Cardiovascular Function 1 PDF

Summary

This document provides notes on cardiovascular function 1, focusing on dysrhythmias. It covers various aspects such as causes, types, and management of these conditions.

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Cardiovascular Function 1
Dysrhythmias

Notes:
Why do people get dysrhythmias?
○ Diseases but the natural way is bc we age
The heart wall gets thicker
Cardiac muscle cells tend to lose density and become less
functional and we develop collagen deposits
Pneumonic for reasons people get dysrhythmias:
H:
○ hypoxia (heart becomes irritable from lack of oxygen)
I:
○ Ischemia: In cardiac infarction, part of the heart is
damaged and the electricity can not pass through so
it needs to find a new passage around it and can
cause dysrhythmias
○ Angina: decreased blood supply getting to the
myocardial muscle
○ Myocarditis
○ Viral infection
S:
○ sympathetic stimulation: enhance stimulation from
any source, diseases that can do that are:
hypothyroidism, congested heart failure, fever,
nervousness, and exercise
 D:
○ Drugs: antidysrhythmics can cause dysrhythmias,
antibiotics (aminoglycosides can cause prolonged QT
segment), antipsychotics, digoxin (adjunction
arrhythmia)
○ As we age, our ability to metabolize drugs decreases
E:
○ electrolyte
○ potassium: when possible use the digestive track
when giving potassium (every 10mu, it raises their
levels by 0.1) Oral is preferred
○ magnesium (it is cardioprotective) given in a code
situation, given IV push in a code situation
○ Calcium: heart muscles use and need calcium, uses
to beat
ALWAYS GIVE MAGNESIUM FIRST and then
potassium because it helps stabilize potassium
levels
B:
○ bradycardia (too slow)
S:
○ sympathetic stretch
When we look at EKGs
Rate
Rhythm
P waves
PRI +QRS are they consistent
 ST segment T wave
○ St segment elevated: infarction
○ St segment depressed: ischemic
○ The problem with the T wave Peak is inverted: it is important to think of
myocardial infarction until we know otherwise

Management of the Patient with Dysrhythmias and Conduction Problems :
Old material (not being tested on this until the FINAL EXAM)
○ Normal electrical conduction (SA node fires create the P wave and then
get down to the AV node which is the PR segment and initiates QRS and
then sends it down to the bundle of his and then terminates in the binges
of fibers)
Normal readings:
PR interval: 0.12 - 0.20 secs
QRS: 0.6 - 0.12 secs
○ NSR
○ Sinus tachycardia
What causes it?
Someone had a heart attack, exercise, pain, fever,
dehydration, and hypovolemic
Maximum heart rate: 220- (your age) and it should equal the
high heart rate your heart should go
○ Sinus arrhythmia
Usually not a problem, common in pediatrics
Sinus rhythm is irregularly associated with the breathing pattern
○ PAC
○ Atrial flutter
 ○ Atrial fibrillation
There is a big chance of developing a clot
***Concept to keep in mind
Formula of cardiac output
○ The amount of blood the heart puts out in one minute
4-8L
Hr
Stroke volume
Preload: the amount of stretch on the heart at the end of
diastole (resting period) aka the amount of blood that is in
the heart
○ If measuring it can be anywhere from 2-6
Afterload: the resistance of the left ventricle to pumping the
blood past the aortic valve into the aorta and feeding the
body
○ Measured in dynes: 800-1200
○ Simular vascular resistance
Contractility: how strong the heart is, the force of the
heartbeat
○ Measured by an ejection fraction: 50-75%
Done by an echocardiogram

Management of the Patient with Dysrhythmias and Conduction Problems :
New Material
Drugs we can use to help:
○ Beta-blockers therapy (MAIN LINE OF THERAPY FOR PEOPLE THAT
HAVE HAD A MYOCARDIAL INFARCTION)
Amiodarone ***
emergency dose for vtach or vfib: 300mg direct IV push,
alternated dosage (pt is stable aka not suffering from any
cardiovascular inadequacy): 150mg in a 100 d5w over 15
minutes and then will be started on an amiodarone drip
(dosage: 1mg/min for 6hrs and then 0.5mg/min for 18hrs)
Lidocaine (numbs the heart and the brain** and causes confusion
in the elderly)
○ Junctional Dysrhythmias (middle of the heart)
PJC
Premature beat (same thing as a PAC which is more
common than PJC) but this one comes out of the junction
the whole key is the P wave
You will see the P wave but the PR interval will appear
differently, it will be short
○ The normal PR interval is: 0.12 - 0.20
While in PJC the PR interval will be basically
right up against the QRS complex making it
shorter or it can not visible at all (most
common) but make sure it is not a premature
atrial beat that didn’t affect the T wave or it
can also be inverted or appear afterward in
the ST segment
Junctional rhythm
It has a rate between 40 - 60 bpm
 The key to diagnosing this is: what is going on with the P
wave
○ Almost always it is absent or inverted or it appears
afterwards
They can usually treat junctional rhythm with:
○ Pacemaker as soon as possible
○ Ventricular Dysrhythmias (bottom of the heart)
PVC
Fairly common after open heart surgery
Common is cardiovascular disease
Premature beat
Wide and bizarre
○ Count it anyways
I would want to see more than one PVC
Ventricular tachycardia
rate : >100 bpm
“Pt. can be sitting there reading a newspaper”
Ventricular fibrillation
Definite code situation
No cardiac output
No spontaneous circulation
You need to defibrillate this person asap(shock them asap),
start CPR, put a board under the pt to put firmness on the
bed
Give epinephrine every 3-5min in a code situation
Idioventricular rhythm
Wide bizarre rhythm
 Rate: 20-40
Accelerated idioventricular rhythm (3rd ventricular
arrhythmia)
○ Wide bizarre QRSs, regular
○ Rate: 40 -100
Ventricular asystole
It can be coarse or fine
P waves give you 25% cardiac output, this is a code
You do NOT defibrillate bc you can lock the heart out
Do CPR, give epi q 3-5 min
○ Important to think about:
There gets a point where if we get this person
back, they have already been withOUT a
heartbeat for 15 minutes now, what exactly are
we bringing back since so much damage has
been done to their body already
***Before we shut the code down, we need to
check asystole and ventricle in 2 leads
○ Conduction Abnormalities
AV blocks (1st, 2nd, 1 and ii, 3rd degree)
1st:
○ Not really a block but a prolongation (PR interval
0.28-0.32)
○ Do a 12-lead EKG
○ If new then bring attention to the provider
○ More like a delay
2nd type 1: (pick one name)
 ○ AKA: Mobitz one
○ Or AKA: Wenckebach's AV block
Diagnostic for wenckebach
See the PR interval getting long, long,
long, and then drop
All about P waves are the P waves getting
further from the QRS
Referred to as a group beating bc you will see
a pattern like sometimes there's 3 and then it’ll
drop beat and 4, drop beat, 3 drop beat 4
Not as dangerous 2nd type 1
As pt get better, the block will
disappear, they develop a normal
rhythm or go into 1st degree AV block,
AND THEN a normal rhythm
Measure the PR interval
○ Ex he says:
One is 0.20 and then the
next one is 0.24 and the
next one is 0.28 and then
you have a P wave without
a QRS cashing
MORE P WAVES THAN
QRS (think heart block)
2nd type 2:
○ AKA: Mobitz type 2
 PR interval remains consistent in every QRS
except there comes a time when there is a P
wave and a dropped QRS
This is dangerous:
No cardiac perfusion
No cardiac output
NEEDS A PACEMAKER

3rd degree:
○ Known as AV dissociation
No coordination between the P wave and QRS
Can be multiple P waves and less QRS
Do not give atropine bc it will just speed up
the atrial and ventricular rate and not help
with the coordination
Ex he says:
○ When measuring the PR interval,
on the first one it is 0.28, then
next it is 0.12, then next it is
Needs permanent pacemaker

Cardiac Conduction System
SA node: 60 -100
AV node: 40-60
Ventricle: 20-40
Juntional Dysrhyhtmias
PJC
○ An impulse that starts in the AV nodal area before the next normal sinus
impulse reaches the AV node
○ Less common than PACs
○ CAUSES: Digoxin toxicity, heart failure, coronary heart disease
○ P Wave may be absent, before or after the QRS

Junctional Rhythm ( junctional escape rhythm)
AV node becomes the pacemaker of the heart
Sinus nodes become slow, impulses cannot be conducted, and the AV takes over
Ventricular rate 40-60
Regular
QRS is normal
If P wave is present, PRI is < 0.12 seconds
S& S reduces cardiac output
Treatment like bradycardia
Ventricular dysrhythmia
You can have vtach where it is unifocal (very even around the whole strip) and
then multifocal aka bunny ears (the premature ventricular beat is coming out of
2 different parts of the lower heart
Can also have torsades
○ Large QRS and then shrinks and then enlarges again
○ *** Torsade is a vtach that you can convert if ordered and give
MAGNESIUM IV PUSH
PVC
Impulse starts in the ventricle and is conducted through the ventricles before
the normal sinus impulse

VT
Three or more PVCs in a row
Rate exceeding 100 bpm
Regular
Wide bizarre QRS
Emergency
Take bp as soon as you get in the room, 12 lead EKG
If pt is awake and alert then Amiodarone will be given
If pt is symptomatic then they will do a cardiovert

VF
The most common dysrhythmias with cardiac arrest
Rapid rate (greater than 300bpm), disorganized
Quivering

Idioventricular Rhythm
Ventricular escape rhythm
Rate 20-40 bpm
Regular wide, bizarre QRS
Ventricular Asystole
Flatline
Absent QRS

Conduction Abnormalities
First-degree AV block
Second-degree AV block
○ Type 1
○ Type 2
Third-degree heart block

First Degree
All impulses are conducted through the AV node slower than normal
PR interval greater than 0.20 seconds
○ Prolonged PR interval

Second Degree Type 1
Repeating pattern in which all but one atrial impulses are conducted through
the AV node into the ventricles
Progressive lengthening of the PR interval, until one QRS drops

Second Degree Type 2
Some of the atrial impulses are conducted through the AV node into the
ventricles
The PR interval is constant
More P waves than QRS complexes
Third Degree
No atrial impulses are conducted through the AV node into the ventricles
Two impulses stimulate the heart (pacemaker)
○ Atria: P waves may be seen
○ Ventricles: QRS complexes
Seem to be together, but not connected