syncope due to idiopathic paroxysmal atrioventricular block

doi:10.1016/j.jacc.2010.12.045 published online May 11, 2011; J. Am. Coll. Cardiol.

Blommaert, Lara Dabiri, Jean Ruf, and Regis Guieu Michele Brignole, Jean-Claude Deharo, Luc De Roy, Carlo Menozzi, Dominique

Follow-Up of a Distinct Form of Atrioventricular BlockSyncope Due to Idiopathic Paroxysmal Atrioventricular Block: Long-Term

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Journal of the American College of Cardiology Vol. 58, No. 2, 2011© 2011 by the American College of Cardiology Foundation ISSN 0735-1097/$36.00

Syncope Due to IdiopathicParoxysmal Atrioventricular BlockLong-Term Follow-Up of a Distinct Form of Atrioventricular Block

Michele Brignole, MD,* Jean-Claude Deharo, MD,† Luc De Roy, MD,‡ Carlo Menozzi, MD,§Dominique Blommaert, MD,‡ Lara Dabiri, MD,‡ Jean Ruf, MD,� Regis Guieu, MD�¶

Lavagna and Reggio Emilia, Italy; Marseille, France; and Yvoir, Belgium

Objectives We present data on patients with syncope due to paroxysmal atrioventricular (AV) block unexplainable in termsof currently known mechanisms.

Background Paroxysmal AV block is known to be due to intrinsic AV conduction disease or to heightened vagal tone.

Methods We evaluated 18 patients presenting with unexplained syncope who had: 1) normal baseline standard electro-cardiogram (ECG); 2) absence of structural heart disease; and 3) documentation, by means of prolonged ECGmonitoring at the time of syncopal relapse, of paroxysmal third-degree AV block with abrupt onset and absenceof other rhythm disturbances before or during the block.

Results The study group consisted of 9 men and 9 women, mean age 55 � 19 years, who had recurrent unexplainedsyncope for 8 � 7 years and were subsequently followed up for as long as 14 years (4 � 4 years on average).The patients had no structural heart disease, standard ECG was normal, and electrophysiological study was neg-ative. In all patients, prolonged ECG monitoring documented paroxysmal complete AV block with 1 or multipleconsecutive pauses (mean longest pause: 9 � 7 s at the time of syncope; AV block occurred without P-P cyclelengthening or PR interval prolongation. During the observation time, no patient had permanent AV block; onpermanent cardiac pacing, no patient had further syncopal recurrences.

Conclusions Common clinical and electrophysiological features define a distinct form of syncope due to idiopathic paroxys-mal AV block characterized by a long history of recurrent syncope, absence of progression to persistent formsof AV block, and efficacy of cardiac pacing therapy. (J Am Coll Cardiol 2011;58:000–0) © 2011 by theAmerican College of Cardiology Foundation

Published by Elsevier Inc. doi:10.1016/j.jacc.2010.12.045

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Paroxysmal third-degree atrioventricular (AV) block is aknown cause of syncope. Paroxysmal AV block that occursin patients with underlying heart disease and/or abnormalstandard electrocardiogram (ECG) is usually regarded as amanifestation of an intrinsic disease of the AV conductionsystem (Stokes-Adams attack). This is usually confirmed byabnormal electrophysiological findings (1,2). Well-definedlinical and electrophysiological features allow differentiat-ng intrinsic AV block from the other known form of block,amely, vagal (extrinsic) paroxysmal AV block. Differenti-tion between the often benign and reversible causes of

From the *Department of Cardiology, Arrhythmologic Centre, Ospedali del Tigullio,Lavagna, Italy; †Department of Cardiology, Timone University Hospital, Marseille,France; ‡Department of Cardiology, UCL Mont-Godinne, Yvoir, Belgium; §De-partment of Cardiology, Arcispedale S Maria Nuova, Reggio Emilia, Italy; �Labora-tory of Biochemistry and Molecular Biology, Timone University Hospital, Marseille,France; and ¶Université de la Méditerranée, Ministère de la Défense, Marseille,France. The authors have reported that they have no relationships to disclose.

Manuscript received September 17, 2010; revised manuscript received December 6,
E2010, accepted December 21, 2010.
content.onlinejDownloaded from

agal AV block from intrinsic AV block is of practicalmportance because the benefit of permanent cardiac pacingor vagal AV block is controversial (3,4).

In this study, we present data on patients with syncopeue to paroxysmal AV block unexplainable in terms ofurrently known mechanisms.

ethods

n this 4-center study, we evaluated 18 patients presentingith unexplained syncope who had: 1) normal baseline

tandard ECG; 2) absence of structural heart disease; and) documentation, by means of prolonged ECG monitoringt the time of syncopal relapse, of paroxysmal third-degreeV block with abrupt onset (and delayed emergence of an

dequate escape rhythm) and absence of other rhythmisturbances before or during the block (type 1C accordingo the ISSUE [International Study of Syncope of Uncertain
tiology] study classification [5]).
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2 Brignole et al. JACC Vol. 58, No. 2, 2011Idiopathic Paroxysmal AV Block Month 2011:000–0

These patients underwent afull cardiological work-up thatexcluded structural heart disease.In particular, a conventional in-vasive electrophysiological evalu-ation, which included rapid atrialpacing and ajmaline drug chal-lenge, was performed in 15 pa-tients; 3 patients denied theirconsent for the examination.Further additional nonconven-

tional electrophysiological tests included measurement ofbaseline adenosine plasma level (APL) as described previ-ously (J.C. Deharo et al., personal communication, 2011)(6–8) and adenosine or adenosine triphosphate (ATP) test(9–11). An increased susceptibility to the ATP test has beenuspected in patients with syncope due to paroxysmal AVlock (9). Syncope work-up was completed by means ofilt-table testing and carotid sinus massage.

The APL was also determined in 9 control patients (6en and 3 women, mean age 58 � 17 years) with syncope

ue to reflex long pauses (mean 19 � 16 s) due to sinusrrest documented by implantable loop recorder, and in 81ealthy subjects matched for age and sex.Data are reported as mean � SD or as median (inter-

uartile range [IQR]), as appropriate. Comparison betweencontinuous variables with a non-Gaussian distribution waserformed by applying the Mann-Whitney nonparametricest.

Patient Characteristics, Test Results, and OutcomeTable 1 Patient Characteristics, Test Results, and Outcome

Patient#

Age (yrs),Sex

Syncope

Total No.Duration

(yrs)

1 73, M 20 8.0

2 85, F 4 1.0

3 69, M 2 0.5

4 63, F 3 7.0

5 50, F 20 20.0

6 63, F 6 13.0

7 66, F 25 8.0

8 57, F Very frequent 5.0

9 68, M 6 18.0

10 62, M 4 2.0

11 70, F 100 20.0

12 20, M 4 4.0

13 41, M 10 8.0

14 57, M 21 4.0

15 13, M 1 0.0

16 49, F 2 0.5

17 52, M 1 0.5

18 26, F 10 16.0

Abbreviationsand Acronyms

APL � adenosine plasmalevel

ATP � adenosinetriphosphate

AV � atrioventricular

ECG � electrocardiogram

IQR � interquartile range


esults

he study group consisted of 9 men and 9 women (meange 55 � 19 years) who had had recurrent unexplainedyncope and pre-syncope for 8 � 7 years (median 6 years,

IQR: 3 to 12 years, range 0 to 20 years) (Table 1). Mostsyncopal episodes were unpredictable, in that prodromeswere absent or very short (a few seconds of dizziness orblurred vision). Only 3 patients had some episodes withfeatures that suggested autonomic activation: during a mealpreceded by prodromes (Patient #4), triggered by unex-plained cough or by emotion (Patient #11), and preceded bynausea and prodromes (Patient #16). The patients did nothave structural heart disease, and standard ECG was nor-mal. Prolonged ECG monitoring (implantable loop re-corder in 10 patients, Holter in 5 patients, and in-hospitaltelemetry in 3 patients) at the time of syncope or pre-syncope documented paroxysmal complete AV block with 1or multiple consecutive pauses (longest pause 9 � 7 s) dueto absence or depression of escape rhythm in all patients;AV block occurred without P-P cycle lengthening (n � 12)or with minimal P-P cycle lengthening (n � 6); PR intervalremained stable before and at the end of the pause (Figs. 1,2, and 3). One patient had advanced AV block, whichpersisted for 2 days, followed by first-degree AV block for afew days and then normal conduction. An electrophysiolog-ical study performed at the time of first-degree AV blockshowed impaired AV nodal conduction. Multiple episodesof AV block (2 to 20) were also documented in 11 patients

Spontaneous AVB

rodromes, AutonomicActivation, Triggers Diagnostic Tool Max Pause, s

o ILR 5.0

o (all while sitting) ILR 13.0

o ILR 3.5

es (meal, prodromes) ILR 5.0

o ILR 22.0

o ILR 10.0

o ILR 28.0

o In-hospital telemetry 4.5

o ILR 17.0

o (1 while driving) ILR 8.0

es (tussive, emotional) 7-day Holter 8.0


o Holter 3.4

o Holter 11.0

o Holter 3.5

es (nausea,rodromes)

Holter 4.8

o (while driving) ILR 4.5


P

N

N

N

Y

N

N

N

N

N

N

Y

N

N

N

N

Yp

N

N

Continued on next page



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3JACC Vol. 58, No. 2, 2011 Brignole et al.Month 2011:000–0 Idiopathic Paroxysmal AV Block

in whom monitoring was continued after the first docu-mented syncope; these were always similar to the firstdocumented episode.

After the diagnosis, the patients were followed up for atotal of 4 � 4 years (range 0.6 to 14 years). Seventeen

atients underwent permanent dual-chamber cardiac pac-ng, and no patient had recurrence of syncope. The totalime from the first syncopal symptom to the end ofollow-up was 12 � 8 years (range 1.6 to 34 years). During

this period, no patient had permanent AV block.Laboratory findings. Electrophysiological study did nothow any impairment of AV conduction in 14 patients; in 1 ofhese, mild sinus dysfunction was detected. The medianaseline APL of these patients was significantly lower than thatound in the age- and sex-matched population of 81 healthyubjects: 0.33 �M (IQR: 0.20 to 0.56 �M) versus 0.49 �MIQR: 0.38 to 0.68l �M, p � 0.017). The median APL valuef the patients was also 4-fold lower than that found in 9ontrol patients with syncope due to reflex sinus arrest (1.2 �MIQR: 1.0 to 1.7 �M]; p � 0.001) (Fig. 4). In 15 (83%)atients with paroxysmal AV block, the rapid intravenousnjection of 18 mg adenosine or 20 mg ATP caused completeV block similar to the spontaneous AV block and a meanaximum pause of 10 � 6 s (Table 1, Fig. 3B). Finally,

tilt-table testing induced a vasovagal syncope in 7 (41%) ofcases, but never reproduced AV block, and carotid sinusmassage was negative in all patients in whom it was performed.

Discussion

The common clinical and electrophysiological features ofthese patients define a distinct form of syncope character-

ContinuedTable 1 Continued

APL(�M)

ATP Test: AVB(Max Pause, s) EPS

Tilt TableTesting

0.91 Yes (7.5) Normal DOH

0.45 Sinus arrest Mild SND Mixed

0.20 Yes (8.0) Normal Mixed


0.89 Yes (11.0) Normal Negative

0.40 Yes (8.6) Not done Negative


0.29 Yes (8.0) * Not done

0.36 Yes (4.0) Not done Mixed

0.70 Yes (5.0) Not done Negative



0.11 Negative Normal Negative



0.74 Yes (18.0) Not done Sinus arrest

0.34 Negative Normal Negative

0.12 Yes (25.0) Normal Sinus arrest

*Patient #8 had advanced-degree atrioventricular block (AVB) that persisted for 2 days, then first
time of the block showed impaired AV nodal conduction.
APL � adenosine plasma level; ATP � adenosine triphosphate; DOH � delayed orthostatic hypotension;


ized by a long history of recurrent syncope due to idiopathicparoxysmal AV block with long pauses, absence of cardiacand ECG abnormalities, absence of progression to persis-tent forms of AV block, and efficacy of cardiac pacingtherapy. These patients have low baseline APL values andshow an increased susceptibility to exogenous adenosine.

Similar ECG features have been occasionally described inindividual patients in clinical studies (9,11,12) and in a fewcase reports (13–16); no follow-up is reported.

In our patients, the paroxysmal AV block had differentclinical and electrophysiological features from those of the 2other known types of paroxysmal AV block: intrinsic AVblock due to AV conduction disease and extrinsic vagal AVblock.

Intrinsic AV block due to AV conduction disease wasunlikely in our population. The absence of any evidence ofcardiac abnormalities, the young age of several of thesepatients, and the outcome showing no progression of theblock toward permanent forms for several years argueagainst an intrinsic cardiac etiology. Furthermore, the AVblock was never initiated by atrial, His, or ventricularpremature extrasystole, increased heart rate (tachy-dependent AV block), or decreased heart rate (brady-dependent AV block), all features that support a diagnosisof intrinsic AV block (1,2).

The clinical features of our patients were also differentfrom those of a typical population of patients affected byvasovagal syncope. Specifically, historical findings of auto-nomic activation, triggering, and predisposing factors thatcould suggest a diagnosis of reflex syncope were encounteredonly in 3 of our patients, whereas the etiology remained

Carotid SinusMassage

PMTherapy

Follow-UpDuration

(yrs) Symptoms

Not done Yes 4.4 No

Not done Yes 4.0 No

Negative Yes 8.0 No

Negative Yes 1.7 No

Negative Yes 14.0 No


Negative Yes 2.0 No

Not done No 1.7 No

Negative Yes 1.0 No

Negative Yes 5.0 No

Negative Yes 0.8 No

Negative Yes 2.0 No

Negative Yes 5.6 No

Negative Yes 2.3 No


Negative Yes 1.1 No

Not done Yes 1.3 No

Negative Yes 0.6 No

AVB for few days, then normal conduction. An electrophysiological study (EPS) performed at the
-degree
ILR � implantable loop recorder; Max � maximum; PM � pacemaker; SND � sinus node disease.




Figure 1 Case #14

(A, B) Holter recording of 2 episodes of spontaneous syncope that occurred a few minutes apart. The 2 episodes were very similar and were characterized by sudden-onset complete atrioventricular (AV) block without changes in P-P cycle length, which constantly remained 720 ms and long ventricular asystole of 7 s and 11 s (top andbottom, compressed traces, respectively). Figure illustration by Craig Skaggs.

Figure 2 Case #10

The 4 strips are continuous and show a spontaneous syncope recorded by implantable loop recorder. Initial minimal sinus slowing (P-P cycle increased by 80 ms) wasfollowed by 2:1 atrioventricular (AV) block and finally complete AV block with a very long asystolic pause. During AV block, the P-P cycle progressively shortened, indicat-ing a compensatory reflex sympathetic activation. Figure illustration by Craig Skaggs.



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unexplained in the others. Also, the electrophysiologicalfeatures of our patients were against a vagally mediated AVblock. Indeed, a classic vagal effect on the conduction systemincludes gradual slowing of the sinus rate (P-P interval) andAV conduction (prolonging PR), which are occasionallyfollowed by sinus arrest or complete AV block. The 2conditions frequently coexist, indicating a simultaneousvagal action on sinus node and AV node. Even when a moreprominent AV response occurs, vagally mediated AV blockis usually preceded by significant PR prolongation orWenckebach; the P-P interval is prolonged markedly alsoduring asystole, and there is significant PR prolongation onresumption of AV conduction (1,4,5,17). These featureswere absent in our patients, who were affected by abrupt-onset AV block without significant rhythm disturbancesbefore or during the attack (type 1C block).

Paroxysmal type 1C AV block is very rare during tilt-induced vasovagal syncope. Apart from 2 case reports(14,18), AV block with a constant P-P cycle has never beenobserved in large series of tilt-table tests (17,19). In thepresent study, tilt-table testing, which induced a vasovagalsyncope in 7 cases, never reproduced AV block. Carotid

Figure 3 Case #7

(A) The 2 strips are continuous and show a spontaneous syncope recorded by imblock, followed by complete AV block without changes in P-P cycle length. (B) Adeadenosine, complete AV block with constant P-P cycle and ventricular asystole of 7

sinus massage was invariably negative. In addition, low APLcontent.onlinejDownloaded from

values clearly differentiated our patients from patients withdocumented spontaneous reflex sinus arrest, who had amedian APL value 4 times higher than patients with AVblock (Fig. 4). High APL values seem to characterizeasovagal syncope as they were also found in 3 studies

ble loop recorder. The episode was characterized by 2:1 atrioventricular (AV)test. A few seconds after rapid intravenous (i.v.) injection of a bolus of 18 mgas induced. Figure illustration by Craig Skaggs.

Figure 4 Individual APL in Patients and Controls

The individual values of adenosine plasma level (APL) in patients and controlsare plotted. The median APL value of each group is also shown. AV �

atrioventricular.

plantanosine.6 s w



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involving patients with a diagnosis of vasovagal syncopeconfirmed by positive tilt-table testing (J.C. Deharo et al.,personal communication, 2011) (6,7). Thus, a different

lasmatic adenosine background seem to be present inatients with idiopathic AV block and in patients withasovagal syncope. Finally, permanent cardiac pacing wasompletely successful in preventing syncopal recurrencesuring long-term follow-up. This suggests that paroxysmalV block was the main determinant of syncope in ouratients. Conversely, cardiac pacing has been reported to be

ess efficacious in patients affected by reflex cardioinhibitoryyncope, even if a spontaneous asystolic reflex has beenocumented, with syncope recurring in 9% to 45% ofatients (3,4). The cause of persistence of syncopal recur-ence in reflex syncope is attributed to the coexistence of aasodepressor reflex, which, to some degree, is present inirtually all patients.athophysiological observations. We found that our pa-

ients had a low baseline APL value (compared with controlubjects and with patients with reflex asystolic syncope) andrate of positive ATP test much higher than that found in

he literature in normal control subjects (9) and in patientsith unexplained syncope (9–12,20), indicating an in-

reased susceptibility of the AV node to adenosine. Thesebservations may lead to hypothesize some relationshipetween the adenosine pathway and the genesis of the AVlock.The effect of adenosine on the AV node is mainly due to

he stimulation of high-affinity A1 receptors, which aremuch more numerous in the AV node than in the sinoatrialnode (21–23). Like many other cell surface receptors, thenumber of cardiac adenosine A1 receptors undergoes up-egulation and down-regulation when cardiac tissues arehronically exposed to low or elevated concentrations ofdenosine receptor agonist (i.e., adenosine), respectively. Aransient release of endogenous adenosine could be sufficiento block conduction in the AV node when a high number ofree high-affinity A1 receptors in the AV node are available

(low-APL patients). The cause of the transient release ofendogenous adenosine responsible for paroxysmal AV blockin our patients is unknown. Adenosine is a ubiquitoussubstance, which is released under several physiological andpathological conditions (e.g., in the case of myocardialhypoxia or during reflex beta-adrenergic stimulation)(24,25). Even if a role of the adenosine pathway in thegenesis of the AV block may be possible, these data areinsufficient to prove a causal relationship. Therefore, themechanism of the block in our patients remains largelyunexplained (idiopathic AV block). The above observationsmight be of interest for the planning of future studies.Study limitations. Three patients had historical featuresthat suggest the activation of vasovagal or situational re-flexes. Seven patients had a vasovagal response duringtilt-table testing. Apart these features, these patients wereindistinguishable from the others. The absence of sinus
slowing along with AV block does not definitely rule out A

some role of exogenous hypervagotonia in causing the blockin these patients. Probably are the very different APL valuesthat differentiate better the patients with idiopathic AVblock from patients with typical vasovagal syncope. In somepatients, the follow-up period after pacemaker implantionwas too short to allow evaluating the efficacy of pacingtherapy in preventing symptomatic recurrences.

Conclusions

In clinical practice, paroxysmal AV block without or withminimal changes in the P-P cycle, as was observed in ourstudy patients, is usually regarded as a manifestation of anintrinsic disease of the AV conduction system, and inaccordance with current guidelines (26), a diagnosis ofcardiac syncope (primary arrhythmia) is made. Conversely,on the basis of their clinical features and the absence of anydetectable cardiac abnormality, our patients would probablyhave been categorized as possibly affected by an atypicalform of neurally mediated syncope if they had not had therather fortuitous documentation of paroxysmal AV block atthe time of syncope (26). Therefore, 2 opposite diagnosescould be made in the same patients, depending on whetherparoxysmal AV block during a spontaneous attack is docu-mented on ECG. We were able to give an alternativeexplanation.

How frequent is syncope due to idiopathic AV block?Type 1C block was found to be present in 8% of syncopepatients with normal ECG and absence of structural heartdisease (corresponding to 15% of those who had ECGdocumentation of syncope) (11). We can only speculate thathese figures may represent the prevalence of this newyndrome among patients without structural heart diseaseho are affected by unexplained syncope. However, arospective study is needed to confirm this hypothesis.Given that ECG documentation of idiopathic AV block

s the gold standard for diagnosis, is there some other testhat could anticipate diagnosis? The adenosine test appearedo be sensitive enough to identify the patients with idio-athic AV block in this study, but it showed a very lowpecificity in other studies in which there was a lack oforrelation between the responses to the test and theechanism of spontaneous syncope documented by im-

lantable loop recorder (11,12). There is not a clear-cututoff of APL value between idiopathic AV block patientsnd normal control subjects. In patients with unexplainedyncope, normal ECG, and absence of structural heartisease, low-to-normal APL values suggest an idiopathicV block whereas high APL values suggest a typical reflex

yncope. That is probably likely for patients (30% of ouropulation) who have an APL value �0.24 �M, which ishe fifth lower percentile in normal healthy subjects. How-ver, the specificity of APL value in identifying idiopathic
V block is unknown and a matter of future studies.



Reprint requests and correspondence: Dr. Michele Brignole,Arrhythmologic Center, Department of Cardiology, Ospedali delTigullio, Via Don Bobbio 25, 16033 Lavagna, Italy. E-mail:[email protected].

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Key Words: adenosine y AV block y syncope y ECG monitoring y
lectrocardiography.

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doi:10.1016/j.jacc.2010.12.045 published online May 11, 2011; J. Am. Coll. Cardiol.

Blommaert, Lara Dabiri, Jean Ruf, and Regis Guieu Michele Brignole, Jean-Claude Deharo, Luc De Roy, Carlo Menozzi, Dominique

Follow-Up of a Distinct Form of Atrioventricular BlockSyncope Due to Idiopathic Paroxysmal Atrioventricular Block: Long-Term

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