Case study: UHF-ECG helped to guide the LBBAP position change from the distal fascicular to a more proximal position. With final LV activation matching the intrinsic significantly better.
At the University of Minnesota, a human heart beats outside the body, without a pacemaker, connected to machines that keep it oxygenated. It has its own internal electrical system. It’s not a simulation: it’s a real organ beating outside the chest.
RWPT can be falsely short when the distal septum is paced. A negative derivative (dV/dt) can help resolve the ambiguity in such cases. You can capture the UHF map to confirm.
Amalka, 3.9 GPA, 32 college credits, seminary grad, 1st in costume design—can’t walk at Dixie High grad due to enrollment timing. She just wants to walk with her class. No diploma, just dignity. Please let her walk. https://t.co/xC9dUV6DYb
#LetAmalkaWalk#DixieHigh2025#graduate
@CardiacJamwal@pavel_jurak Great to see the growing community around #uhfecg! Thank you for sharing your experience and contributing to the field. Looking forward to meet you in person next time!
Hard to overstate what this moment means. In just three years, we built our own hardware, got the technology into 35+ centers, and now it’s officially CE certified. UHF-ECG is no longer just a research tool it’s a clinically approved system for assessing electrical dyssynchrony.
UHF-ECG just got CE certified to diagnose electrical ventricular dyssynchrony!
A major leap forward—especially for guiding Conduction System Pacing (CSP) and Cardiac Resynchronization Therapy (CRT).
Smarter pacing starts here.
#UHFECG#CECertified#CSP#CRT#Cardiology