Prior multicenter study demonstrated superiority of PURE EP to conventional mapping. This superiority was seen when comparing small, fractionated signals of interest, near-field vs far-field distinction, and general signal quality (2). Hence, investigators propose a retrospective study to assess the predictive value of high frequency algorithm (HFA) for identifying local physiologic signal under 0.3 mV distinctive of noise.
Accurate interpretation of intracardiac EGMs remains essential to the field of electrophysiology (EP). Conventional Electro-anatomical mapping systems (EAMs) have made significant improvements in EGM quality and noise reduction since their emergence, however their use of variable gain amplifiers and high/low pass filters, often provide visualization of low amplitude signals that lead to saturation artifact or necessitate signal clipping. PURE EPTM (BioSig Technologies, Inc., Westport, CT, USA), in contrast does provide the ability to record this unaltered signal with more customizable display options. Their proprietary amplifier and high-resolution analog-digital converters with Radiofrequency (RF) suppression eliminates the need for gain switching, optimizing resolution of the full range of input signals (1). Prior multicenter study demonstrated superiority of PURE EP to conventional mapping. This superiority was seen when comparing small, fractionated signals of interest, near-field vs far-field distinction, and general signal quality (2). Hence, investigators propose a retrospective study to assess the predictive value of high frequency algorithm (HFA) for identifying local physiologic signal under 0.3 mV distinctive of noise.
Study Type
OBSERVATIONAL
Enrollment
150
This is an observational study. No interventions involved in this study.
Kansas City Heart Rhythm Institute
Overland Park, Kansas, United States
Predictive value of High Frequency Algorithm - for signals under 0.3mV distinctive of noise
Validate the predictive value of High Frequency Algorithm (HFA) for identifying local physiologic signals under 0.3mV distinctive of noise.
Time frame: 1/1/2022 - 6/30/2022
Predictive value of High Frequency Algorithm - for signals under 0.1mV distinctive of noise
Validate the predictive value of High Frequency Algorithm (HFA) for identifying local physiologic signals under 0.1mV distinctive of noise
Time frame: 1/1/2022 - 6/30/2022
Sensitivity and specificity
Percen of sensitivity and specificity of predicting a small physiologic signal distinctive from noise
Time frame: 1/1/2022 - 6/30/2022
Bipolar amplitude
The measurement tool, specifically within PURE EP, called "Horizontal Caliper Mode" similar to that of recording and mapping systems, will measure the millivolt peak-to-peak amplitude of the bipolar signal, which is identified by its electrode numbers.
Time frame: 1/1/2022 - 6/30/2022
Channel of the Bipolar
It depends on which channel has the low amplitude signal and it may change based on the signal. It is measured by "Horizontal Caliper Mode '' in millivolts in the PURE EP program.
Time frame: 1/1/2022 - 6/30/2022
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