Second degree AV block: Difference between revisions
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* Correction of reversible causes of the block such as ischemia, medications, and vagotonic conditions should be addressed. | * Correction of reversible causes of the block such as ischemia, medications, and vagotonic conditions should be addressed. | ||
===Mobitz II=== | ===Mobitz II=== | ||
* Correction of reversible causes of the block such as ischemia, medications, and vagotonic conditions should be | * Correction of reversible causes of the block such as ischemia, medications, and vagotonic conditions should be considered. | ||
* Implantation of permanent pacemakers in both asymptomatic and symptomatic patients is usually done. Asymptomatic Mobitz II are prone to be converted to symptomatic or third degree heart AV block. Thus, they should be considered for a pacemaker even if asymptomatic. | * Implantation of permanent pacemakers in both asymptomatic and symptomatic patients is usually done. Asymptomatic Mobitz II are prone to be converted to symptomatic or third degree heart AV block. Thus, they should be considered for a pacemaker even if asymptomatic. | ||
* A dual chamber DDD pacemaker is preferred over a single chambered VVI pacemakers as it maintains physiologic AV synchrony. | * A dual chamber DDD pacemaker is preferred over a single chambered VVI pacemakers as it maintains physiologic AV synchrony. | ||
* A dual-chamber [[artificial pacemaker]] is a type of device that typically listens for a pulse from the SA node and sends a pulse to the AV node at an appropriate interval, essentially completing the connection between the two nodes. Pacemakers in this role are usually programmed to enforce a minimum heart rate and to record instances of [[atrial flutter]] and [[atrial fibrillation]] | * A dual-chamber [[artificial pacemaker]] is a type of device that typically listens for a pulse from the SA node and sends a pulse to the AV node at an appropriate interval, essentially completing the connection between the two nodes. Pacemakers in this role are usually programmed to enforce a minimum heart rate and to record instances of [[atrial flutter]] and [[atrial fibrillation]] | ||
* Treatment may also include medicines to control blood pressure and atrial fibrillation, as well as lifestyle and dietary changes to reduce risk factors associated with [[myocardial infarction|heart attack]] and [[stroke]]. | * Treatment may also include medicines to control [[blood pressure]] and [[atrial fibrillation]], as well as lifestyle and dietary changes to reduce risk factors associated with [[myocardial infarction|heart attack]] and [[stroke]]. | ||
* Treatment in emergency situations | * Treatment in emergency situations are [[atropine]] and an [[external pacer]]. | ||
==EKG examples== | ==EKG examples== |
Revision as of 01:58, 6 August 2012
Second degree AV block | |
Second degree AV block. Mobitz Type II | |
ICD-10 | I44.1 |
ICD-9 | 426.12, 426.13 |
DiseasesDB | 10477 |
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor-In-Chief: Cafer Zorkun, M.D., Ph.D. [2]
Overview
Second degree AV block is a disease of the electrical conduction system of the heart. It refers to a conduction block between the atria and ventricles. The presence of second degree AV block is diagnosed when one or more (but not all) of the atrial impulses fail to conduct to the ventricles due to impaired conduction. Second-degree AV block can be of one of the two types: Mobitz I and Mobitz II. Mobitz I, or Wenckebach block , consists of progressive prolongation of PR interval, until loss of conduction to the ventricle occurs (missed beat). Mobitz I block is rarely symptomatic and does not require treatment. On the other hand, Mobitz II AV block is characterized by a constant PR interval with intermittent missed beats. The missed beats can occur with varying frequency such as occasional to 3:1 or 2:1.
Types
There are two distinct types of second degree AV block, called type 1 and type 2. The distinction is made between them because type 1 second degree heart block is considered a more benign entity than type 2 second degree heart block.
Type 1 (Mobitz I / Wenckebach)
- Type 1 Second degree AV block, also known as Mobitz I or Wenckebach periodicity, is almost always a disease of the AV node.
- Mobitz I heart block is characterized by progressive prolongation of the PR interval on the electrocardiogram (EKG) on consecutive beats followed by a blocked P wave (i.e. a 'dropped' QRS complex). After the dropped QRS complex, the PR interval resets and the cycle repeats.
- One of the baseline assumptions when determining if an individual has Mobitz I heart block is that the atrial rhythm has to be regular. If the atrial rhythm is not regular, there could be alternative explanations as to why certain P waves do not conduct to the ventricles.
- This is almost always a benign condition for which no specific treatment is needed.
Type 2 (Mobitz II)
- Type 2 Second degree AV block, also known as Mobitz II is almost always a disease of the distal conduction system (His-Purkinje System).
- Although the terms infranodal block or infrahisian block are often applied to this disorder, they are not synonymous with it.
- Infranodal block and infrahisian block are terms which refer to the anatomic location of the block, whereas
- Mobitz II refers to an electrocardiographic pattern associated with block at these levels.
- Mobitz II heart block is characterized on a surface ECG by intermittently nonconducted P waves not preceded by PR prolongation and not followed by PR shortening. The medical significance of this type of AV block is that it may progress rapidly to complete heart block, in which no escape rhythm may emerge. In this case, the person may experience a Stokes-Adams attack, cardiac arrest, or Sudden Cardiac Death. The definitive treatment for this form of AV Block is an implanted pacemaker.
Electrocardiographic Findings
Type I Second Degree AV Block
- Also called the Wenckebach phenomenon or Mobitz type I block
- Intermittent failure of the supraventricular impulse to be conducted to the ventricles, not every P wave is followed by a QRS
- There is progressive prolongation of the PR interval until a P wave is blocked
- Progressive shortening of the RR interval until a P wave is blocked
- The RR interval containing the blocked P wave is shorter than the sum of 2 PP intervals
- The increase in the PR interval is longest in the second conducted beat after the pause
- These rules may not be followed because of fluctuation in vagal tone and secondary to sinus arrhythmia.
- In patients with normal QRS width, the block is usually located in the AV node
- there is progressive prolongation of the AH interval until the blocked P wave occurs
- When it is associated with bundle branch block, the block may occur in the AV node, His bundle or the contralateral bundle branch
- in 75% the block is in the AV node
- in 25% it is infranodal
Type II Second-Degree AV Block: Mobitz Type II Block
- There are intermittent blocked P waves
- In the conducted beats, the PR intervals remain constant
- The PR is fairly constant except that slight shortening may occur in the first beat after the blocked cycle. This is the result of improved conduction following the block
- Most patients with type II second-degree AV block have associated bundle branch block.
- In these instances the block is usually located distal to the His bundle, in approximately 27 to 35% of patients however, the lesion is located in the His bundle itself, and a narrow complex may be inscribed.
- 2:1 AV Block:
- Impossible to determine whether the second-degree AV block is type I or type II.
- A long rhythm strip is helpful to document any change in the behavior of the conduction ratio
- When the atrial rate is increased by exercise or by atropine, the AV block in type I tends to decrease and that in type II tends to increase
Advanced AV Block or High Grade AV Block
- When the AV conduction ratio is 3:1 or higher
- In some cases only occasional ventricular captures are observed, and the dominant rhythm is maintained by a subsidiary pacemaker.
- You must compare the PR interval of the rare captured beats, a constant PR interval suggests type II block
Differential Diagnosis of Second-Degree AV Block
- Second Degree AV Block may be simulated by blocked PACs. Must be very careful to assure that the P to P intervals are constant
- 2:1 conduction may simulate sinus bradycardia as the blocked P waves may fall on the preceding T waves
Differential Diagnosis of AV Block in General
Normal Variants
- PR prolongation can be found in 0.5% of healthy patients
- Second degree block type I may be seen in healthy patients during sleep
- Transient AV block can occur with vagal maneuvers
ST Elevation MI
- In acute ST elevation MI:
- First degree block occurs in 8% to 13%
- Second degree block in 3.5% to 10%
- Complete heart block in 2.5% to 8%
Inferior ST Elevation MI
- In 90% of patients the inferior wall is supplied by the RCA which gives off a branch to the AV node
- As a rule the AV block is transient and normal function returns within a week of the acute episode
Anterior ST Elevation MI
- Incidence of second degree AV block and third degree AV block is 5 to 7%
- Block is the result of damage to the interventricular septum supplied by the LAD
- There is damage to the bundle branches either in the form of bilateral bundle branch block or trifascicular block
- RBBB, RBBB + LAHB, RBBB + LPHB or LBBB often appear before the development of AV block
- The PR is normal or minimally prolonged before the onset of second degree AV block or third degree AV block
- Although the AV block is usually transient, there is a relatively high incidence of recurrence or high-degree AV block after the acute event
- In addition to ischemia, fibrosis and calcification of the summit of the ventricular septum that involve the branching part of the bundle branches, may play a role in the genesis of the conduction defect.
- It used to be thought that CAD was the most frequent cause of chronic complete AV block, but it actually causes only 15% of cases
Degenerative Diseases
- Sclerodegenerative disease of the bundle branches first described by Lenegre
- The pathologic process is called idiopathic bilateral bundle branch fibrosis and the heart block is called primary heart block
- This is the most common cause of chronic AV block (46%)
- Lev described similar degenerative lesions, which he referred to as sclerosis of the left side of the cardiac skeleton. There is progressive fibrosis and calcification of the mitral annulus, the central fibrous body, the pars membranacea, the base of the aorta, and the summit of the muscular ventricular septum. Various portions of the His bundle or the bundle branches may be involved, resulting in AV block.
Hypertension
- Chronic AV block in patients with HTN is thought to be due to CAD or sclerosis of the left side of the cardiac skeleton exacerbated by hypertension
Diseases of the Myocardium
- Acute rheumatic fever: PR prolongation is a common (25 to 95% of cases) sign in patients with acute rheumatic fever
- Type I second degree AV block may occur, but complete AV block is uncommon
- usually transient, disappears when the patient recovers
- Amyloidosis
- Ankylosing spondylitis
- Chagas disease
- Dermatomyositis
- Dilated cardiomyopathy results in various degrees of heart block are seen in 15% of patients
- Diphtheria
- HCM: 3% of patients with HCM will develop heart block
- Hemochromatosis
- Lyme disease
- Muscular dystrophy
- Myocarditis
- Sarcoid
- Scleroderma
- SLE
- Tumors, primary and secondary
Valvular Heart Disease
- Calcific aortic stenosis may be accompanied by chronic partial or complete AV block
- There is an extension of the calcification to involve the main bundle or its bifurcation, resulting in degeneration and necrosis of the conduction tissue
- May also occur in rheumatic mitral valve disease, but is less common
- Occasionally, massive calcification of the mitral annulus as an aging process may cause AV block
- May also be seen in bacterial endocarditis, especially of the aortic valve
Drugs
- When second degree AV block is induced, it is always of the Type I variety
- When complete block occurs, the QRS complexes are narrow because the block is of the AV node
- The ventricular response rate is more rapid than that due to organic lesions, and increased automaticity of the AV junctional pacemaker may be responsible.
- Quinidine and Procainamide may produce slight prolongation of the PR
- β blockers may cause AV block
- Diltiazem and verapamil may cause AV conduction delay and PR interval prolongation
Congenital
- Occurs in the absence of other evidence of organic heart disease
- Site is usually proximal to the bifurcation of the His bundle, most often in the AV node
- Narrow QRS with a rate > 40 beats per minute
- Frequently seen in those with corrected transposition of the great vessels, and occasionally in ASDs and Ebstein's anomaly
Trauma
- May be induced during open heart surgery in the area of AV conduction tissue
- Seen in patients operated on for the correction of VSD, tetralogy of Fallot, and endocardial cushion defect.
- May be due to edema, transient ischemia, or actual disruption of the conduction tissue. The block may therefore be permanent or transient.
- Also reported with both penetrating and non-penetrating trauma of the chest
History and Symptoms
Most people with Wenckebach (Type I Mobitz) do not show symptoms. However, those that do usually display one or more of the following:
- Light-headedness
- Dizziness
- Syncope (Fainting)
Treatment
Mobitz I
- Patients are usually asymptomatic and doesn't require a pacemaker.
- Correction of reversible causes of the block such as ischemia, medications, and vagotonic conditions should be addressed.
Mobitz II
- Correction of reversible causes of the block such as ischemia, medications, and vagotonic conditions should be considered.
- Implantation of permanent pacemakers in both asymptomatic and symptomatic patients is usually done. Asymptomatic Mobitz II are prone to be converted to symptomatic or third degree heart AV block. Thus, they should be considered for a pacemaker even if asymptomatic.
- A dual chamber DDD pacemaker is preferred over a single chambered VVI pacemakers as it maintains physiologic AV synchrony.
- A dual-chamber artificial pacemaker is a type of device that typically listens for a pulse from the SA node and sends a pulse to the AV node at an appropriate interval, essentially completing the connection between the two nodes. Pacemakers in this role are usually programmed to enforce a minimum heart rate and to record instances of atrial flutter and atrial fibrillation
- Treatment may also include medicines to control blood pressure and atrial fibrillation, as well as lifestyle and dietary changes to reduce risk factors associated with heart attack and stroke.
- Treatment in emergency situations are atropine and an external pacer.
EKG examples
-
Example of type I second degree AV block (Wenckebach)
-
Example of type I second degree AV block (Wenckebach)
Related chapters
- Electrical conduction system of the heart
- Electrocardiogram (ECG or EKG)
- SA node
- AV node
- First degree AV block
- Third degree AV block
Resources
- Template:WhoNamedIt
- http://www.youtube.com/watch?v=GVxJJ2DBPiQ - AV Block Parody Video by the University of Alberta
- Emergency Cardiovascular Medicine - eMedicine article on 2nd Degree Heart Block