ECG, EEG, EMG: Understanding the Differences

This article compares ECG, EEG, and EMG machines, highlighting the key differences between them. We’ll also cover the ECG test, EEG test, and EMG test, and how they’re conducted using their respective machines.

ECG Machine (or EKG Machine)

• ECG stands for Electrocardiogram.
• It’s also known as EKG.
• The ECG machine is used to detect irregularities in heart function.
• The ECG test is conducted by placing skin electrodes on different parts of the body.
• The ECG test records the electrical activity of the heart muscle.

Figure 1: ECG test waveforms

The image above depicts waveforms in a normal ECG pattern. This pattern repeats continuously on the screen of the ECG machine. Probes, placed on the patient’s body, connect to the ECG machine. A total of 10 electrodes are used during an ECG test: 4 are connected to the left/right arms and left/right legs, while 6 are placed on the chest. These 10 electrodes constitute 12 leads.

As shown in the image, the ECG consists of a P wave, QRS complex, T wave, and U wave. The following are normal intervals (in milliseconds) that help in interpreting or reading the ECG test report:

• PR interval: Normally between 120 to 200 ms (3 to 5 squares on an ECG report).
• QRS duration: Up to 120ms (3 squares on an ECG test report).
• QT interval: Up to 440ms, varying with the heart rate and slightly longer in females compared to males.

Heart Rate Estimation Using an ECG Test Report

Each second is equivalent to 250 ms (i.e., 5 squares of larger size). The following table mentions the number of large-size squares and their interpretation regarding Heart Rate (HR).

EEG Machine and EEG Test

• EEG stands for Electroencephalogram.
• The EEG test helps detect abnormalities in the brain by observing electrical activity.
• In an EEG test, small metal discs with thin wires (electrodes) are used. These are placed on the scalp and connected to a computer.

Figure 2: EEG test

• The computer records the results as brain wave patterns.
• The entire EEG test takes about 20 to 30 minutes.
• It’s a painless method.

Figure 3: EEG Bands

The EEG test generates waves known as brain waves. These are divided into four major groups based on frequency range, also referred to as EEG bands. These bands help in analyzing different brain conditions based on age in the EEG test report:

• Beta: (> 13 Hz)
• Alpha: (8 to 13 Hz)
• Theta: (4 to 8 Hz)
• Delta: (0.5 to 4 Hz)

An EEG test report can be used for:

• Monitoring coma, alertness, or brain condition after injury or for analysis.
• Testing epilepsy drug effects.
• Monitoring human/animal brain development.

EMG Machine (or Electromyograph)

• EMG stands for Electromyography.
• It’s used to evaluate and record the electrical activity of skeletal muscles. It uses an electrodiagnostic medicine-based technique known as electromyography.
• The equipment detects electric potential generated by muscle cells. In this EMG test, muscle cells are neurologically or electrically activated.
• During the test, a fine needle is inserted into the muscle being tested.
• The presence, shape, and size of the waveform potential are recorded.
• The EMG test recording is done while the muscle is at rest and in contraction. Muscle fibers produce potential during contraction. Two types of electrodes are used: surface and needle.

Figure 4: EMG electromyogram

EMG Test

• The EMG test is performed using an EMG machine.
• The result of the EMG test record is known as an electromyogram.
• The test helps analyze medical abnormalities (if any).
• It’s used to identify and analyze neuromuscular diseases.