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100

What situations would you use synchronized cardioversion?

SLOWS DOWN A FAST RHYTHM!!

1.  Afib

2.  A-flutter

3.  SVT

4.  VTach with a pulse

100

How is cardiac output calculated and what is the normal value?

HR x SV (heart rate x stroke volume)

4-8 L/min

100

What is normal pulmonary artery pressure?

8-20 mmHg

100

What does an increase in pulmonary artery pressure indicate?

Pulmonary HTN

100

What is the normal CVP (central venous pressure) value?

0-5 cm H2O

200

Chronological steps for synchronized cardioversion

1.  Turn on defibrillator

2.  Attach leads to patient

3.  Ensure proper display of patient's rhythm

4.  PRESS SYNC control button

5.  Look for markers on R waves

6.  If patient awake, give sedation (midazolam)

200

Preload, afterload, contractility.  This is the volume of blood pumped out of the left ventricle of the heart during each systolic cardiac contraction 

Stroke volume

200

What is the normal pulmonary artery wedge pressure?

6-12 mmHg

200

What is cardiac output?

The volume of blood in liters pumped by the heart in 1 minute (normal 4-8 L/min)

200

These drugs increase preload

Vasoconstrictors

300

Chronological steps for defibrillation

1.  Turn on defibrillator

2.  Attach pads

3.  Charge

4.  Clear

5.  Shock

300

___ is determined by he amount of blood filling the chamber/size of the chamber

Preload

300

This law states that the more a myocardial fiber is stretched during filling, the more it shortens during systole - the greater the force of the contraction

Frank-Starling law on the effects of preload

300

As preload increases, force generated in the subsequent contraction increases, thus ___ and ___ increase

stroke volume, cardiac output

300
These drugs and medical conditions decrease preload

1.  Vasodilators

2.  Hypovolemia

3.  Cardiac tamponade

4.  Constrictive pericarditis

400

What situations would you use defibrillation?

1.  VFib

2.  Pulseless VTach

400

This is the resistance that must be overcome by the ventricles (systolic contraction)

Afterload

400

Increased afterload results in decreased ___ and increased ___ demand

Cardiac output; oxygen

400

These drugs can reduce afterload

Vasodilators (milrinone)

400
How do you calculate MAP and what is the normal range?

SBP + 2(DBP) / 3

normal MAP = 65- 100

500

Initial intervention priorities for dysrhythmias if patient is unresponsive

Assess CAB (circulation, airway, breathing)

500

Initial intervention priorities for dysrhythmias if patient is responsive

1.  Monitor ABC (airway, breathing, circulation)

2.  Apply O2 via nasal cannula or NRB (non-rebreather)

3.  Obtain baseline vitals, including O2 sat

4.  Obtain 12-lead EKG

5.  Begin continuous EKG monitoring

6.  Identify underlying rate and rhythm

7.  Identify the dysrhythmia

8.  Establish IV access

9.  Obtain baseline labs (CBC, electrolytes, etc.)

500

Ongoing monitoring for patients with dysrhythmias

1.  Monitor:

A.  ABCs

B.  Vitals

C.  LOC

D.  O2 sat

E.  Heart rhythm

2.  Anticipate:

A.  Need for antidysrhythmic

B.  Need for intubation if respiratory distress is evident

C.  Need to begin ACLS

500

This is the opposition encountered by the left ventricle, measures the tone of vasculature.  What is this and what is the normal value?

SVR (systemic vascular resistance), 800 - 1400

500

This is the opposition encountered by the right ventricle

Pulmonary vascular resistance