Cardiac Electrophysiology
ECG, heart rate variability, and cardiac rhythm monitoring
Cardiac electrophysiology measurement provides insight into the electrical activity of the heart, enabling analysis of heart rhythm, variability, and autonomic regulation.
These measurements are widely used in cardiovascular research, clinical research, and applied monitoring environments.
These measurements are widely used in cardiovascular research, clinical research, and applied monitoring environments.
What You Can Measure
Electrocardiography (ECG)Capture high-resolution electrical signals of the heart across different lead configurations
|
Heart Rate Variability (HRV)Assess autonomic regulation through time and frequency domain analysis
|
Cardiac Rhythm and ArrhythmiasAnalyze heart rhythm, conduction patterns, and irregular electrical activity
|
Electrical Signal Morphology & TimingEvaluate waveform features, timing intervals, and signal characteristics related to cardiac conduction
|
Why Cardiac Electrophysiology Measurement Matters
The electrical activity of the heart reflects both cardiac function and the underlying conduction system.
Changes in rhythm, variability, and waveform morphology provide insight into autonomic regulation, cardiac health, and physiological stress.
By capturing high-resolution ECG data, researchers can analyze how electrical signals propagate through the heart, how they change over time, and how they respond to interventions and real-world conditions.
Changes in rhythm, variability, and waveform morphology provide insight into autonomic regulation, cardiac health, and physiological stress.
By capturing high-resolution ECG data, researchers can analyze how electrical signals propagate through the heart, how they change over time, and how they respond to interventions and real-world conditions.
Core Systems
|
BittiumFaros ECG
Compact, wearable ECG system designed for high-quality cardiac monitoring in both controlled and free-living environments.
Bittium Faros enables long-duration recordings with high signal quality, making it well suited for heart rate variability analysis, rhythm monitoring, and real-world physiological studies. Lightweight, body-worn systems allow subjects to move freely while maintaining continuous ECG recording. This enables data collection outside the lab, supporting ambulatory monitoring and real-world physiological research. Designed for high-quality ECG acquisition in research and ambulatory monitoring settings, rather than multi-lead diagnostic electrophysiology systems. |
Why MedTach
Reliable ECG and HRV data depends on proper setup, signal quality, and consistent data handling.
We work with your team to ensure systems are configured correctly, electrodes and placement are optimized, and data collection is consistent across studies.
From onboarding to ongoing support, we help maintain reliable cardiac monitoring in both research and clinical research environments.
We work with your team to ensure systems are configured correctly, electrodes and placement are optimized, and data collection is consistent across studies.
From onboarding to ongoing support, we help maintain reliable cardiac monitoring in both research and clinical research environments.
Build a Complete Measurement System
Cardiac electrophysiology is often combined with complementary systems to provide a more complete understanding of cardiovascular and physiological function.
Applications
Cardiac electrophysiology measurement is widely used in cardiovascular and physiological research focused on heart rhythm, autonomic regulation, and variability.
It supports studies of stress, recovery, and cardiac function in both controlled environments and real-world settings.
In multi-system studies, ECG and HRV are often combined with hemodynamic and vascular measurements to provide a more complete understanding of whole-body physiology.
It supports studies of stress, recovery, and cardiac function in both controlled environments and real-world settings.
In multi-system studies, ECG and HRV are often combined with hemodynamic and vascular measurements to provide a more complete understanding of whole-body physiology.
Not Sure Where to Start?
We’ll help you select the right system and approach for your application!