Hemodynamic monitoring

Question 1

IABP complications

Answer 1

1. Nerve damage
2. hemorrhage/hematoma
3. infection
4. thrombosis
5. air embolus
6. skin necrosis
7. loss of digits
8. vasospasm
9. arterial aneurysm
10. retained guidewire

Question 2

ECG complex

Answer 2

• each box, 0.04 seconds

Question 3

CVC contraindications

Answer 3

1. R atrial tumor
2. Infection at site

Question 4

ECG indicators of acute Ischemia

Answer 4

1. ST segment elevation >/= 1mm
2. T wave inversion
3. Development of Q waves
4. ST segment depression, flat or downslope of > or equal to 1mm
5. Peaked T waves
6. Arrhythmias

Question 5

CVC size

Answer 5

7 french

20 cm length

*not confirmed by xray in OR, aspirate blood from all ports

Question 6

SaO2

Answer 6

ratio of oxyhemoglobin to all functional hemoglobin.

Question 7

dichrotic notch

Answer 7

aortic valve closure

happens later in waveform the further art line is

Question 8

Distance from RIJ to Wedge (pulmonary artery)

Answer 8

40-50 cm

Question 9

PAP waveforms

Answer 9

Same as CVP but for left side

Question 10

Cardiac output monitoring techniques

Answer 10

1. thermodilution
2. continuous thermodilution
3. mixed venous oximetry
4. ultrasound
5. pulse contour

Question 11

Pulmonary artery pressure monitoring

Answer 11

Measures left side of heart. Line goes through SVC, RA, RV to PA

Question 12

Transesophageal echocardiography Complications

Answer 12

1. esophageal trauma
2. dysrhythmias
3. hoarseness
4. dysphagia

*more complications in awake patients

Question 13

Changes in lead V1-V4

Answer 13

Anterioseptal ischemia

left descending coronary artery

Question 14

Leveling art line

Answer 14

• Mid axillary line in supine pts
• level of ear (circle of willis) in sitting patients

Question 15

Anterior view of heart

Answer 15

V3, V4

Question 16

5 Lead ECG

Answer 16

• Leads I, II, III, aVR, aVL, aVF, V
• Electrodes RA, LA, LL, RL, chest lead
• 7 views of the heart (adds anterior view)

Question 17

Risks of CVC

Answer 17

air or thrombo-embolism

dysrhythmia

hematoma

Carotid puncture

pneumo/hemothorax

vascular damage

cardiac tamponade

infection

guidewire embolism

Question 18

Complications of NIBP

Answer 18

1. edema of extremity
2. petechiae/bruising
3. ulnar neuropathy
4. interference of IV flow
5. altered timing of IV drug administration
6. pain
7. compartment syndrome

Question 19

Transesophageal echocardiography

7 cardiac parameters observed:

Answer 19

1. ventricular wall characteristics and motion (look for ischemia)
2. valve structure and function
3. Estimation of end-diastolic and end-systolic pressures and volumes (EF)
4. CO
5. blood flow characteristics
6. intracardiac air
7. intracardiac masses

Question 20

CVC location

Answer 20

Tip within the Superior Vena Cava (SVC), just above the junction of SVC and RA

• below the inferior border of clavicle and above the level of 3rd rib

Question 21

Things that can distort CVP and PCWP

Answer 21

• loss of waves
  
  • afib, ventricular pacing
• Giant a waves“cannon” a waves
  
  • junctional rhythms
  • complete HB
  • mitral stenosis
  • diastolic dysfunction
  • myocardial ischemia
  • ventricular hypertrophy
• Large v waves
  
  • mitral/tricuspid regurgitation and acute increase in intravascular volume
  • tamponade/pericarditis (both squeezing the heart)

Question 22

Distance from RIJ to RV

Answer 22

25-35 cm

Question 23

NIBP cuffs

Answer 23

• bladder width should be approximately 40% of the circumference of the extremity
• Bladder length should encircle 80% of extremity
• applied snugly, bladder centered over the arter and residual air removed.

Question 24

DBP

Answer 24

• trough pressure during diastolic ventricular relaxation
  
  • changes reflect coronary perfusion pressure

Question 25

PAP assessment

Answer 25

• Intracardiac pressures (CVP, PAP, PCWP/PAWP)
• estimate LV fillin gpressures
• assess LV function
• CO
• mixed venous oxygen saturation
• Pulmonary Vascular resistance (PVR) Systemic vascular resistance (SVR)

Question 26

CVP monitoring

Answer 26

Right atrial pressure = Right ventricle preload

normal = 1-7 mmHg

with mechanical ventilation = 4-10 mmHg

Question 27

Distance from RIJ to PA

Answer 27

35-45 cm

Question 28

CVP waveform

Answer 28

• “a” wave is point of maximal filling of RV and should be used for RVEDP
  
  • machines “average” the measurement
  • Should be measured at end-expiration.
• “c” closure of tricuspid valve and V contraction, tricuspid “bulges” back into the atrium slightly increasing the pressure

Question 29

Changes in Lead I, AVL, V5-V6

Answer 29

Lateral wall ischemia

circumflex branch of left coronary artery

Question 30

Thermodilution

Answer 30

Using known amount of known temperatured solution to inject in catheter in RA. Thermister on cathether (swan-ganz) measures change in temperature. Used to assess cardiac output

Question 31

AANA minimal standard required monitors and monitoring information (on graphic display)

Answer 31

1. ECG (HR and rhythm)
2. Blood pressure
3. pulse ox
4. Oxygen analyzer
5. end tidal carbon dioxide

• ECG
• BP
• HR
• ventilation status
• O₂ sat

*Must document minimum of every 5 minutes!!

**Variable pitch tone must be audible with use of Pulse ox

Question 32

Insertion sites of Central venous catheters

Answer 32

• right internal jugular (most common for anesthesia)
• left internal jugular vein
• subclavian veins
• external jugular veins
• femoral veins

Question 33

Septal view of heart

Answer 33

V1, V2

Question 34

3 Lead ECG

Answer 34

• Electrodes RA, LA, LL
• Leads I, II, III
• 3 views of the heart, no anterior view

Question 35

most important lead for ischemia

Answer 35

V

*all V leads

Question 36

PCWP

Answer 36

Pulmonary Capilary wedge pressure

a wave: contraction of Left atrium

*usually a small deflection unless there is resistance moving blood into LV like in mitral stenosis.

c wave: rapid rise in LV pressure in early systole, causing mitral valve to bulge backward into LA, so atrial pressure increases momentarily

v wave: blood entering LA during late systole

*prominent v wave reflects mitral insufficiency causing large amounts of blood to reflux into the LA during systole

Question 37

distance from RIJ to RA

Answer 37

15-25 cm

Question 38

BP Oscillometry

Answer 38

Senses oscillations/fluctuations in cuff pressure produced by arterial pulsations while deflating a BP cuff

• 1st oscillation correlates with SBP
• maximum/peak oscillations occurs at MAP
• oscillations cease at DBP

Question 39

Transesophageal echocardiography uses:

Answer 39

1. unusual causes of acute hypotension
2. pericardial tamponade
3. pulmonary embolism
4. aortic dissection
5. myocardial ischemia
6. valvular dysfunction

Question 40

most important lead for rhythm changes

Answer 40

II

Question 41

Falsely high PB

Answer 41

• cuff too small
• cuff too loose
• extremity below level of heart
• arterial stiffness- HTN, PVD

Question 42

Changes in Lead I, AVL, V1-V4

Answer 42

Anterior wall ischemia

Left coronary artery

Question 43

Lateral view of heart

Answer 43

I, aVL, V5, V6

Lead I = RA-LA

Question 44

Pulse pressure

Answer 44

SBP-DBP

As location of BP moves out peripherally, you get exaggerated SBP and wider pulse pressure.

Question 45

PAP catheters

Answer 45

• 7 or 9 french
• 110 cm length
• 4 lumens
  
  • distal port PAP
  • second port 30 cm more proximal CVP
  • third lumen balloon
  • fourth wires for temp

Question 46

Distance from RIJ to Vena cava and RA junction

Answer 46

15 cm

Question 47

Calculate MAP

Answer 47

SBP+2(DBP) / 3

Question 48

low CVP reading

Answer 48

hypovolemia/shock

Question 49

CVC indications

Answer 49

1. measuring right heart filling pressures
2. assess fluid status/blood volume
3. rapid administration of bolus
4. administration of vasoactive drugs
5. removal of air emboli
6. insertion of transvenous pacing leads
7. vascular access
8. sample central venous blood

Question 50

Standard 2

Answer 50

1. Oxygenation
2. ventialtion
3. circulation
4. temperature

*Continually evaluated

Question 51

inferior view of heart

Answer 51

II -RA-LL

III - LA-LL

aVF- LA+LL-RA

Question 52

PAP complications

Answer 52

1. arrhythmias
2. catheter knotting
3. balloon rupture (can rupture pulmonary vasculature
4. thromboembolism; air embolism
5. pneumothorax
6. pulmonary infarction
7. PA rupture
8. infection
9. damage to cardiac structures (valves, etc)
   10.

Question 53

SBP

Answer 53

• peak pressure generated during systolic ventricular contraction
  
  • changes correlate to changes in myocardial O2 requirements

Question 54

Indications for Art line

Answer 54

1. elective deliberate hypotension
2. wide swings in BP
3. rapid fluid shifts
4. titration of vasoactive drugs
5. end organ disease
6. repeated blood sampling
7. failure of NIBP

Question 55

Standard 1

Answer 55

Qualified provider must be with pt the entire time

SRNA

CRNA

MDNA

AA- need direct in room supervision

Question 56

Allen test

Answer 56

block radial and ulnar arteries, pt pump fist, release ulner artery first to make sure it can refill hand if radial artery gets “trashed” by art line.

Question 57

Falsely low BP

Answer 57

• Cuff too large
• extremity above level of heart
• poor tissue perfustion
• too quick deflation

*improper cuff placement, dysrhythmias, tremors/shivering

Question 58

Arterial pressure waveform

Answer 58

*the more distal the art line, the SBP will increase, DBP will decrease, MAP same, dichrotic arch is later

Question 59

Art line sites

Answer 59

1. radial
2. ulnar
3. brachial
4. femoral
5. dorsalis pedis
6. axillary

Question 60

to improve accuracy of art line

and forms of erro

Answer 60

1. minimize tubing length
2. limit stopcocks
3. no air bubbles
4. use non-compliant stiff tubing
5. calibrated

forms of error: Dampening and overshooting

Question 61

PAC indications

Answer 61

LV dysfunction

valve disease

Pulm HTN

CAD

ARDS/resp failure

shock/sepsis

AFR

Cardiac sugeries

Question 62

high CVP readings

Answer 62

fluid overload

right heart failure

PE

tension pneumo

Question 63

Pulse Oximeter

Answer 63

• measures hemoglobin saturation
• pulses red and intrared LED on and off several hundred times per second
  
  • absorption of intrared light in blood–algorithm used to compute ration of infrared light signal and saturation

Question 64

Changes in Lead II, III, AVF

Answer 64

(posterior)/ Inferior wall ischemia

Right coronary artery

Question 65

Purpose of ECG

Answer 65

1. detect arrhythmias
2. monitor heart rate
3. detect ischemia
4. detect electrolyte change
5. monitor pacemaker function

Question 66

Standards for Basic Anesthetic Monitoring

Answer 66

• Oxygenation
• Ventilation
• Circulation
• Temperature

Contiuous monitor

Question 67

Basic Monitoring Technique

Answer 67

• Inspection
• Auscultation
• Palpation

Question 68

Stethoscope

Answer 68

• Continual assessment of breath sounds and heart tones
• Precordial placed on chest surface
• Esophageal placed 28-30cm into esophagus
• Very sensitive monitor for bronchospasm, airway, obstruction, changes in HR/rhythm

Question 69

Gain Setting and Frequency Bandwith

Answer 69

• Gain should be set at standardization
  
  • 1 mV signal produces 10-mm calibration pulse
  • Therefore, a 1-mm ST segment change is accurately assessed
• Filtering capacity should be set to diagnostic mode
  
  • Filtering out the low end of frequency bandwidth can distort ST segment

Question 71

Myocardial Ishchemia: Coronary Anatomy and ECG

Answer 71

• Inferior wall ischemia (right coronary artery) Changes in Lead II, III, AVF
• Lateral wall ischemia (circumflex branch of left coronary artery) Changes in Lead I, AVL, V5-V6
• Anterior wall ischemia (left coronary artery) Changes in V3-V4
• Septal ischemia (left descending coronary artery) Changes in Lead V1-V2