Differentiation between AVNRT and AVRT_advanced lecture
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Advanced AVNRT and AVRT
With differentiation
Advanced EP Training
(中華民國心律醫學會)
謝敏雄 醫師
台北醫學大學醫學系副教授
萬芳醫院心臟內科主任
April 24, 2011 於台北國際飯店
With differentiation
Advanced EP Training
(中華民國心律醫學會)
謝敏雄 醫師
台北醫學大學醫學系副教授
萬芳醫院心臟內科主任
April 24, 2011 於台北國際飯店
•Etiology:
(
臺北榮總十三年經驗
)
1. AVNRT (n=1452): 50%
Typical (slow-fast)
90%
Atypical (fast-slow)
7%
Variant (intermediate)
9%
2. AVRT (n=1221): 42%
orthodromic (fast AP 90% or
slow AP 10%)
3. AT (n=245): 8%
Supraventricular tachycardia (SVT)
(
臺北榮總十三年經驗
)
1. AVNRT (n=1452): 50%
Typical (slow-fast)
90%
Atypical (fast-slow)
7%
Variant (intermediate)
9%
2. AVRT (n=1221): 42%
orthodromic (fast AP 90% or
slow AP 10%)
3. AT (n=245): 8%
Supraventricular tachycardia (SVT)
12-lead ECG for
differential diagnosis
of SVTs (important!)
differential diagnosis
of SVTs (important!)
Retrograde P wave in SVT
(Tai CT et al. JACC 1997)
(Tai CT et al. JACC 1997)
Short RP SVT
1.Slow-Fast AVNRT:
No apparent retrograde P wave: 50%
Pseudo R’ in V1 or pseudo-S in inferior
leads: 50%
2.Orthodromic AVRT: 70 ms<RP<PR
The presence of delta wave in NSR.
3.AT with PR prolongation: the presence of
AV block favors AT.
1.Slow-Fast AVNRT:
No apparent retrograde P wave: 50%
Pseudo R’ in V1 or pseudo-S in inferior
leads: 50%
2.Orthodromic AVRT: 70 ms<RP<PR
The presence of delta wave in NSR.
3.AT with PR prolongation: the presence of
AV block favors AT.
S-F AVNRT
Pseudo-R’
Pseudo-S
Pseudo-R’
Pseudo-S
NSR after IV adenosine
No pseudo-R’ and pseudo-S
No pseudo-R’ and pseudo-S
S-F AVNRT
No apparent P wave
No apparent P wave
S-F AVNRT
P wave masked by QRS
P wave masked by QRS
S-F AVNRT
Pseudo-R’ and pseudo-S
Pseudo-R’ and pseudo-S
S-F AVNRT
Pseudo-R’ and pseudo-S
Pseudo-R’ and pseudo-S
Orthodromic AVRT
RP>70 ms, favor LL AP
RP>70 ms, favor LL AP
MWPW (LL or LAL AP)
Long RP SVT
1.Fast-Slow AVNRT:
Positive p wave in V1 and negative p
wave in inferior leads.
2.Orthodromic AVRT using decremental
(slow) APs.
3. AT with normal PR interval.
1.Fast-Slow AVNRT:
Positive p wave in V1 and negative p
wave in inferior leads.
2.Orthodromic AVRT using decremental
(slow) APs.
3. AT with normal PR interval.
EP study for
differential diagnosis
of SVTs
differential diagnosis
of SVTs
Favors AVNRT
1.The presence of dual AVN physiology:
upper or lower common pathway.
2. The critical prolongation (jump) of AH
interval during the initiation of SVT.
3. The concentric atrial activation:
especially a straight line from ECG-A-V
or A before V (SF AVNRT)
1.The presence of dual AVN physiology:
upper or lower common pathway.
2. The critical prolongation (jump) of AH
interval during the initiation of SVT.
3. The concentric atrial activation:
especially a straight line from ECG-A-V
or A before V (SF AVNRT)
AVNRT
•Antegrade SAVN: AH jump > 50 ms
•Continuous curve AVNRT
•Retrograde SAVN:
1.Long VA interval
2.CSO-A earliest.
•Retrograde intermediate AVN:
1.Intermediate VA interval
2.His-A and CSO-A both earlier
•AVNRT with retrograde eccentric
activation
•Antegrade SAVN: AH jump > 50 ms
•Continuous curve AVNRT
•Retrograde SAVN:
1.Long VA interval
2.CSO-A earliest.
•Retrograde intermediate AVN:
1.Intermediate VA interval
2.His-A and CSO-A both earlier
•AVNRT with retrograde eccentric
activation
Continuous curve AVNRT
(Tai CT et al. Circulation 1997)
(Tai CT et al. Circulation 1997)
Initiation of S-F AVNRT
Progressive AH prolongation with jump
Progressive AH prolongation with jump
Lower common pathway
VVVV
AAAA
Progressive prolongation of VA interval
VVVV
AAAA
Progressive prolongation of VA interval
AVNRT with eccentric A activation
(Ong M. et al. IJC 2007)
(Ong M. et al. IJC 2007)
Favors AVRT
1.No decremental conduction during
pacing (except slow AP).
2. The eccentric atrial activation with short
VA interval (>70 ms)
3.VA interval increases >30 ms with
functional BBB.
1.No decremental conduction during
pacing (except slow AP).
2. The eccentric atrial activation with short
VA interval (>70 ms)
3.VA interval increases >30 ms with
functional BBB.
LT AP with LBBB
(Josephson ME. P237)
(Josephson ME. P237)
Single VPC reset SVT
His refractory VPC
•35-55 ms before the His deflection.
•Advance the following A: AVRT
•VPC without conducting to atrium but
terminate the SVT: rule out AT.
•VPC from the sites other than RVA:
LV: for left side APs
RVOT: for septal APs
•35-55 ms before the His deflection.
•Advance the following A: AVRT
•VPC without conducting to atrium but
terminate the SVT: rule out AT.
•VPC from the sites other than RVA:
LV: for left side APs
RVOT: for septal APs
Ventricular Overdrive
Pacing (VOP) (10-40 ms
shorter than tachycardia)
during SVT
Pacing (VOP) (10-40 ms
shorter than tachycardia)
during SVT
VOP entrains the SVT
•VOP could not entrain SVT: AT
•The same atrial activation sequence:
AVNRT or AVRT
The different atrial activation sequence: AT
•The presence of lower common pathway:
AVNRTis more likely.
•The presence of V-A-A-V response: AT
•The presence of V-A-V response: favors
AVNRT or AVRT.
•VOP could not entrain SVT: AT
•The same atrial activation sequence:
AVNRT or AVRT
The different atrial activation sequence: AT
•The presence of lower common pathway:
AVNRTis more likely.
•The presence of V-A-A-V response: AT
•The presence of V-A-V response: favors
AVNRT or AVRT.
VOP during SVT
(Veenhuyzen G. et al. PACE 2011)
1. The retrograde A sequence is different during tachycardia and VOP
2. The presence of V-A-A-V response during VOP
AT
V
AA
V
(Veenhuyzen G. et al. PACE 2011)
1. The retrograde A sequence is different during tachycardia and VOP
2. The presence of V-A-A-V response during VOP
AT
V
AA
V
Hirao, K. et al. Circulation 1996;94:1027-1035Para-Hisian pacing
Ablation Strategy of AVNRT
•Make a correct diagnosis!!! •Ablation of slow or intermediate AVN
1.Anatomic approach: PÆMÆA
2.Electrogram approach: small A, large V
3.JT during RF
•How to avoid AV block?
1.ablation during A pacing
2.avoid ablation during SVT or V pacing.
3.You have only one second to stop RF!!!
•Make a correct diagnosis!!! •Ablation of slow or intermediate AVN
1.Anatomic approach: PÆMÆA
2.Electrogram approach: small A, large V
3.JT during RF
•How to avoid AV block?
1.ablation during A pacing
2.avoid ablation during SVT or V pacing.
3.You have only one second to stop RF!!!
JT under during RF
Transient second degree AVB
Flat and horizontal Koch’s Triangle
(Lee PC et al. Curr Opin Cardiol. 2009)
RAOLAO
(Lee PC et al. Curr Opin Cardiol. 2009)
RAOLAO
Ablation Strategy of AVRT
•Make a correct diagnosis!!! •Localization of the APs: 12-lead ECG
algorithm and intracardiac recordings.
•Antegrade approach: for RT AP
•Retrograde approach: for LT AP
1.V site (subvalvular): small A, large V, stable
ablation catheter
2.A site (ante-or retro-grade): larger A, unstable
ablation catheter
•Make a correct diagnosis!!! •Localization of the APs: 12-lead ECG
algorithm and intracardiac recordings.
•Antegrade approach: for RT AP
•Retrograde approach: for LT AP
1.V site (subvalvular): small A, large V, stable
ablation catheter
2.A site (ante-or retro-grade): larger A, unstable
ablation catheter
Delta Wave in NSR
(Chiang CE et al. AJC 1996)
(Chiang CE et al. AJC 1996)
What’s on the other side
背面是啥米碗糕
背面是啥米碗糕
這是真的呀
Cases Discussion
Case 1
VT, PSVT with RBBB or preexcitated tachycardia?
VT, PSVT with RBBB or preexcitated tachycardia?
RA burst + Isuprelinduce SVT
AVNRT with Wenkebach AV block then 1:1 conduction
What’s the mechanism of SVT?
AVNRT with Wenkebach AV block then 1:1 conduction
What’s the mechanism of SVT?
S-F AVNRT
PSVT with LBBB
RVS1S2 induced PSVT
500270
500270
Retrograde-intermediate AVN or AP?
AH=188 msHA=158 ms
AH=188 msHA=158 ms
VPC terminate SVT: AVN or AP?
347 ms347 ms293 ms
347 ms347 ms293 ms
V pacing during SVT: AVN or AP?
350 ms
372 ms
Lower common pathway
350 ms
372 ms
Lower common pathway
Mapping retrograde pathway and terminate
SVT (after ablation of antegradeSAVN)
SVT (after ablation of antegradeSAVN)
RAO LAO
•Ablation of
Antegrade
SAVN
•Ablation of
retrograde
intermediate
AVN
•Ablation of
Antegrade
SAVN
•Ablation of
retrograde
intermediate
AVN
Case 2
A 28 Y/O male fireman had recurrent attacks of tachycardia during exercise
RVOT-VT, PSVT with LBBB or Preexcited tachycardia?
A 28 Y/O male fireman had recurrent attacks of tachycardia during exercise
RVOT-VT, PSVT with LBBB or Preexcited tachycardia?
NSR
(Intermittent Preexcitation)
AP location?
(Intermittent Preexcitation)
AP location?
RVS1S1 350 ms
350
350
RVS1S1 340 ms
Sudden VA block
Favors AP
340
Sudden VA block
Favors AP
340
RVS1S2 500/310 ms
F-S echo
F-S echo
RAS1S2 Induced Tachycardia
Wide QRS complex tachycardia: VT?, or Preexcitated tachycardia? PSVT with LBBB
Wide QRS complex tachycardia: VT?, or Preexcitated tachycardia? PSVT with LBBB
Wide QRS Tachycardia
TCL= 256 ms
TCL= 256 ms
Question?
•What’s the mechanism of Wide QRS
complex tachycardia?
VT? Preexcitated tachycardia? PSVT with
LBBB?
•What’s the next step to D.D?
PSVT with LBBB
•What’s the mechanism of Wide QRS
complex tachycardia?
VT? Preexcitated tachycardia? PSVT with
LBBB?
•What’s the next step to D.D?
PSVT with LBBB
VPC terminate tachycardia
Can rule out AT
Without conduction to A
VPC
Can rule out AT
Without conduction to A
VPC
VOP terminate tachycardia
Sudden VA block
AVNRT is not likely
No lower common pathway
The same A sequence
Sudden VA block
AVNRT is not likely
No lower common pathway
The same A sequence
Initiation of NQRS tachycardia
NQRS Tachycardia TCL= 244 ms shorter than SVT with LBBB (256 ms)
Favor left side AP?
Favor left side AP?
VPC reset SVT
His refractory VPC
248233
His refractory VPC
248233
Ablation site: RPS
Success within 5 seconds
VA block
RF on
VA block
RF on
Immediate recurrence within 5”
RF off
RF off
Ablation site 1: RPS
Success within 3 seconds
VA block
VA block
Immediate recurrence within 3”
Ablation site 2: RPS
Ablation site: LMS
Success within 5 seconds
VA block
VA block
Ablation site 3: LMS
Transient CAVB
PS APs
(Chiang CE et al. Circulation 1996)
(Chiang CE et al. Circulation 1996)
MS APs
(Chang SL et al. JCE 2005)
(Chang SL et al. JCE 2005)
Test
Small & narrow P waveÎRA & LA depolarization simultaneously
Diagnosis: SF AVNRT with 2:1 AV block
A P wave in the midpoint between the two QRS beats
Small & narrow P waveÎRA & LA depolarization simultaneously
Diagnosis: SF AVNRT with 2:1 AV block
A P wave in the midpoint between the two QRS beats
Test
AT with 2:1 AV block?
What’s the next step?
AT with 2:1 AV block?
What’s the next step?
Test: VOP 2:1 to 1:1 conduction
謝謝聆聽
敬請指教
敬請指教
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