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Accessories Pathway/WPW
1. Accessories Pathway/ WPW
● Image of the heart with an accessory
pathway that bypasses electric activity
through the AV node (top). An ECG is
also shown with a delta wave between
the P wave and R wave that results
from electric activity through the
bypass tract.
● Some people with an accessory pathway have a normal ECG at baseline
because the accessory pathway is electrically active only when there is a
fast, racing heartbeat (tachycardia) described below. Therefore, some
people with accessory pathways can have completely normal ECGs. That
is referred to as a concealed accessory pathway.
2. Placemant of ECG electrodes is esencial for every Electrophysiology case. ECG
elestrodes should be placed on anatomicly desired positions, where big muscles
and bones with minimum underskin tissue should be avoided. In first case
muscle tremor can be recorded and in second case small amplitude on the
recording signal will also compromise recording quality and make appropriate
diagnosis difficult. Those are examples of bad ECG placing:
3. Pacement of the 12 lead ECG electrodes over the bones or unprepared very dry skin will
produce poor recording quality of surface ECG:
4. Placemant of 12 lead ECG electrodes directly over the big group of muscle like sholders
or quadriceps, will result in unclear base line:
5. Case #1
In our first case, we can observe sign of delta wave on surface ECG.
We can also observe prolongation of QRS complex 120 ms (normal 60-100ms) and
shrinkage of H-V interval to only 28 ms (normal 35-60 ms)
6. On all 12 ECG leads, delta waves are clearly visible during the regular sinus
rhythm, HR 60 beats per minute.
7. In this case, we compare two most common algorithms, and choose to go with
Arruda as better mach to presenting findings.
● This algorithm uses polarity of initial delta wave Positive +, negative - , or
isoelectric +/-
● Lead I delta +/- or – or V1 R/S >1 Yes or No
● Lead II delta – Yes or No
● Lead V1 delta +/- or – Yes or No
● Acessory pathway location is septal tricuspid annulus or posterior septal
(where the blue errow is pointing)
8. Pacing from HRA catheter, big delta wave it is cearly displayed
on surface of the ECG
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9. Replacing HRA catheter for ablation 4mm Blazer catheter, we start mapping by
looking at relations of A -V signal on distal electrodes of ablation catheter.
Placement of catheter is on posterior septal position, which is not target position.
Artial and ventricular signals are still far apart.
10. Moving ablation catheter more towards anterior septal side of right artrium, we
come to much better, tighter relation of atrial and ventricular signal on distal
electrode of abltion catheter. Success is visible on ECG tracing with only 3.3
seconds after first lesion application (red arrows).
11. Aftter application of only one 60 seconds lesion (RF energy of 50 Watt's, 52
Celsius), we haad success, with no sign of previus arrhythmia after waiting
period of 45 minutes.
12. On this slide, on both views, we can see (LAO & RAO) relation of His bundle represented
as green biger ball. Smaler white ball is reference where we observe first good relations in
almost fused atrial and ventricular signal on maping catheter. Bigger red ball is our lesion
sight, where relation of A-V signal become even better.
13. Burst pacing from distal coronary sinus catheter electrodes shows
no sign of accessory pathway patern.
14. Case # 2
In this case, there is no sign of delta way. Presented surface ECG is very
normal.
15. There is nothing that can suggest that this patient has accessory pathway.
On his 12 lead ECG we can observe clear sinus rhythm.
16. This is a moment when the placemant of His catheter initiate patient's
arrhythmia.
17. Decramental pacing from proximal electrodes on CS catheter iniciate
tachycardia. It is indicative that distal electrode of CS catheter show that atrial
and ventrcular recordings are almost fused.
18. Coronary sinus catheter was avanced deeper in CS and total A and V signals
fusion on distal electrode was obtained. Our next step was replacing 6F
octapolar catheter for 4 F decapolar catheter for better CS signals recording.
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20. So far everything sugesting that our accessory pathway is on the left side of the
heart. During tachycardia on 12 lead ECG, pattern of the left bundle branch
block is demonstrated. We also used D'Avila algorithm witch sugested the
position of accessory pathway on the left atrium on anterior/septal wall. After
passing atrial septum with ablation catheter, we start recording interesting signal
right away after pointed to the rigeon of interest.
21. After fast colecting just dozen points and partial geometry of the left atrium, we turn our
point of ineters towards location marked from electrode 4 on CS catheter, where we
observe fusion of A and V signal.
22. This position was chosen as earliest point by mapping system and as we can see that
recording system gave us the same information. Relation of the A and V signal on
maping distal electrode is great.
23. Only 4 seconds of RF applications was enought to isolate this accessories pathway.The
orange arrow shows that A and V sinals are still fused and the red arrow demonstrates
clear separation between of those two signals wich occured in a split second. The same
can also be seen on CS cath. Signals on electrode 3-4 blue arrow pointed on the still
fused signals and next beat, grey arrow, pointing on separated A and V signals. RF
generator was set 35W 40C 30S.
Ablation catheter was with irrigated tip.
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24. On this LAO view it is visible that 6 of the RF applications were neccesary to complitley
eliminated this accessories pathway. After last leason, arrhythmia was not induceble
and it stay the same after 45 minutes of waiting period.