Noh Tae-ho's Easy-to-Understand Electrocardiogram 1
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Description
Book Introduction
'Noh Tae-ho's Easy-to-Understand Electrocardiogram', published to help readers understand electrocardiograms without memorizing, has been published in its second edition due to overwhelming love from readers.
The first part of 'Easy to Understand Electrocardiogram', 'Understanding Cardiac Electrical Phenomena and Formation of Electrocardiogram' and the second part, 'Treatment of Arrhythmia in Various Clinical Situations', which were first published in 2013, were based on the author's lectures to Catholic University Medical School students for a long time, but additions and revisions were necessary to reflect the rapidly developing trends in medicine.
In 'Understanding Cardiac Electrical Phenomena and Formation of the Electrocardiogram', a new chapter on normal and abnormal QT interval and ST segment, which are of great clinical importance, was added along with some revisions on ventricular hypertrophy and bundle branch block.
Additionally, several changes were made to the electrocardiogram and schematic diagram to improve understanding.
In 'Treatment of Arrhythmias in Various Clinical Situations', we have tried to faithfully update various aspects of arrhythmias, especially atrial fibrillation, for which new medical discoveries are continuously being made.
Additionally, it was introduced in the treatment of various arrhythmias, reflecting the latest American Heart Association ACLS guidelines.
Since the first edition in 2013, the third series, 'Dr. Noh's Easy-to-Understand Arrhythmia', which covers arrhythmia in depth but is also understandable to the general public, has been published, and the fourth series, 'One Step Further in Electrocardiogram', which describes interesting phenomena in electrocardiograms, has been added.
I believe that going forward, through 'Noh Tae-ho's Easy-to-Understand Electrocardiogram', I will continue to provide easy explanations of difficult electrocardiograms and arrhythmias so that anyone can understand them, and this will be the way to reward my readers.
The first part of 'Easy to Understand Electrocardiogram', 'Understanding Cardiac Electrical Phenomena and Formation of Electrocardiogram' and the second part, 'Treatment of Arrhythmia in Various Clinical Situations', which were first published in 2013, were based on the author's lectures to Catholic University Medical School students for a long time, but additions and revisions were necessary to reflect the rapidly developing trends in medicine.
In 'Understanding Cardiac Electrical Phenomena and Formation of the Electrocardiogram', a new chapter on normal and abnormal QT interval and ST segment, which are of great clinical importance, was added along with some revisions on ventricular hypertrophy and bundle branch block.
Additionally, several changes were made to the electrocardiogram and schematic diagram to improve understanding.
In 'Treatment of Arrhythmias in Various Clinical Situations', we have tried to faithfully update various aspects of arrhythmias, especially atrial fibrillation, for which new medical discoveries are continuously being made.
Additionally, it was introduced in the treatment of various arrhythmias, reflecting the latest American Heart Association ACLS guidelines.
Since the first edition in 2013, the third series, 'Dr. Noh's Easy-to-Understand Arrhythmia', which covers arrhythmia in depth but is also understandable to the general public, has been published, and the fourth series, 'One Step Further in Electrocardiogram', which describes interesting phenomena in electrocardiograms, has been added.
I believe that going forward, through 'Noh Tae-ho's Easy-to-Understand Electrocardiogram', I will continue to provide easy explanations of difficult electrocardiograms and arrhythmias so that anyone can understand them, and this will be the way to reward my readers.
index
preface
Chapter 1.
Electrical generation in the heart
Let's find out
The arrangement of cardiomyocytes is directional.
What are polarization and depolarization of cardiomyocytes?
Cardiomyocytes cannot generate electricity on their own.
The electrical generation of the heart occurs in the sinus node.
How does a frozen node generate electricity?
Sinus node autonomic function determines heart rate
Chapter 2.
Understanding the Electrocardiogram
Let's find out
Promise with Eindhoven
Composition of an electrocardiogram
Eindhoven's triangle and derivations Ⅰ, Ⅱ, and Ⅲ
electrocardiogram record
Here's how to calculate your heart rate
Electrocardiogram waveforms and various intervals
What are limb unipolar leads aVR, aVL, and aVF?
Why are so many limb inductions necessary?
Direction of atrial electrical current - What is the axis of the P wave and what does it mean?
What is Axis and how do I get it?
Why does the direction of ventricular electrical current matter? - The case of the LAD
Why does the direction of ventricular electrical current matter? - for RAD
Very strange direction of ventricular electrical current
Electrical flow in the ventricles measured in the chest - why are thoracic leads needed?
Ventricular hypertrophy as seen by thoracic leads
Are there other ECG leads besides the standard 12 leads?
Chapter 3.
Electrical flow in the heart
Let's find out
Electrical flow in the atrium and formation of the P wave
Electrocardiogram of left atrial enlargement
In right atrial enlargement?
What to look for in P waves - What is the source of the electricity supply?
From the atrium to the ventricle - electrical flow in the atrioventricular conduction system
Electrical flow in the ventricles and formation of QRS complexes
Electrical flow in the ventricular septum creates the Q wave
What is the ventricular electrical current in left ventricular hypertrophy?
ECG of right bundle branch block
In V1, the QRS should go down, but sometimes it goes up.
An electrocardiogram can also reveal the location of abnormal electrical activity in the ventricles.
Let's look back at the electrical flow in a normal heart.
Restoration of ventricular excitability - formation of the repolarization T wave
Doesn't the atrium repolarize?
What if the QT interval is long?
Between ventricular depolarization (QRS) and repolarization (T) - the meaning of the ST segment
Chapter 4.
Occurrence of arrhythmia
Let's find out
First, what is normal on an electrocardiogram?
The occurrence of bradycardia - sinus dysfunction
The development of bradycardia - atrioventricular conduction disturbance
Occurrence of tachycardia
Pathogenesis of Tachycardia - What is Abnormal Automaticity?
Pathogenesis of tachycardia - What is triggered activity?
The most common mechanism of tachycardia is reentry.
Chapter 1.
Electrical generation in the heart
Let's find out
The arrangement of cardiomyocytes is directional.
What are polarization and depolarization of cardiomyocytes?
Cardiomyocytes cannot generate electricity on their own.
The electrical generation of the heart occurs in the sinus node.
How does a frozen node generate electricity?
Sinus node autonomic function determines heart rate
Chapter 2.
Understanding the Electrocardiogram
Let's find out
Promise with Eindhoven
Composition of an electrocardiogram
Eindhoven's triangle and derivations Ⅰ, Ⅱ, and Ⅲ
electrocardiogram record
Here's how to calculate your heart rate
Electrocardiogram waveforms and various intervals
What are limb unipolar leads aVR, aVL, and aVF?
Why are so many limb inductions necessary?
Direction of atrial electrical current - What is the axis of the P wave and what does it mean?
What is Axis and how do I get it?
Why does the direction of ventricular electrical current matter? - The case of the LAD
Why does the direction of ventricular electrical current matter? - for RAD
Very strange direction of ventricular electrical current
Electrical flow in the ventricles measured in the chest - why are thoracic leads needed?
Ventricular hypertrophy as seen by thoracic leads
Are there other ECG leads besides the standard 12 leads?
Chapter 3.
Electrical flow in the heart
Let's find out
Electrical flow in the atrium and formation of the P wave
Electrocardiogram of left atrial enlargement
In right atrial enlargement?
What to look for in P waves - What is the source of the electricity supply?
From the atrium to the ventricle - electrical flow in the atrioventricular conduction system
Electrical flow in the ventricles and formation of QRS complexes
Electrical flow in the ventricular septum creates the Q wave
What is the ventricular electrical current in left ventricular hypertrophy?
ECG of right bundle branch block
In V1, the QRS should go down, but sometimes it goes up.
An electrocardiogram can also reveal the location of abnormal electrical activity in the ventricles.
Let's look back at the electrical flow in a normal heart.
Restoration of ventricular excitability - formation of the repolarization T wave
Doesn't the atrium repolarize?
What if the QT interval is long?
Between ventricular depolarization (QRS) and repolarization (T) - the meaning of the ST segment
Chapter 4.
Occurrence of arrhythmia
Let's find out
First, what is normal on an electrocardiogram?
The occurrence of bradycardia - sinus dysfunction
The development of bradycardia - atrioventricular conduction disturbance
Occurrence of tachycardia
Pathogenesis of Tachycardia - What is Abnormal Automaticity?
Pathogenesis of tachycardia - What is triggered activity?
The most common mechanism of tachycardia is reentry.
GOODS SPECIFICS
- Date of issue: September 10, 2017
- Page count, weight, size: 154 pages | 188*257*20mm
- ISBN13: 9791155900741
- ISBN10: 115590074X
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