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37 Cards in this Set

  • Front
  • Back
what are the 4 questions to begin with when looking at an Arrythmia
are there normal P waves, are the QRS complexes wide (greater than 3 boxes/.12s or narrow), what is the relationship between the QRS and P waves and is the rythm regular
what are the 4 questions to begin with when looking at an Arrythmia
are there normal P waves, are the QRS complexes wide (greater than 3 boxes/.12s or narrow), what is the relationship between the QRS and P waves and is the rythm regular
what are the 4 questions to begin with when looking at an Arrythmia
are there normal P waves, are the QRS complexes wide (greater than 3 boxes/.12s or narrow), what is the relationship between the QRS and P waves and is the rythm regular
name the 5 types of sustained Supraventricular arrythmias
PSVT

A-flutter

A-Fib

Paroxysmal atrial tch

multifocal atrial tach
name the 5 types of sustained Supraventricular arrythmias
PSVT

A-flutter

A-Fib

Paroxysmal atrial tch

multifocal atrial tach
name the 5 types of sustained Supraventricular arrythmias
PSVT

A-flutter

A-Fib

Paroxysmal atrial tch

multifocal atrial tach
name the 5 types of sustained Supraventricular arrythmias
PSVT

A-flutter

A-Fib

Paroxysmal atrial tch

multifocal atrial tach
describe PSVT
absolutely regular rhythm between 150 and 250 bpm retrograde p waves may sometimes be seen in leads II and III, but your best chance would be to look in lead V1` for what is called a pseudo R' - a little blip in the QRS complex that represents a superimposed p wave
describe PSVT
absolutely regular rhythm between 150 and 250 bpm retrograde p waves may sometimes be seen in leads II and III, but your best chance would be to look in lead V1` for what is called a pseudo R' - a little blip in the QRS complex that represents a superimposed p wave
describe PSVT
absolutely regular rhythm between 150 and 250 bpm retrograde p waves may sometimes be seen in leads II and III, but your best chance would be to look in lead V1` for what is called a pseudo R' - a little blip in the QRS complex that represents a superimposed p wave
describe PSVT
absolutely regular rhythm between 150 and 250 bpm retrograde p waves may sometimes be seen in leads II and III, but your best chance would be to look in lead V1` for what is called a pseudo R' - a little blip in the QRS complex that represents a superimposed p wave
what leads to look at in PSVT
II and III - retrograde p waves

V1 - pseudo R' in QRS complex
what leads to look at in PSVT
II and III - retrograde p waves

V1 - pseudo R' in QRS complex
what leads to look at in PSVT
II and III - retrograde p waves

V1 - pseudo R' in QRS complex
what leads to look at in PSVT
II and III - retrograde p waves

V1 - pseudo R' in QRS complex
how what is the rate like in pSVT
150 to 250
how what is the rate like in pSVT
150 to 250
how what is the rate like in pSVT
150 to 250
atrial flutter is usually a result of what
in its most common form, it is generated by a reentrant circuit that runs largely around the annulus of the tricuspid valve
atrial flutter is usually a result of what
in its most common form, it is generated by a reentrant circuit that runs largely around the annulus of the tricuspid valve
atrial flutter is usually a result of what
in its most common form, it is generated by a reentrant circuit that runs largely around the annulus of the tricuspid valve
in its most common form, it is generated by a reentrant circuit that runs largely around the annulus of the tricuspid valve
atrial flutter
in its most common form, it is generated by a reentrant circuit that runs largely around the annulus of the tricuspid valve
atrial flutter
what is a way to diagnose and terminate PSVT
carotid massage
what is a way to diagnose and terminate PSVT
carotid massage
what is a way to diagnose and terminate PSVT
carotid massage
what would a carotid massage do to a-flutter
increase the degree of block
what would a carotid massage do to a-flutter
increase the degree of block
what would a carotid massage do to a-flutter
increase the degree of block
in a-fib underlying heart pathology is often present especially coronary artery disease and what else?
mitral valve disease however long standing HTN is still the most common identifiable cause
in a-fib underlying heart pathology is often present especially coronary artery disease and what else?
mitral valve disease however long standing HTN is still the most common identifiable cause
in a-fib underlying heart pathology is often present especially coronary artery disease and what else?
mitral valve disease however long standing HTN is still the most common identifiable cause
in a-fib underlying heart pathology is often present especially coronary artery disease and what else?
mitral valve disease however long standing HTN is still the most common identifiable cause
in a-fib underlying heart pathology is often present especially coronary artery disease and what else?
mitral valve disease however long standing HTN is still the most common identifiable cause
in a-fib underlying heart pathology is often present especially coronary artery disease and what else?
mitral valve disease however long standing HTN is still the most common identifiable cause
in a-fib underlying heart pathology is often present especially coronary artery disease and what else?
mitral valve disease however long standing HTN is still the most common identifiable cause
in a-fib underlying heart pathology is often present especially coronary artery disease and what else?
mitral valve disease however long standing HTN is still the most common identifiable cause