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Related Concept Videos

Electrocardiogram01:29

Electrocardiogram

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An electrocardiogram (ECG or EKG) is a critical diagnostic tool that records the electrical signals produced by the heart during each heartbeat. This recording is achieved through electrodes placed strategically on the arms, legs, and chest. The electrocardiograph amplifies these signals and produces 12 distinct tracings, offering a comprehensive understanding of the heart's electrical activity.
Three major waveforms are present in a typical ECG recording: the P wave, the QRS complex, and...
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ECG Interpretation of Rhythms01:24

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An electrocardiogram (ECG)graphically represents the heart's electrical activity on ECG paper or a monitor.
Components of the Electrocardiogram
The primary components of a normal ECG waveform in Normal sinus rhythm(NSR) include the P wave, PR interval, QRS complex, ST segment, T wave, and occasionally a U wave.
ECG waveforms are divided by vertical and horizontal lines at standard intervals.
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Correlation between ECG and Cardiac Cycle01:25

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The electrical signals recorded on an electrocardiogram (ECG) occur before the mechanical processes of contraction and relaxation during the cardiac cycle.
A cardiac action potential originates in the SA node and spreads throughout the atria and the AV node in approximately 0.03 seconds. This results in the P wave in an ECG and triggers atrial contraction. The action potential is then briefly slowed at the AV node, allowing the atria to contract and fill the ventricles with blood before...
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Pulse rhythm01:30

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Pulse rhythm refers to the pattern of pulsations within specific intervals, offering valuable insights into the regularity or irregularity of the heart's beats as observed through the pattern of pulsation within specific intervals. A regular pulse exhibits a consistent heart rate with uniform waveforms and pulsation force, variations of which can be classified as normal, weak, or bounding.
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Are Wearable Photoplethysmogram-Based Heart Rate Variability Measures Equivalent to Electrocardiogram? A Simulation

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Summary
This summary is machine-generated.

Photoplethysmography-derived heart rate variability (PRV) is not equivalent to electrocardiography-derived heart rate variability (HRV) when pulse arrival time variability is high. SDNN may be a more reliable PRV metric than RMSSD.

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Area of Science:

  • Cardiovascular Physiology
  • Biomedical Engineering
  • Signal Processing

Background:

  • Electrocardiography (ECG)-derived heart rate variability (HRV) and photoplethysmography (PPG)-derived "HRV" (PRV) are often used interchangeably.
  • Variability in pulse arrival time (PAT) may cause dissociation between HRV and PRV.

Purpose of the Study:

  • To determine if PRV is equivalent to ECG-derived HRV.
  • To assess if PRV's inherent error qualifies it as a distinct, high-quality measurement separate from HRV.

Main Methods:

  • Bayesian simulation using ECG data from 1084 subjects.
  • Incorporated individual PAT dispersions (wrist and finger) to model PPG wave arrival times.
  • Calculated root mean square of successive differences (RMSSD) and standard deviation of N-N intervals (SDNN) for both HRV and PRV, comparing them within predefined equivalence bounds (ROPE).

Main Results:

  • At the lowest PAT variability (2.0 SD), SDNN equivalence was 88.4% and RMSSD was 21.4%.
  • Increasing PAT variability significantly decreased the equivalence between PRV and HRV for both SDNN and RMSSD.
  • Pulse arrival time variability increased the uncertainty (HDI width) in PRV measurements, particularly for RMSSD.

Conclusions:

  • PRV is not a reliable surrogate for HRV in individuals with significant PAT variability.
  • When PRV is considered a unique biometric, SDNN demonstrates potentially more favorable measurement properties than RMSSD, despite both metrics exhibiting non-uniform errors.