Difference between revisions of "ST Morphology"

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m (ST elevation)
 
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{{clr}}
 
{{clr}}
 
{{box|
 
{{box|
[[Image:changing_ST.png|thumb|right|300px|ST changes occur when the endocardial and epicardial action potentials cease to counterbalance each other]]  
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[[Image:changing_ST.svg|thumb|right|240px|ST changes occur when the action potential in the ischemic area changes, resulting in an electric injury current from the healthy cardiomyocytes towards the ischemic area during the repolarization fase.]]  
The '''ST segment''' represents ventricular repolarization. Repolarization follows upon contraction and depolarization. During repolarization the cardiomyocytes elongate and prepare for the next heartbeat. This process takes much more time than the depolarization. The elongation that takes place during repolarization is not passive; it is an active process during which energy is consumed. On the ECG, the repolarization phase starts at the junction, or ''j point'', and continues until the ''T wave''. The ST segment is normally at or near the baseline.
+
The '''ST segment''' represents ventricular repolarization. Repolarization follows upon contraction and depolarization. During repolarization the cardiomyocytes elongate and prepare for the next heartbeat. This process takes much more time than the depolarization. The elongation that takes place during repolarization is not passive; it is an active process during which energy is consumed. On the ECG, the repolarization phase starts at the junction, or ''j point'', and continues until the ''T wave''. The ST segment is normally at or near the baseline. Minor STT changes are not necessarily associated with cardiac ischemia<cite>Lloyd</cite>.
  
 
The '''T wave''' is usually concordant with the QRS complex. Thus if the QRS complex is positive in a certain lead (the area under the curve above the baseline is greater than the area under the curve below the baseline) than the T wave usually is positive too in that lead. Accordingly the T wave is normally upright or positive in leads I, II, AVL, AVF and V3-V6. The T wave is negative in V1 and AVR. The T wave flips around V2, but there is likely some genetic influence in this as in Blacks the T wave usually flips around V3.
 
The '''T wave''' is usually concordant with the QRS complex. Thus if the QRS complex is positive in a certain lead (the area under the curve above the baseline is greater than the area under the curve below the baseline) than the T wave usually is positive too in that lead. Accordingly the T wave is normally upright or positive in leads I, II, AVL, AVF and V3-V6. The T wave is negative in V1 and AVR. The T wave flips around V2, but there is likely some genetic influence in this as in Blacks the T wave usually flips around V3.
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}}
 
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==ST elevation==
 
==ST elevation==
[[Image:stelevatie_en.png|thumb|300px|ST elevatie is measured at the junctional or j-point.<cite>Gibbons</cite>]]
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{{multiple image
[[Image:normal_ST_elevation.png|thumb|300px|Examples of normal ST elevation]]
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| align    = right
[[Image:pathologic_ST_elevation.png|thumb|300px|Examples of pathologic ST elevation. [[LVH]], [[LBBB]], [[Pericarditis]], [[Hyperkalemia]], [[Anterior AMI]] ]]
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| direction = vertical
 +
| width    = 300
 +
 
 +
| image1    = stelevatie_en.png
 +
| caption1  = ST elevatie is measured at the junctional or j-point.<cite>Gibbons</cite>
 +
 
 +
| image2    = STshift.svg
 +
| caption2  = common causes of ST shift
 +
 
 +
| image3    = normal_ST_elevation.png
 +
| caption3  = Examples of normal ST elevation. Adapted from <cite>Wang</cite>
 +
 
 +
| image4    = Pathologic ST elevation.png
 +
| caption4  = Examples of pathologic ST elevation. [[LVH]], [[LBBB]], [[Pericarditis]], [[Hyperkalemia]], [[Anterior AMI]]. Adapted from <cite>Wang</cite>
 +
 
 +
| image5 = Semantic_confusion_early_repolarization.svg
 +
| caption5 = Unfortunately the term early repolarization is used to describe different phenomenons with differing clinical impact. Image adapted from Froelicher et al.<cite>Froelicher</cite>
 +
}}
 
The most important cause of '''ST segment elevation''' is '''acute [[Ischemia]]'''. Other causes are <cite>Wang</cite><cite>Werf</cite>:
 
The most important cause of '''ST segment elevation''' is '''acute [[Ischemia]]'''. Other causes are <cite>Wang</cite><cite>Werf</cite>:
*Early repolarization
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*[[Early repolarization]]
 
*[[Clinical Disorders#Pericarditis|Acute pericarditis]]: ST elevation in all leads except aVR
 
*[[Clinical Disorders#Pericarditis|Acute pericarditis]]: ST elevation in all leads except aVR
 
*[[Pulmonary_Embolism|Pulmonary embolism]]: ST elevation in V1 and aVR  
 
*[[Pulmonary_Embolism|Pulmonary embolism]]: ST elevation in V1 and aVR  
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[[Image:early_repol.png|thumb|none|Characteristics of early repolarization]]
 
[[Image:early_repol.png|thumb|none|Characteristics of early repolarization]]
'''Early repolarization''' is a term used for ST segment elevation without underlying disease. It probably has nothing to do with actual early repolarization. It is commonly seen in young men. It is important to discern early repolarization from ST segment elevation from other causes such as [[ischemia]]. Characteristics of early repolarization are:<cite>Kambara</cite>
+
 
 +
'''[[Early repolarization]]''' is a term used for ST segment elevation without underlying disease. It probably has nothing to do with actual early repolarization. It is commonly seen in young men. It is important to discern early repolarization from ST segment elevation from other causes such as [[ischemia]]. Characteristics of early repolarization are:<cite>Kambara</cite>
 
* an upward concave elevation of the RS-T segment with distinct or "embryonic" J waves
 
* an upward concave elevation of the RS-T segment with distinct or "embryonic" J waves
 
* slurred downstroke of R waves or distinct J points or both
 
* slurred downstroke of R waves or distinct J points or both
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* absence of reciprocal ST depression
 
* absence of reciprocal ST depression
 
* large symmetrical T waves
 
* large symmetrical T waves
Early repolarization in inferior leads (II, III en AVF) has recently been found to be associated with an increased risk of cardiac death (1 mm of ST elevation carried an OR of 1.3 and 2 mm an OR of 3.0 )<cite>Tikkanen</cite>
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Recently early repolarization has also been used to describe late QRS notching or J wave slurring. When defined as such in the inferior leads (II, III en AVF) it has been found to be associated with an increased risk of cardiac death (1 mm of ST elevation carried an OR of 1.3 and 2 mm an OR of 3.0 )<cite>Tikkanen</cite>
 
{{clr}}
 
{{clr}}
  
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==T wave changes==
 
==T wave changes==
 
[[image:t_wave_morphology.png|thumb|300px|Different forms of T wave morphology]]
 
[[image:t_wave_morphology.png|thumb|300px|Different forms of T wave morphology]]
 +
[[File:E0003192.png|thumb|Negative T waves in III, AVR and V1 as in this example are normal. An upright T wave in III is more common.]]
 
The T wave is quite 'labile' and long lists of possible causes of T wave changes exist. A changing T wave can be a sign that 'something' is abnormal, but it doesn't say much about the severity. T waves can be peaked, normal, flat, or negative. Flat and negative T waves are defined as:
 
The T wave is quite 'labile' and long lists of possible causes of T wave changes exist. A changing T wave can be a sign that 'something' is abnormal, but it doesn't say much about the severity. T waves can be peaked, normal, flat, or negative. Flat and negative T waves are defined as:
  
 
;flat T wave: < 0.5 mm negative or positive T wave in leads I, II, V3, V4, V5 or V6
 
;flat T wave: < 0.5 mm negative or positive T wave in leads I, II, V3, V4, V5 or V6
;negative T wave: > 0.5 mm negative T wave in leads I, II, V3, V4, V5 or V6
+
;negative (or inverted) T wave: > 0.5 mm negative T wave in leads I, II, V3, V4, V5 or V6
  
 
A concise list of possible causes of T wave changes:
 
A concise list of possible causes of T wave changes:
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#Kambara pmid=133604
 
#Kambara pmid=133604
 
#Tikkanen pmid=19917913
 
#Tikkanen pmid=19917913
 +
#Lloyd pmid=19801030
 +
#Froelicher pmid=22340816
 
</biblio>
 
</biblio>
 
}}
 
}}
  
 
[[Category:ECG Course]]
 
[[Category:ECG Course]]

Latest revision as of 10:56, 17 February 2013

«Step 6: QRS morphology Step 7+1: Compare with previous ECG»


Author(s) J.S.S.G. de Jong, MD
Moderator J.S.S.G. de Jong, MD
Supervisor
some notes about authorship


ST changes occur when the action potential in the ischemic area changes, resulting in an electric injury current from the healthy cardiomyocytes towards the ischemic area during the repolarization fase.

The ST segment represents ventricular repolarization. Repolarization follows upon contraction and depolarization. During repolarization the cardiomyocytes elongate and prepare for the next heartbeat. This process takes much more time than the depolarization. The elongation that takes place during repolarization is not passive; it is an active process during which energy is consumed. On the ECG, the repolarization phase starts at the junction, or j point, and continues until the T wave. The ST segment is normally at or near the baseline. Minor STT changes are not necessarily associated with cardiac ischemia[1].

The T wave is usually concordant with the QRS complex. Thus if the QRS complex is positive in a certain lead (the area under the curve above the baseline is greater than the area under the curve below the baseline) than the T wave usually is positive too in that lead. Accordingly the T wave is normally upright or positive in leads I, II, AVL, AVF and V3-V6. The T wave is negative in V1 and AVR. The T wave flips around V2, but there is likely some genetic influence in this as in Blacks the T wave usually flips around V3.

The T wave angle is the result of small differences in the duration of the repolarization between the endocardial and epicardial layers of the left ventricle. The endocardial myocytes need a little more time to repolarize (about 22 msec). This difference causes an electrical current from the endocardium to the epicardium, which reads as a positive signal on the ECG.[2]

ST elevation

ST elevatie is measured at the junctional or j-point.[3]
common causes of ST shift
Examples of normal ST elevation. Adapted from [4]
Examples of pathologic ST elevation. LVH, LBBB, Pericarditis, Hyperkalemia, Anterior AMI. Adapted from [4]
Unfortunately the term early repolarization is used to describe different phenomenons with differing clinical impact. Image adapted from Froelicher et al.[5]

The most important cause of ST segment elevation is acute Ischemia. Other causes are [4][6]:

In a study by Otto et al., among 123 patients with chest pain and ST segment elevation of >1mm, 63 patients did not have a myocardial infarction. Diagnoses in patients who did not have a myocardial infarction were LVH (33%) and LBBB (21%). [7] In daily practice this means that in these patients the diagnosis of myocardial infarction has to depend on other diagnostic means, such as laboratory tests, echocardiography and coronary angiography.

An important clue for the diagnosis of ischemia is the presence of reciprocal ST segment depression.

Characteristics of early repolarization

Early repolarization is a term used for ST segment elevation without underlying disease. It probably has nothing to do with actual early repolarization. It is commonly seen in young men. It is important to discern early repolarization from ST segment elevation from other causes such as ischemia. Characteristics of early repolarization are:[8]

  • an upward concave elevation of the RS-T segment with distinct or "embryonic" J waves
  • slurred downstroke of R waves or distinct J points or both
  • RS-T segment elevation commonly encountered in the precordial leads and more distinct in these leads
  • rapid QRS transition in the precordial leads with counterclockwise rotation
  • persistence of these characteristics for many years
  • absence of reciprocal ST depression
  • large symmetrical T waves

Recently early repolarization has also been used to describe late QRS notching or J wave slurring. When defined as such in the inferior leads (II, III en AVF) it has been found to be associated with an increased risk of cardiac death (1 mm of ST elevation carried an OR of 1.3 and 2 mm an OR of 3.0 )[9]

ST depression

The most important cause of ST segment depression is Ischemia. Other causes of ST segment depression are:

T wave changes

Different forms of T wave morphology
Negative T waves in III, AVR and V1 as in this example are normal. An upright T wave in III is more common.

The T wave is quite 'labile' and long lists of possible causes of T wave changes exist. A changing T wave can be a sign that 'something' is abnormal, but it doesn't say much about the severity. T waves can be peaked, normal, flat, or negative. Flat and negative T waves are defined as:

flat T wave
< 0.5 mm negative or positive T wave in leads I, II, V3, V4, V5 or V6
negative (or inverted) T wave
> 0.5 mm negative T wave in leads I, II, V3, V4, V5 or V6

A concise list of possible causes of T wave changes:


References

Error fetching PMID 12356646:
Error fetching PMID 14645641:
Error fetching PMID 12559937:
Error fetching PMID 8273952:
Error fetching PMID 133604:
Error fetching PMID 19917913:
Error fetching PMID 19801030:
Error fetching PMID 22340816:
  1. Error fetching PMID 19801030: [Lloyd]
  2. ISBN:0808923056 [braunwald]
  3. Error fetching PMID 12356646: [Gibbons]
  4. Error fetching PMID 14645641: [Wang]
  5. Error fetching PMID 22340816: [Froelicher]
  6. Error fetching PMID 12559937: [Werf]
  7. Error fetching PMID 8273952: [Otto]
  8. Error fetching PMID 133604: [Kambara]
  9. Error fetching PMID 19917913: [Tikkanen]
All Medline abstracts: PubMed | HubMed