Exam II

Question 1

Nasal Cannula delivers between __ and __% or __ and __ fiO2 oxygen

Answer 1

24-44% (0.24-0.44)

Question 2

Nasal Cannula Flow meter rate __ to __ per min unless high flow

Answer 2

1-6L

Question 3

Nasal Cannula 1L/min increases oxygen by approximately __ to __ %

Answer 3

3-4%

Room air 21% so 1L = 24%, 2L = 28%, 3L = 32%

Question 4

Nasal Cannula High Flow delivers __ to __ % or __ to __ L/min oxygen

Answer 4

60-90% (0.60-.090 fio2) or 15-40L/min oxygen

Question 5

Simple face mask delivers between __ and __ % or __ and __ fiO2

Answer 5

30-60% oxygen or 0.30-0.60 fiO2

Question 6

Simple face mask flow meter rate __ to __ L/min

Answer 6

5-12 L/min

Question 7

Non-rebreather mask meter flow rate __ L/min

Answer 7

15L/min (to the top)

Question 8

Non-rebreather mask delivers __ to __% or __ to __ fiO2

Answer 8

60-80% or 0.60-0.80 fiO2

Question 9

Non-rebreather mask reservoir bag allows __________

Answer 9

Inspiration O2 flows into mask and bag

One-way valves on expiration - ensuring
highest O2 delivery

Question 10

Room air provides __% or __ fiO2

Answer 10

21% or 0.21 fiO2

Question 11

fiO2

Answer 11

Fraction of Delivered Oxygen

Question 12

Bag Valve Mask AKA ____________ or __________

Answer 12

Ambu-bag or BVM system

Question 13

Bag Valve Mask provides __L/min or __% O2

Answer 13

15L/min or 100% O2 (1.00 fiO2)

Question 14

ET tube cuff should be inflated to __ to __ cm H2O

Answer 14

25-30cm H2O

If pressure if off, call RT

Question 15

CXR for ETT should show tip at __ to __ cm above the ______ for adults

Answer 15

3-4cm above the carina for adults

Question 16

Tidal Volume (VT)

Answer 16

Amount of gas to be delivered with each breath

6-8 ml/kg based upon IDEAL body weight

Example: 70 kg patient should receive between
420 to 560ml

Question 17

Physiologic PEEP is __ to __ cm H2O

Vent settings range from __ to __ cm H20

Answer 17

PEEP - 3 to 5

Vent - 5 to 20

Question 18

Normal pH of blood

Answer 18

7.35 - 7.45

Question 19

PCO2 (PaCO2) correlates with __________

Answer 19

Respiratory function

Question 20

Normal PCO2 (PaCO2)

Answer 20

35-45 mmHg

Question 21

High PCO2 (PaCO2) is correlated with __________

Answer 21

Respiratory acidosis

Question 22

Low PCO2 (PaCO2) is correlated with __________

Answer 22

Respiratory alkalosis

Question 23

HCO3 is associated with __________

Answer 23

Metabolic function

Question 24

High HCO3 indicates __________

Answer 24

Metabolic alkalosis

Question 25

Low HCO3 indicates __________

Answer 25

Metabolic acidosis

Question 26

Low pH
High PCO2
High HCO3

Answer 26

Compensated Resp. Acidosis

Question 27

High pH
Low PCO2
Low HCO3

Answer 27

Compensated Resp. Alkalosis

Question 28

Low pH
Low PCO2
Low HCO3

Answer 28

Compensated Meta. Acidosis

Question 29

High pH
High PCO2
High HCO3

Answer 29

Compensated Meta. Alkalosis

Question 30

Normal HCO3 levels

Answer 30

22-26 mEq/L

Question 31

Interpret the following ABG: 
pH - 7.60
CO2 - 36 
HCO3 - 45
PaO2 - 87

Answer 31

Metabolic alkalosis

Question 32

Interpret the following ABG: 
pH - 7.14
CO2 - 45 
HCO3 - 18
PaO2 - 80

Answer 32

Metabolic acidosis

Question 33

Interpret the following ABG: 
pH - 7.78
CO2 - 44 
HCO3 - 60
PaO2 - 90

Answer 33

Metabolic alkalosis

Question 34

Interpret the following ABG: 
pH-  7.08
CO2 - 56 
HCO3 - 26
PaO2 - 60

Answer 34

Respiratory acidosis

Question 35

Which Acid-Base imbalance do you suspect from the following scenario?

The patient is a 34 year old construction worker who has been having increased NV and severe abdominal pain. He has a CT scan of the abdomen that reveals a gastric obstruction. You have orders to place an NG Tube. He is placed on continuous high suction and now he feels light headed and is having numbness in his face and hands.

Answer 35

Metabolic alkalosis

Question 36

What additional assessment findings do you anticipate for the patient in metabolic alkalosis?

Answer 36

Restlessness
NVD
Lethargy
Confusion

Question 37

Which Acid-Base imbalance do you suspect from the following scenario?

Your patient is a 27 year old female who has recently been on a very strict diet and exercise plan. She is complaining of severe headache, is breathing at 30bpm and has an increased HR.

Answer 37

Metabolic acidosis

Question 38

Which Acid-Base imbalance do you suspect from the following scenario?

Your patient is a 17 year old female who was brought in by EMS unconscious, she has track marks on her arms and legs and appears homeless.

Answer 38

Respiratory acidosis

Question 39

Which Acid-Base imbalance do you suspect from the following scenario?

Your patient is a 24 year old nursing student who has not started to study for the final exam. She presents to the ED with her clinical faculty and is short of breath, breathing rapidly and shallow.

Answer 39

Respiratory alkalosis

Question 40

Here is the ABG for a 75yo male. Interpret the results: 
PaO2 - 78 mm Hg on room air
pH - 7.11
PaCO2 - 56 mm Hg
HCO3 - 28 mEq/L

Answer 40

Partially compensated respiratory acidosis

Question 41

Interpret the following ABG: 
pH - 7.50
CO2 - 35
HCO3 - 34
PaO2 - 82

Answer 41

Metabolic alkalosis

Question 42

Interpret the following ABG: 
pH - 7.22
CO2 - 60
HCO3 - 34
PaO2 - 60

Answer 42

Partially compensated respiratory acidosis with hypoxemia

Question 43

Interpret the following ABG: 
pH - 7.28
CO2 - 30
HCO3 - 18
PaO2 - 80

Answer 43

Partially compensated metabolic acidosis

Question 44

Interpret the following ABG: 
pH - 7.42
CO2 - 49
HCO3 - 34
PaO2 - 88

Answer 44

Compensated metabolic alkalosis

Question 45

Define: PaCO2

Answer 45

The pressure of tension exerted by dissolved CO2 gas in the blood, influenced only
by the lungs

Question 46

Define: CO2

Answer 46

CO2 gas is an acid, which is excreted from the body by the kidneys and respiration.

There is a direct relationship between ventilation and excretion of CO2. If the PaCO2 is low, (Alkaline) the lungs are hyperventilating. If the PaCO2 is high, (acidosis) The lungs are hypoventilating

Question 47

Define: HCO3 and base excess

Answer 47

Bicarbonate and Base excess are influenced only by metabolic processes, (ie: DKA, Uremia) not by respiratory causes. Positive values indicate metabolic alkalosis, and negative values indicate metabolic acidosis.

Question 48

Normal PaO2 level

Answer 48

80-100

Question 49

What is an OPA?

Answer 49

Oropharyngeal Airway

Question 50

How do you measure an OPA for a Pt?

Answer 50

Measure from the mouth to the earlobe

Question 51

What are the (3) indications for mechanical ventilation?

Answer 51

1. Support oxygen
2. Support CO2 clearance
3. Reduce work of breathing

Question 52

Who has chronically high and compensated CO2?

Answer 52

Those with COPD and asthma

Question 53

What is PEEP?

Answer 53

Positive end-expiratory pressure

• Used if FiO2 is over 50% on a ventilator
• Keeps pressure in the lungs (improves gas exchange by keeping alveoli open)

Question 54

Nursing assessment of Pt with ETT?

Answer 54

• Monitor ventilation with BVM (equal bilateral chest rise/fall)
• Assess oxygenation by SPO2
• Suction when necessary
• Watch the clock with intubation attempts (less than 30 sec)
• Identify cm mark at Pt’s lip and document (compare to previous measures, call provider and RT if tube moved)
• Document size of ETT
• ABG, if needed

Question 55

Preliminary assessment for all ETT?

Answer 55

• Observe chest for symmetrical rise and fall
• Auscultate lungs bilaterally
• Auscultate over the stomach
• CO2 detector

Question 56

Actions following ETT placement (after assessment)

Answer 56

• VENTILATE
• Secure the tube and identify ‘cm’ placement
• Call RT (so they can inflate cuff)

Question 57

Capnography

Answer 57

Measures CO2

A-B: end inhalation
B-C: early exhalation
C-D: exhalation
D: END EXHALATION (CO2 stat, 35-45)
D-E: Inhalation

Question 58

CO2 detector

Answer 58

Confirms proper placement of ETT (yellow means yes, purple means problem)

Question 59

How do you assess a ventilator?

Answer 59

1. How is the breath delivered? (delivered by pressure or volume)
2. What is the rate of delivery? (controlled rate, spontaneous rate, or combo)

Question 60

Ventilator: Pressure or volume?

Answer 60

Breath is delivered by set pressure or set volume

Question 61

Ventilator: Controlled, spontaneous, or combo

Answer 61

Controlled: set RR per minute
Spontaneous: Triggered by patient attempt to breathe
Combo: Triggered by patient but will deliver breath after set time of apnea (may be AC: Assist/Control ventilation)

Question 62

Ventilator: exhalation

Answer 62

Most ventilators are positive pressure with passive exhalation

Question 63

I:E ratio

Answer 63

1:2 (longer for COPD or asthma patients)

Question 64

What is the normal physiological PEEP range?

Answer 64

3-5 cm H2O

Question 65

Range for vent PEEP

Answer 65

5-20 cm H2O

Question 66

Monitor ___________, ____________, and __________ when Pt is on a vent

Answer 66

EV (exhaled tidal volume), PIP (Peak Inspiratory Pressure), and total expiratory rate

Question 67

What are the (3) waves to monitor on the vent?

Answer 67

1. Pressure
2. Flow
3. Volume (Vt)

Question 68

SIMV (synchronized intermittent mandatory ventilation)

Answer 68

• Preset RR (f) and tidal volume (Vt)
• Vt of spontaneous breaths vary (machine allows Pt to complete WOB)
• Good mode for weaning off vent

Question 69

CPAP (continuous positive airway pressure) invasive or noninvasive

Answer 69

Creates PEEP

Question 70

Vent: Low Pressure Alarm

Answer 70

• Check all connections
• Check ET placement
• Check cuff pressure
• Is the vent functioning?
• Is there a leak in the system? (call RT)

Question 71

Vent: High Pressure Alarm

Answer 71

• Is the patient biting the ETT?
• Does Pt need suction?
• Is Pt coughing or gagging?
• Is Pt having bronchospasm?
• Sudden change in Pt? Lung sounds?
• Did the equipment fail?

Question 72

How long on mechanical vent before considering trach? (may be different now due to COVID)

Answer 72

3 days

Question 73

VAP bundle

Answer 73

• Elevate HOB to 30-45 degrees
• Daily awakening
• Prophylaxis for DVT
• Prophylaxis for PUD
• Daily oral care

Question 74

DO NOT INSTILL __________ into ETT

Answer 74

Normal Saline

Question 75

Initial Sx of AKI

Answer 75

Decreased urine output

Question 76

Azotemia

Answer 76

High BUN and Cr

Question 77

Minimum urine output per hour ____ mL

Answer 77

30 mL

Question 78

Most common cause of AKI in hospitalized patients?

Answer 78

Contrast Induced

Question 79

Pre-renal AKI

Answer 79

• Prolonged Hypotension
• Prolonged low cardiac output
• Prolonged volume depletion
• Reno-vascular thrombosis

Question 80

Intra-renal AKI

Answer 80

• Kidney ischemia
• Endogenous toxins
• Exogenous toxins
• Infection

Question 81

Post-renal AKI

Answer 81

Obstruction

Question 82

Ways to prevent AKI

Answer 82

• Avoid Nephrotoxins
• – Use isoosmolar radiocontrast media & limit contrast volume to <100 mL.
• – Use antibiotics cautiously with appropriate dose modification
• – Stop certain medications (NSAIDs, ACE inhibitors, ARBs)
• Optimize Volume Status Before Surgery or Invasive Procedures
• – Aim for urinary output >40 mL/hr
• – Hydrate with normal saline before and after procedures requiring radiocontrast media.
• Reduce Incidence of Nosocomial Infections
• – WTF? (Why The Foley) Remove indwelling urinary catheters when no longer needed
• – Use strict aseptic technique with all intravenous lines.
• Implement Tight Glycemic Control in the Critically Ill

Question 83

BUN: Creatinine ratio

Answer 83

• Normal 10:1 to 20:1
• More than 20:1, suspect nonrenal causes of laboratory
  abnormalities

Question 84

Normal GFR

Answer 84

Normal 84 to 138 mL/min

Question 85

Leading causes of CKD

Answer 85

• Diabetes—50%
• Hypertension—25%
• Other: glomerulonephritis, cystic diseases, urologic diseases

Question 86

Why does CKD contribute to chronic anemia?

Answer 86

Kidneys create erythropoietin

Question 87

What to teach patient with CKD

Answer 87

• Check weight daily and report a gain of greater than 4 pounds
• Medications that may affect renal function
• Access to care and natural supports
• Dialysis
• Kidney transplant

Question 88

CLABSI

Answer 88

Central Line Associated Blood Stream Infection

Question 89

Intermittent hemodialysis - Nursing Care Notes

Answer 89

• Very effective, done bedside in ICU over 3 to 4 hours
• Weight patient daily
• Monitor labs
• Do not give water soluble meds before treatment, hold anti-hypertensives, do not give 6 hours before treatment
• Assess access frequently

Question 90

Intermittent hemodialysis - Complications

Answer 90

• Hypotension
• – Preexisting hypovolemia
• – Rapid fluid removal, too much removed
• Dysrhythmias due to rapid shift in K+
• Potential for decrease in arterial oxygen
• Dialysis disequilibrium syndrome

Question 91

Who may need immediate hemodialysis on an acute basis?

Answer 91

• Acute overdoses
• Severe Edema (acute decompensated HF)
• Hepatic Coma
• Severe Metabolic Acidosis
• Burns
• Transfusion Reactions
• Rhabdomyolysis

Question 92

CRRT

Answer 92

Continuous Renal Replacement Therapy

Question 93

SCUF

Answer 93

Slow Continuous Ultrafiltration

- goal is fluid removal – no waste removal, no replacement fluid

Question 94

CVVH

Answer 94

Continuous Venovenous Hemofiltration

- Fluid and some waste product removal – some replacement fluid is used to increase flow

Question 95

CVVHD

Answer 95

Continuous Venovenous hemodialysis

- Some fluid and Max waste product removal

Question 96

CVVHDF

Answer 96

Continuous Venovenous Hemodiafiltration

- Max Fluid and Waste product removal

Question 97

What kind of patients need low and slow hemodialysis?

Answer 97

• Severe HF with cardiomyopathy (severe fluid overload)
• Increased ICP
• Post resuscitation/Targeted Temp Management
• AKI secondary to liver failure
• Late presenting AKI
• Still “controversial” Sepsis and MODS (try it and see if it works but may not be able to resuscitate back)

Question 98

If a patient is in the diuretic phase of AKI, the nurse must monitor for which serum electrolyte imbalances?

a. Hyperkalemia and hyponatremia
b. Hyperkalemia and hypernatremia
c. Hypokalemia and hyponatremia
d. Hypokalemia and hypernatremia

Answer 98

c. Hypokalemia and hyponatremia

Question 99

____________ is caused by a profound deficiency of insulin

Answer 99

DKA (Diabetic Ketoacidosis)

Question 100

The 3 P’s of DKA

Answer 100

Polydipsia
Polyuria
Polyphagia

Question 101

Sx of DKA

Answer 101

• Classic signs of dehydration
• Orthostasis
• Polyuria
• Polydipsia
• Polyphagia
• Hyperventilation/kussmaul’s respirations
• Fruity odor to breath
• Flushed/dry skin
• Lethargy/altered consciousness
• Abdominal pain/nausea/vomiting
• Blood glucose greater than 250mg/dl (as high as 900’s)
• Ketonuria/glucosuria
• Weight loss (may be profound)
• Blood gas changes (metabolic acidosis)

Question 102

Emergency management of DKA

Answer 102

• Ensure patent airway; administer O2
• Establish IV access; begin fluid resuscitation to replace extracellular and intracellular fluid and correct electrolyte
  balance
  — Nacl 0.45% or 0.9%; add 5% to 10% dextrose when blood glucose level approaches 250 mg/dl
  — Restore urine output to 30 to 60 ml/hr
• Protect from cerebral edema; monitor for fluid overload, renal or cardiac compromise

Question 103

Expected drop in blood glucose with Tx

Answer 103

36 to 54 mg/dl/hr drop in serum glucose will avoid complications

Question 104

Tx of DKA

Answer 104

• IV regular insulin drip 0.1 U/kg/hr to correct hyperglycemia and ketosis (until glucose reaches 150-200)
• Must have stable ABG before transitioning to SQ insulin
• Monitor blood glucose at least q6-8h
• MAY need bicarb