ECG IN HYPERKALEMIA

HIGH POTASSIUM LEVEL IN ECG

Hyperkalemia is a harsh condition in which blood potassium levels are above normal in the blood. This is one of the common conditions during End-Stage Kidney Disease(ESKD). But due to some other causes also this condition may occur.
For example frequent uses of Trimethoprim-Sulfamethoxazole combination (Septrin, Septra, and Bactrim)may raise potassium level in the blood. Beware of these antibiotics if the patient is aged above 60 years.

Here we are about to see only how this condition is reflected in the ECG.

Fig-1

In the above Fig-1 a normal ECG has been shown. In that one can observe a normal sinus rhythm with a clear P, Q, R, S, and T-waves.

In the following Fig-2A and 2B each, an ECG has been taken during the condition of high potassium level in the blood.

Fig-2A

Fig 2B

In general hyperkalemia causes the reduction in heartbeats or frequency of contraction(cardiac chronotropic) and increasing the force of contractility (cardiac inotropy). It causes errors in cell polarization and depolarization. Irregular beats.Cardiac arrhythmias.Bradycardia or slowing of heartbeats. If left uncorrected it may result in cardiac arrest.

In the above Fig-2A, the precordial leads V3 and V4 show the stages of abnormalities develops in the sinus rhythm due to the high level of potassium in the blood.

The first stage shows normal P-wave with the abnormal decay of the QRS complex followed by the elevated T-wave.

The second stage shows the flattening of P-wave and the third stage shows the total eclipse of P-wave.

The QRS complex is shortened and narrowed.

T-wave is high peaked.

Segment-wise the PR-seg.is elongated and the ST-seg.is elevated to predict the event of a heart attack.

The P -wave disappearance is due to the atrial nonresponse to the SA node triggering.

The QRS shortening and narrowing indicate and predict ventricular fibrillation.

The elevated T-wave indicates the delay in ventricular repolarization.

Control potassium intake by avoiding potassium-rich foods such as unpeeled fruits, red meats, raisins, prunes, potatoes, and drinks like tender coconut, orange, banana, grapefruit, tomato, prune and apricot juices.

Symptoms of hyperkalemia are mild or asymptomatic at stage one 

but shows fatigue, tiredness, tingling and numbness, nausea and vomiting, breathing trouble, and chest pain.

MEDICATIONS THAT AFFECTS YOUR ECG-2

TRYCYCLIC ANTIDEPRESSANTS OVERDOSE

Amitriptylin

Tricyclic antidepressants are prescribed by many doctors to treat depressions. They are classified into secondary amines and tertiary amines. Among this amitriptyline is one of the tertiary amines available in the market by the name of Tryptizol, Tryptomer, and Elavil, etc.
Many people are using this drug under any one of the above trade names for their depressive episodes. The following ECG image can reveal how this drug is affecting your heart.

Fig-1

The main effect of amitriptyline on the heart is QT prolongation and a fast heartbeat. See in Fig 1 above the QRS complex is widened in a manner to embed the T-wave so that the QT-interval is elevated and prolonged.P-Q interval also prolonged.

DOXEPIN:-

Fig-2

Doxepin is another tertiary amine very similar to amitriptyline. In Fig-2 the effect of doxepin is shown with a similar pattern of ECG changes to that of amitriptyline. Generally all tricyclic antidepressants produce similar patterns of ECG changes. They produce ventricular tachycardia with prolonged QT-interval.

MEDICATIONS THAT AFFECTS YOUR ECG-1

DIGOXIN

Brand Name:Lanoxin,Digitek

Digoxin is the drug that is used frequently to patients suffering from Congestive Heart Failure.

Digitalis Lanata or purpura is a foxglove plant that gives many glycosides out of which digoxin is the drug more commonly used for CHF.

Nowadays this drug is replaced by many second and third-generation drugs because of its serious side effects.
Digoxin increases the contractility of the heart muscles by Na+/Ca++ ion exchanges.

Digoxin toxicity can be easily studied through ECG. Its toxicity on the heart would be reflected in ECG.

SEE THE ST-SEGMENT DEPRESSION

See in the above figure the ST-segment depression which is the main effect of digoxin. Digoxin causes calcium to build up in the myocytes which cause a slow down of the heart rate (chronotropic) but increases the strength of the contraction (inotropic). The toxic dose of the digoxin leads to an ischemic effect (angina) and that is reflected in ECG as the ST-segment depression.

Digoxin may give the wrong impression in ECG taken in a person with angina on exercise. It gives a normal ST impression instead of depression.

Digoxin Toxicity:-

1.Fatigue, tiredness, and malaise

2.Visual disturbances              

3.Nausea and Vomiting           

4.Digestive problems

5.Abdominal Pain                 

ECG READING EXERCISES-L-MODEL ECG IN CONGESTIVE HEART FAILURE

ECG IN CHF

Note in the above figure the enlarged right and left ventricles. This is the main cause for CHF
CHF is a condition in which the heart is unable to pump the blood sufficiently to the metabolic demand of the body.

Causes:-                               

1.Heart Attack.

2.High B.P

3.Arrhythmia (tachycardia, bradycardia)

4.Defective heart valves

The above causes may either impair the blood output by weakening the heart muscle  (Arrhythmia and Heart Attack) or impose heavy workload on the heart by increasing arterial resistance (Hypertension)

Symptoms:-

1. Left-sided CHF causes lung enlargement, and dyspnea(difficult breathing)

2. Right-sided CHF causes liver enlargement and peripheral edema.

Complementary Physiologic Mechanism:-

1.Increased heartbeat(Adrenergic domination)

2.Reduced kidney blood supply that causes increased salt retention by aldosterone.

3.Enlarged heart(Myocardial Megaly)

Model ECG in CHF:-

Fig-1

In the Fig-1 two models of ECG, rhythms have been shown. One is normal and the other is recorded in CHF. Both are in lead-II.
Usually heart failure can be diagnosed by X-ray which can clearly picture out the enlarged heart.
In ECG this enlarged ventricles can be identified by the uptrend elongated tall R-wave and a widened QRS complex as shown in above Fig-1 by the green lines and the red circles. The QT-interval is also widened which is marked by blue lines in the above Fig-1.
Correction Options:-
1.Improve heart muscle contracting ability

2. Reduce Preload.
3. Reduce arterial resistance after load.
Medicines:-
1.Cardiac Glycosides (Digoxin)
2.Bipyridines
3.Beta-blockers
4.ACE-Inhibitors
5.Vasodilators
6.Diuretics.Continued...