Mechanisms of Arrhythmias: Difference between revisions

Jump to navigation Jump to search
no edit summary
No edit summary
Line 1: Line 1:
==Abnormal impulse formation==
==Abnormal impulse formation==
Abnormal impulse formation can result in an abnormal frequency, as in symptomatic [[#sinusbradycardia|sinusbradycardia]], but oftenwise the problem is an abnormal location of impulse formation, as is the cause in an [[#ectopic_pacemaker|ectopic pacemaker]].
Abnormal impulse formation can result in abnormal frequency, as in symptomatic [[#sinus bradycardia|sinus bradycardia]], but often the problem is an abnormal location of impulse formation, as is the cause in an [[#ectopic_pacemaker|ectopic pacemaker]].


===Abnormal automaticity===
===Abnormal automaticity===
The sinus node contains pacemaker cells that have spontaneous firing capacity, this is called ''normal automaticity''. '''Abnormal automaticity''' occurs when other cells start firing spontaneously, resulting in premature heartbeats. All cardiac cells have spontaneous firing capacity, but at only at a very slow heartrate. Therefore, during a normal heart rate, they will never have the chance to show off their firing capacity. However in pathologic conditions, such as during extreme bradycardia other cells can take over and cause for example a [[AV nodal rhythm|AV-nodal heart rate]].
The sinus node contains pacemaker cells that have spontaneous firing capacity. This is called ''normal automaticity''. '''Abnormal automaticity''' occurs when other cells start firing spontaneously, resulting in premature heartbeats. All cardiac cells have spontaneous firing capacity, but at only at a very slow heart rate. Therefore, during a normal heart rate, they will never have the chance to show off their firing capacity. However, in pathologic conditions, such as during extreme bradycardia, other cells can take over and cause for example an [[AV nodal rhythm|AV-nodal heart rate]].
{{clr}}
{{clr}}
===Triggered activity===
===Triggered activity===
During '''triggered activity''' heart cells contract twice, although they only have been activated once. This is often caused by so called ''afterdepolarizations'' (early or delayed afterdepolarisations EADs / DADs) caused by electrical instability in the myocardial cell membrane. A typical example of this is [[Torsade de Pointes]].
During '''triggered activity''' heart cells contract twice, although they only have been activated once. This is often caused by so called ''afterdepolarizations'' (early or delayed afterdepolarizations EADs / DADs) caused by electrical instability in the myocardial cell membrane. A typical example of this is [[Torsade de Pointes]].
{{clr}}
{{clr}}


Line 14: Line 14:


===Re-entry===
===Re-entry===
[[Image:Re_entry.png|thumb|'''Re-entry'''. A prerequisite for re-entry is the presence of two pathways with differing conduction velocities that connect two points, in this case the atria with the ventricles. The signal splits in two at arrival, but no arrhythmia is initiated as the slow signal extincts when in meets the fast signal. However, after an extrasystole (second image) the fast pathway is still refractory and conduction is by the slow pathway, resulting in a prolongation of the PR interval. The signal that reaches the His by the slow pathway may find the fast pathway conducting and return to the atria (third image), resulting in an '''echo beat'''. This may set in motion a re-entry pathway through the AV node resulting in AV nodal tachycardia (fourth image).]]
[[Image:Re_entry.png|thumb|'''Re-entry'''. A prerequisite for re-entry is the presence of two pathways with differing conduction velocities that connect two points, in this case the atria with the ventricles. The signal splits in two at arrival, but no arrhythmia is initiated as the slow signal becomes extinct when it meets the fast signal. However, after an extrasystole (second image) the fast pathway is still refractory and conduction is by the slow pathway, resulting in a prolongation of the PR interval. The signal that reaches the His by the slow pathway may find the fast pathway conducting and return to the atria (third image), resulting in an '''echo beat'''. This may set in motion a re-entry pathway through the AV node resulting in AV nodal tachycardia (fourth image).]]


Re-entry is a common cause of arrhythmias. [[#Ventricular tachycardia|Ventricular tachycardia]] and [[#AVNRT|AV-nodal re-entry]] are typical examples. Re-entry can occur when a conduction path is partly slowed down. As a result of this, the signal is conducted by both a fast and a slow pathway. During normal sinus rhythm this generally does not cause problems, but when an extrasystole follows rapidly upon the previous beat, the fast pathway is sometimes still refractory and cannot conduct the signal. Now the following sequence results in re-entry.
Re-entry is a common cause of arrhythmias. [[#Ventricular tachycardia|Ventricular tachycardia]] and [[#AVNRT|AV-nodal re-entry]] are typical examples. Re-entry can occur when a conduction path is partly slowed down. As a result of this, the signal is conducted by both a fast and a slow pathway. During normal sinus rhythm this generally does not cause problems, but when an extrasystole follows rapidly upon the previous beat, the fast pathway is sometimes still refractory and cannot conduct the signal. Now the following sequence results in re-entry.


# The atrial signal coming from above is conducted by the slow pathway
# The atrial signal coming from above is conducted by the slow pathway.
# As the signal through the slow pathway reaches the end of the fast pathway, it finds this pathway willing to conduct.
# As the signal, going through the slow pathway, reaches the end of the fast pathway, it finds this pathway able to conduct.
# The signal is conducted through the fast pathway up to the beginning of the slow pathway, which by that time is willing to conduct.
# The signal is conducted through the fast pathway up to the beginning of the slow pathway, which by that time is able to conduct.
# This circle is perpetuated and a signal generator is created. In the case of [[#AVNRT|AV-nodal re-entry]] this will typically generate a signal at a frequency of 180-250 bpm.
# This circle is perpetuated and a signal generator is created. In the case of [[#AVNRT|AV-nodal re-entry]] this will typically generate a signal at a frequency of 180-250 bpm.


{{clr}}
{{clr}}
114

edits

Navigation menu