constriction; gluconeogenesis, glycogenolysis

Question 51

What do alpha-2 receptors do?

Answer 51

• Venous smooth muscle constriction
• Inhibits release of NE and EPI

Question 52

What do beta-1 receptors do?

Answer 52

Increase myocardial contraction and rate

Question 53

What do beta-2 receptors do?

Answer 53

Relaxes bronchial smooth muscle, relaxes vascular smooth muscle, increases insulin, glucagon, rennin

Question 54

What do dopamine receptors do?

Answer 54

Relax renal and splanchnic smooth muscle

Question 55

What is the rate of low dopamine administration and what does it affect?

Answer 55

05 µg per kilogram per minute acts on dopamine receptors -renal

Question 56

What is the medium dose for dopamine drip and what does it affect?

Answer 56

6 to 10 µg per kilogram per minute-beta-adrenergic acts on heart contractility

Question 57

What is the dose for high-dose dopamine and what does it affect?

Answer 57

Greater than 10 µg per kilogram per minute acts on alpha-adrenergic receptors causes vasoconstriction and increased blood pressure

Question 58

What is the initial drip rates for dobutamine and what does it do?

Answer 58

• 3 µg per kilogram per minute initially
• 5 to 10 µg/kg/min - beta-1 activation increasing contractility
• >15 µg/kg/min - alpha adrenergic activation
• vasodilation and increased heart rate

Question 59

What does milrinone do?

Answer 59

Phosphodiesterase inhibitor increases cAMP Results in increased calcium influx and increased myocardial contractility Also causes vascular smooth muscle relaxation and vasodilation

Question 60

What does phenylephrine do?

Answer 60

Acts on alpha-1 receptors causes vasoconstriction

Question 61

What does norepinephrine do?

Answer 61

Low-dose causes beta-1 activation increasing contractility High-dose causes alpha-1 and alpha-2 activation Potent splanchnic vasoconstrictor

Question 62

What does epinephrine do?

Answer 62

Low-dose causes beta-1 and beta-2 activation causing increased contractility and vasodilation. Can decrease blood pressure at low doses High-dose causes activation of alpha-1 and alpha-2 causing vasoconstriction. Increased cardiac ectopic pacer activity and myocardial O2 demand

Question 63

What does isoproterenol do?

Answer 63

Beta-1 and beta-2 activation, increases heart rate and contractility, vasodilates. Side effects are extremely arrhythmogenic, increased heart metabolic demand, may actually lower blood pressure

Question 64

What does vasopressin do?

Answer 64

V1 receptors cause vasoconstriction of vascular smooth muscle V2 receptors are intrarenal and cause water reabsorption at collecting ducts V2 receptors are extrarenal and mediate release of factor VIII and von Willebrand factor

Question 65

What does nipride to do?

Answer 65

Arterial and venous dilator. Can cause cyanide toxicity. Check thiocyanate levels

Question 66

What does nitroglycerin do?

Answer 66

Predominantly veno dilation, modest effect on coronaries; decreased myocardial wall tension by decreasing preload

Question 67

What does hydralazine do?

Answer 67

Alpha blocker

Question 68

How do you measure lung compliance?

Answer 68

Change in volume divided by change in pressure. High compliance means lungs easy to ventilate. Pulmonary compliance decreases in patients with ARDS, fibrotic lung disease, reperfusion injury, pulmonary edema.

Question 69

What does aging do to lungs?

Answer 69

Decreases FEV1 and vital capacity, increases functional residual capacity

Question 70

Where is the V/Q ratio highest?

Answer 70

Highest in upper lobes, lowest in lower lobes

Question 71

What does increasing peep do?

Answer 71

Improves oxygenation through alveoli recruitment. Improves FRC.

Question 72

How do you decrease CO2 on a ventilator?

Answer 72

Increase rate or volume

Question 73

What does pressure support do?

Answer 73

Decreases the work of breathing

Question 74

Why do you want to keep FI O2 below 60%?

Answer 74

Prevent 02 radical toxicity

Question 75

When do you have a risk of barotrauma?

Answer 75

Plateaus greater than 30 and peaks greater than 50

Question 76

What are the complications of hi Peep?

Answer 76

Decreased right atrial filling Decreased cardiac output Decreased renal bloodflow Decreased urine output Increased pulmonary vascular resistance

Question 77

When do you use high-frequency ventilation?

Answer 77

Kids; tracheoesophageal fistula, bronchopleural fistula

Question 78

What does inverse ratio ventilation do?

Answer 78

Helps reduce barotrauma

Question 79

What is total lung capacity?

Answer 79

Lung volume after maximal inspiration. TLC equals FVC plus RV

Question 80

What is forced vital capacity

Answer 80

Maximal exhalation after maximal inhalation

Question 81

What is residual volume

Answer 81

Lung volume after maximal expiration

Question 82

What is tidal volume?

Answer 82

Volume of air with normal inspiration and expiration

Question 83

What is functional residual capacity?

Answer 83

Long volume after normal exhalation. FRC equals ERV plus RV Surgery, sepsis, trauma all decrease FTC

Question 84

What is expiratory reserve volume?

Answer 84

volume of air that can be forcefully expired after normal expiration

Question 85

What is inspiratory capacity

Answer 85

maximum air breathed in from FRC

Question 86

What is FEV1?

Answer 86

forced expiratory volume in 1 second after maximal inhalation

Question 87

What is minute ventilation?

Answer 87

TV x RR

Question 88

What does restrictive lung disease do to lung function tests?

Answer 88

decreased TLC decreased RV Decreased FVC FEV1 can be normal or increased

Question 89

What does obstructive lung disease do to lung function tests?

Answer 89

increased TLC increased RV decreased FEV1 FVC can be normal or decreased

Question 90

What is dead space?

Answer 90

normally to the level of the bronciole (150mL) increases with drop in cardiac output, PE, pulmonary HTN, ARDS, excessive PEEP can lead to high CO2 buildup -area of lung that is ventilated but not perfused

Question 91

What does COPD do to lung function?

Answer 91

increases work of breathing because of prolonged expiratory phase work of breathing normally 2% of total body VO2

Question 92

what is ARDS and what does it do to lungs?

Answer 92

mediated by cellular inflammatory process increased proteinaceous material increased gradient increased shunt most common in sepsis

Question 93

Diagnosis of Acute lung injury?

Answer 93

acute onset bilateral pulmonary infiltrates paO2/FiO2 = 18 or no clinical evidence of LAH

Question 94

Diagnosis of ARDS

Answer 94

acute onset bilateral pulmonary infiltrates PaO2/FiO2 <200

Question 95

What is SIRS mediated by? Criteria?

Answer 95

TNF alpha and IL-1 temp >38 or 12 or 90

Question 96

Most potent stimulus for SIRS?

Answer 96

lipopolysacharide (Lipid A)

Question 97

Diagnosis of Sepsis?

Answer 97

SIRS with clinical evidence of infection sepsis with organ disfunction

Question 98

Septic shock?

Answer 98

Sepsis and arterial hypotension despite adequate volume resuscitation

Question 99

Muti organ dysfunction?

Answer 99

progressive but reversible dysfunction of 2 or more organs