AbstractFluorescent optical mapping of electrically active cardiac tissues provides a unique method to examine the excitation wave dynamics of underlying action potentials. Such mapping can be viewed as a bridge between cellular level and organ systems physiology, e.g., by facilitating the development of advanced theoretical concepts of arrhythmia. We present the design and use of a high-speed, high-resolution optical mapping system composed entirely of “off the shelf” components. The electrical design integrates a 256 element photodiode array with a 16 bit data acquisition system. Proper grounding and shielding at various stages of the design reduce electromagnetic interference. Our mechanical design provides flexibility in terms of mounti...
Optical mapping is an important tool for assessment of cardiac electrophysiology. We demonstrate a s...
Clinicians, biologists, physicists, engineers, and computer scientists are coming together to better...
Abstract Fluorescence optical imaging techniques have revolutionized the field of cardiac electrophy...
AbstractFluorescent optical mapping of electrically active cardiac tissues provides a unique method ...
The concept of mapping rhythmic activation of the heart dates back to the beginning of last century,...
Electroanatomic mapping the interrelation of intracardiac electrical activation with anatomic locati...
Clinicians, biologists, physicists, engineers, and computer scientists are coming together to better...
Electroanatomic mapping the interrelation of intracardiac electrical activation with anatomic locati...
<div><p>Electroanatomic mapping the interrelation of intracardiac electrical activation with anatomi...
BackgroundSimultaneous optical mapping of multiple electrophysiologically relevant parameters in liv...
The emergence of optical imaging has revolutionized the investigation of cardiac electrical activity...
Optical mapping (OM) has been used in heart electrophysiological studies for many years, however cli...
Cardiac tissue is an excitable system that can support complex spatiotemporal dynamics, including in...
Electroanatomic mapping the interrelation of intracardiac electrical activation with anatomic locati...
Clinicians, biologists, physicists, engineers, and computer scientists are coming together to better...
Optical mapping is an important tool for assessment of cardiac electrophysiology. We demonstrate a s...
Clinicians, biologists, physicists, engineers, and computer scientists are coming together to better...
Abstract Fluorescence optical imaging techniques have revolutionized the field of cardiac electrophy...
AbstractFluorescent optical mapping of electrically active cardiac tissues provides a unique method ...
The concept of mapping rhythmic activation of the heart dates back to the beginning of last century,...
Electroanatomic mapping the interrelation of intracardiac electrical activation with anatomic locati...
Clinicians, biologists, physicists, engineers, and computer scientists are coming together to better...
Electroanatomic mapping the interrelation of intracardiac electrical activation with anatomic locati...
<div><p>Electroanatomic mapping the interrelation of intracardiac electrical activation with anatomi...
BackgroundSimultaneous optical mapping of multiple electrophysiologically relevant parameters in liv...
The emergence of optical imaging has revolutionized the investigation of cardiac electrical activity...
Optical mapping (OM) has been used in heart electrophysiological studies for many years, however cli...
Cardiac tissue is an excitable system that can support complex spatiotemporal dynamics, including in...
Electroanatomic mapping the interrelation of intracardiac electrical activation with anatomic locati...
Clinicians, biologists, physicists, engineers, and computer scientists are coming together to better...
Optical mapping is an important tool for assessment of cardiac electrophysiology. We demonstrate a s...
Clinicians, biologists, physicists, engineers, and computer scientists are coming together to better...
Abstract Fluorescence optical imaging techniques have revolutionized the field of cardiac electrophy...