Hemodynamics

Question 1

Hemodynamics Goal

Answer 1

delivery of oxygen

Question 2

biggest factors of hemodynamic monitoring

Answer 2

Hg and SaO2

Question 3

normal Stroke Volume

Answer 3

60-120 ml/beat

Question 4

What is. CVP?

Answer 4

volume reaching the right ventricle

Question 5

What is PCWP?

Answer 5

indirect measure of volume left ventricle volume (uses Pulmonary Artery Catheter wedged in a branch of the pulmonary artery)

Question 6

Normal preload values for right and left ventricle

Answer 6

R: ventricle CVP- 2-6 mmHg

L Ventricle: PCWP-6-12 mmHg

Question 7

How to increase preload (5)

Answer 7

• Increase fluids (NS, LR): bolus
• Colloids (blood, albumin)
• Vasoconstrictors
• Anti-embolism stockings
• Elevate the legs

Question 8

How to decrease preload (3)

Answer 8

• Decrease fluids
• Vasodilators: ex. Hydralazine
• Diuretics: ex. Furosemide

Question 9

What is afterload? What is it based on?

Answer 9

• Pressure LV must overcome to eject stroke volume

- Based on distensibility or compressibility of arterial vessels

Question 10

normal LV afterload

Answer 10

Systemic Vascular Resistance (SVR): 800-1200 dynes/sec/cm-3

Question 11

Normal RV afterload

Answer 11

: Peripheral Vascular Resistance (PVR) 150-250 dynes/sec/cm-3

Question 12

in afterload….increased ___= decreased __

Answer 12

SVR=CO

Question 13

How to increase afterload (2)

Answer 13

• fluids

- vasoconstrictors

Question 14

how to decrease afterload (2)

Answer 14

• fluids

- vasodilators

Question 15

What is contractility dependent on?

Answer 15

oxygenation and electrolyte balance

Question 16

How to enhance contractility

Answer 16

Calcium, catecholamines

Question 17

How to decrease contractility

Answer 17

dopamine, norepinephrine, epinephrine

Question 18

Determinants of SV (3)

Answer 18

• preload
• afterload
• contracility

Question 19

stroke volume definition

Answer 19

blood ejected by the heart per BEAT

Question 20

CO definition

Answer 20

volume of blood ejected each minute

Question 21

CO equation

Answer 21

HR x SV

Question 22

normal CO range

Answer 22

4-8 L/min

Question 23

difference between CO and cardiac index

Answer 23

cardiac index takes into consideration the patient’s body surface area

Question 24

Cardiac index equation

Answer 24

CO/BSA

Question 25

factors causing Low CO (inadequate left ventricular filling)- 7

Answer 25

• Tachycardia
• Dysrhythmias
• Hypovolemia
• Mitral or tricuspid stenosis
• Pulmonic stenosis
• Constrictive pericarditis or tamponade
• Restrictive cardiomyopathy

Question 26

factors causing Low CO (inadequate left ventricular ejection)-7

Answer 26

• CAD causing LV ischemia or infarction
• Myocarditis, Cardiomyopathy
• Increased afterload (HTN, aortic stenosis)
• Mitral regurgitation
• NEGATIVE inotropes
• Metabolic disorders

Question 27

decreased perfusion fail safe mechanisms primary (skin and GI)-4

Answer 27

• cool, clammy, cyanotic, ashen skin
• decreased Bowel sounds
• constipation or diarrhea
• increased GI tube output

Question 28

decreased perfusion fail safe mechanisms secondary (kidneys, liver, lungs)-6

Answer 28

• increased RR and effort
• SOB
• decreased UO
• increased BUN, creatinine, K+
• decreased GFR
• increased ALT, AST, coag times

Question 29

decreased perfusion fail safe mechanisms final (brain and heart)-6

Answer 29

• ALOC
• slow reacting pupils
• chest pain or pressure
• tachy or bradycardia
• arrythmias
• ST elevation

Question 30

Noninvasive hemodynamic monitoring-4

Answer 30

• MAP
• JVP
• serum lactate
• BP Cuff

Question 31

map should be above……

Answer 31

65

Question 32

What does measuring JVD estimate

Answer 32

CVP

Question 33

What does serum lactate show?

Answer 33

information on end organ perfusion

Question 34

Normal CVP

Answer 34

2-6 mmHg

Question 35

Causes of increased CVP-4

Answer 35

• fluid overload
• cardiac tamponade
• R heart dysfunction (cor pulmonale)
• venoconstriction

Question 36

causes of decreased CVP-3

Answer 36

• dehydration
• volume loss
• venodilaton

Question 37

Arterial line monitoring nursing responsibilities

Answer 37

• Patient education
• Gather equipment
• Assist provider: set up pressure bag (300 mm Hg), prime tubing
• Zero/level transducer (phlebostatic axis), monitor waveform
• Dress site (Immobilize wrist, Limit flexion of hip to 30 degrees if femoral, Monitor for bleeding)
• Compare to cuff

Question 38

A-line complications-4

Answer 38

• Air embolus
• Hemorrhage and Hematoma
• Thrombosis: keep pressure bag full and at 300 pressure
• Infection

Question 39

What is Flo-Trac?

Answer 39

proprietary transducer added to a-line

Question 40

flotrac limitations-4

Answer 40

 Spontaneous Breathing: inaccurate SVV
 Open chest
 Arrythmias
 However provides hemodynamic measures without the need for a PA** catheter

Question 41

Pulmonary artery pressure elevation causes (5)

Answer 41

• Pulmonary hypertension
• Left ventricular failure
• Mitral stenosis (stiff)
• Mitral valve regurgitation (incompetent)
• Atrial or septal defect

Question 42

Normal PCWP

Answer 42

6-12 mmHg

Question 43

causes of increased PCWP-7

Answer 43

• fluid overload
• aortic stenosis
• aortic regurgitation
• mitral stenosis
• LV failure
• cardiac tamponade
• constrictive pericarditis

Question 44

causes of decreased PCWP-2

Answer 44

• hypovolemia

- vasodilation

Question 45

PCWP Reminders (3)

Answer 45

 DO NOT LEAVE BALLOON INFLATED
 NEVER INFLATE FOR > 10-15 SECs
 Never pull back air from syringe-passive move

Question 46

normal cardiac index

Answer 46

2.5-4.0