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Ziad F. Issa

@ZiadIssaMD

Sep 24, 2021 • 7 tweets • 4 min read • Read on X

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What is Concealed Conduction?

1/7
Concealed conduction can be defined as "the propagation of an impulse within the conduction system that can be recognized only from its effect on the subsequent impulse, interval, or cycle."

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#ECG

2/7
Impulse propagation in the conduction system generates too small electrical current to be recorded on ECG. If this impulse travels only a limited distance (incomplete penetration) in the conduction system, it can interfere with formation or propagation of another impulse.

3/7
Irregular Ventricular Response During AF:
AVN is expected to conduct at regular intervals when its RP expires after each conducted AF impulse. Irregular response is caused by incomplete penetration of some AF impulses into AVN, variably resetting its refractoriness.

4/7
Unexpected Prolongation of Conduction:
When a PAC or PVC incompletely penetrates the AV conduction system, it can render it partially refractory at the time of the next sinus beat, which may then conduct with longer PRI.

5/7
Unexpected Failure of Conduction:
When a PAC or PVC incompletely penetrates the AV conduction system, it can render it fully refractory at the time of the next impulse, which may then be blocked.

6/7
Perpetuation of Aberrant Conduction During SVTs:
Concealed trans-septal conduction of an impulse into one bundle branch can perpetuate bundle branch block during subsequently conducted impulse.

7/7
Unexpected Facilitation of Conduction:
When PAC or PVC incompletely penetrates the conduction system, it can normalize conduction of a previously present AVB or BBB by preexciting the conduction system and ending its RP earlier than expected or by CL-dependent RP shortening

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Ziad F. Issa

@ZiadIssaMD

Dec 10, 2021

#IssaTweetorials

What is the mechanism of aberrant conduction?

1/9

“Aberration” describes transient bundle branch block (BBB) and does not include persistent QRS abnormalities caused by persistent BBB, preexcitation, or the effect of drugs.

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2/9

Acceleration-dependent BBB (aka “phase 3 block” or “voltage-dependent block”) occurs when an impulse arrives at tissues that are still refractory due to incomplete repolarization (during phase 3 of the action potential [AP]).

3/9

Aberration secondary to phase 3 block tends to be in the form of RBBB when premature excitation (and Ashman phenomenon) occurs during normal baseline heart rates and in the form of LBBB when it occurs during fast heart rates.

Read 9 tweets

Ziad F. Issa

@ZiadIssaMD

Nov 17, 2021

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Impedance and RF ablation:
Part 2: How does RF ablation affect impedance?

1/9
As tissue temperature rises during RF energy application, ions within the tissue being heated become more mobile, resulting in a decrease in impedance to current flow.

2/9
There are currently 2 methods to measure impedance: Generator Impedance (GI) & Local Impedance (LI).

3/9
Lack of impedance drop during RF energy application can reflect inefficient energy delivery to the tissue due to poor tissue contact, lack of catheter stability, or inadequate power delivery.

Read 8 tweets

Ziad F. Issa

@ZiadIssaMD

Oct 29, 2021

#IssaTweetorials
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Impedance & RF ablation:
Part 1: How does impedance affect RF lesion formation?

1/8
During RF ablation, system impedance = impedance of genera¬tor + transmission lines + catheter + electrode-tissue interface + skin patch interface + interposed tissues.

2/8
IMPEDANCE & POWER
The magnitude of RF current delivered by the generator is determined by impedance btwn ABL electrode and ground pad. Ablation at lower impedance yields higher current output (and tissue heating) compared with ablation at a similar power & higher impedance.

3/8
IMPEDANCE OF ELECTRICAL CONDUCTORS
Currently used electrical conductors from the generator to the patient and from the ground pad back to the generator are designed to have low electrical resistance to help minimize power loss within those conductors.

Read 8 tweets

Ziad F. Issa

@ZiadIssaMD

Oct 8, 2021

#IssaTweetorials

The mimicry of second-degree AV block (2°AVB)

1/8
ECG patterns that mimic 2°AVB are often related to atrial ectopy, concealed junctional ectopy, or AVN echo beats. Distinguishing physiologic from pathologic AVB is important.

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2/8
In 2°AVB, sinus P-P interval is fairly constant (except for some variation caused by ventriculophasic arrhythmia), the nonconducted P wave occurs on time as expected, and P wave morphology is constant. With ectopy, P waves occur prematurely & often have different morphology.

3/8
Early PACs can arrive at the AVN during the refractory period and conduct with long PRI or block (physiologic rather than pathologic block) and can mimic Mobitz I or Mobitz II 2°AVB.

Read 8 tweets

Ziad F. Issa

@ZiadIssaMD

Oct 1, 2021

#IssaTweetorials
What Is the Gap Phenomenon?
1/4
“PROXIMAL DELAY ALLOWS DISTAL RECOVERY” is the fundamental concept of gap phenomenon. This requires a distal site with a long effective refractory period (ERP) and a proximal site with a shorter ERP.

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2/4
During gap phenomenon, initial block occurs distally (due to longer ERP). Earlier impulses encroach on the relative refractory period (RRP) of proximal site where conduction delay is encountered, which allows for expiration of the ERP of the distal site, enabling conduction.

3/4
Any pair of structures in the AV conduction system that has the appropriate EP physiological relationship can exhibit the gap phenomenon (e.g., atrium–AVN, proximal AVN–distal AVN, AVN–HPS, HB-distal HPS). Gap can occur in the anterograde or retrograde direction.

Read 4 tweets

Ziad F. Issa

@ZiadIssaMD

Sep 17, 2021

#IssaTweetorials

1/9
How reliable is ablation electrode temperature to monitor RF lesion formation?

RF lesion creation is thermally mediated; hence, monitoring tissue temp is the most reliable approach to achieve effective (temp >50°C) & safe (temp <100°C) ablation.

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2/9
Temp measurements relevant to RF lesion formation include:

1- Intramural temp.
2- Endocardial surface temp.
3- Abl electrode temp.

3/9
Intramural Tissue Temp:

Directly measuring intramyocardial temp is the optimal method to monitor RF abl, but such technologies are currently not available for clinical use. Investigational technologies: microwave radiometery, US thermal strain imaging, and MR thermometry.

Read 8 tweets

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