P E D I A T R I C S / O R I G I N A L C O N T R I B U T I O N
Adenosine and Pediatric SupraventricularTachycardia in the Emergency Department:
Pediatric Emergency Medicine Study objective: To determine the frequency of successful Collaborative Research
cardioversion and the adverse effects of adenosine treatment in
Children’s Hospital, Houston, TX‡;Committee
pediatric emergency department patients with supraventricular
Joseph D Losek, MD* Erin Endom, MD‡ Hospital of Michigan, Detroit, MIII;Methods: This was a multicenter descriptive study with both Ann Dietrich, MD§ Gail Stewart, DOII
prospective (convenience sample) and retrospective (chart review)
William Zempsky, MD¶
patient entry. The setting was 7 urban pediatric EDs with a yearly
Kathy Smith, MD#
census range of 22,000 to 70,000 visits. Pediatric patients 18
years of age and younger who received intravenous adenosine for
March 2, 1998. Revision received August 24, 1998. Acceptedfor publication September 8, 1998.Results: Six investigators from 7 pediatric EDs entered 82 Address for reprints: Joseph D
patients with 98 presumed SVT episodes (52 prospective and 46
Losek, MD, Children’s Hospitals
retrospective) into the study. Twenty-five episodes occurred in
and Clinics—St Paul, 345 NorthSmith Avenue, St Paul, MN 55102;
children younger than 1 year of age. Eight patients had congenital
heart disease, 59 had a history of SVT, 43 were taking cardiacmedications (digoxin in 27), 13 had a history of asthma, and 25
Copyright 1999 by the AmericanCollege of Emergency Physicians.
presented in compensated cardiogenic shock. A total of 193intravenous doses of adenosine were administered; doses were
classified as low (<.1 mg/kg [n=18]), medium (.1 to <.2 mg/kg
47/1/94880
[n=116]), or high (≥.2 mg/kg [n=59]). The dose range was .03 to.5 mg/kg, and only 2 doses were higher than .3 mg/kg. A total of95 patient-events were determined to be SVT, all but 5 of whichwere atrioventricular (AV) node–dependent; 3 events were ven-tricular tachycardia. The overall cardioversion success rate ofadenosine was 72% (71/98), and that for AV node–dependentSVT was 79% (71/90). Cardioversion was successful for 4patient-events at a low dose, 44 at a medium dose, and 23 ata high dose of adenosine. Adverse effects occurred in 22 patients,and no patient had bronchospasm or hemodynamically signifi-cant arrhythmia. Conclusion: Intravenous administration of adenosine led to successful cardioversion in 72% of pediatric ED patient-events that were presumed to be SVT. A dose range of .1 to .3 mg/kg was found to be most effective. Adenosine was not associated with significant adverse effects. F E B R U A R Y 1 9 9 9
A N N A L S O F E M E R G E N C Y M E D I C I N E
A D E N O S I N E A N D P E D I A T R I C S V T
[Pediatric Emergency Medicine Collaborative Research Committee,
shock (hypotension for age), atrial fibrillation, atrial flutter
Losek JD, Endom E, Dietrich A, Stewart G, Zempsky W, Smith K:
or sick sinus syndrome, use of carbamazepine and dipyri-
Adenosine and pediatric supraventricular tachycardia in the
damole (both are adenosine uptake inhibitors and prolong
emergency department: Multicenter study and review. Ann
the effects of adenosine2), or use of methylxanthines (whichdecrease the effects of adenosine by blocking adenosine
receptors2). SVT was defined as a narrow QRS complextachycardia with a fixed RR interval, absence of normal Pwaves, and a rate exceeding the upper limit of sinus tachy-
cardia for age (< 1 year, 180; 1 to 2 years, 150; 3 to 12 years,
Supraventricular tachycardia (SVT) occurs in 1 of 250 to
1 of 1,000 children, making it the most common arrhyth-
Demographic information included age, sex, race, name
mia in the pediatric population. Adenosine is an endoge-
of treating hospital, date of treatment, presence of structural
nous nucleoside that transiently blocks atrioventricular (AV)
heart disease (except patent ductus arteriosus or sponta-
conduction in the heart.1-5 Almost 90% of SVT in chil-
neously closed ventricular septal defect), previous cardiac
dren is based on a re-entrant mechanism.6 For these
surgery (except closure of patent ductus arteriosus in a
reasons, adenosine should be effective for the termina-
premature infant), previous ECG-documented SVT, medi-
tion of most pediatric SVT episodes. Reports of the use of
cations taken within the past 24 hours, and history of
adenosine in children are limited to hospitalized patients,
wheezing requiring bronchodilators within the past year.
many of whom received adenosine during electrophysio-
Clinical interventions recorded before treatment included
logic testing.7-14 No studies have focused on the use of
vital signs, symptomatic complaints, and physical exami-
adenosine in the pediatric emergency department, where
many episodes of SVT are treated. Despite the lack of
Compensated cardiogenic shock was defined as normal
studies, adenosine has become first-line therapy for
systolic blood pressure for age (< 2 years, 70; 2 to 12 years,
SVT in the pediatric patient who presents to the ED.15
80; 13 to 18 years, 90 mm Hg) or higher, associated with 1 or
The purpose of this study was to determine the frequency
more of the following: respiratory distress, altered level of
of successful cardioversion and the adverse effects of
consciousness, anxiety, irritability, diaphoresis, pallor, or
adenosine treatment in pediatric ED patients with SVT.
hepatomegaly. Respiratory distress was defined as the
The associations of several clinical variables with success-
presence of 1 or more of the following: retractions, rales,
ful cardioversion and with adverse effects were evaluated.
or tachypnea (breaths per minute) for age (<1 year, >60; 1to 2 years, >50; 3 to 12 years, >40; 13 to 18 years, >30).
Documentation of interventions included a 12-lead ECG
before and after conversion to sinus rhythm for patients
Through the Collaborative Research Committee, Emergency
with unknown conduction mechanism of SVT, a 12-lead
Medicine Section, American Academy of Pediatrics, 6 of
ECG or lead II rhythm strip during conversion (reading of
23 pediatric emergency medicine physician committee
ECGs was not blinded), number of adenosine doses, adeno-
members offered to participate in this study. The study
sine dosage, and other modes of treatment (drugs versus
protocol was approved by the review board of each center
synchronized electrical cardioversion).
at which patients were entered prospectively. Consent beyond
Doses of adenosine were administered by rapid intra-
the standard consent for treatment in the ED was waived
venous bolus followed by 5 to 10 mL of flushing with
because adenosine is the drug of choice for SVT.
normal saline solution. The recommended first dose was
Children from birth to 18 years of age who received
.1 mg/kg, with a maximum dose of 6 mg. Subsequent
intravenous adenosine for treatment of presumed SVT in
doses were .2 mg/kg, with a maximum single dose of 12 mg.
a participating pediatric ED were eligible. Patients were
Adenosine treatment success was defined as SVT converted
enrolled prospectively by convenience sample and retro-
to sinus rhythm for a minimum of 5 minutes.
spectively by chart review based on the presence of Clinical
The following were considered systemic adverse effects
Modification Code 427 (cardiac dysrhythmias) of the
of adenosine if they occurred within 5 minutes of admin-
International Classification of Diseases, 9th revision. ED
istration: bronchospasm, dyspnea, cough, chest pain,
census logs were not reviewed. Patients were excluded
flushing, headache, nausea, or vomiting. Cardiac adverse
from the study if one or more of the following conditions
effects included the following if they were present for longer
were present: congestive heart failure with uncompensated
than 10 seconds after adenosine administration: asystole,
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bradycardia for age (<2 years, <100; 2 to 12 years, <70; 13
included 2 cases of atrial tachycardia, 1 automatic atrial
to 18 years, <60), AV block, atrial fibrillation, atrial flutter,
tachycardia, 1 ectopic atrial tachycardia, and 1 junctional
ventricular tachycardia, or ventricular fibrillation.
tachycardia. Twenty-two (24%) of the AV node-dependent
The medical records were reviewed to ascertain type
SVT events were caused by Wolff-Parkinson-White (WPW)
and mechanism of tachycardia, and therefore the exclu-
sions for arrhythmias were determined retrospectively.
One to 4 doses of adenosine were administered per
Tachycardias were classified as ventricular or supraven-
episode. Of the 193 doses of adenosine administered, 18
tricular. Supraventricular tachycardia was further divided
were classified as low dose (<.1 mg/kg), 116 as medium
into AV node–dependent and non–AV node-dependent
dose (.1 to < than .2 mg/kg), and 59 as high dose (≥.2
types, the latter including junctional tachycardia, ectopic
mg/kg). The range was .03 to .5 mg/kg, or .23 to 12 mg.
atrial tachycardia, atrial flutter, atrial fibrillation, sinus
Only 2 doses were greater than .3 mg/kg. The patient was
tachycardia, and sinus node reentry.
initially treated with a low dose in 16 episodes, with a
Summary statistics included absolute numbers and
medium dose in 78 episodes, and with a high dose in 4
percentages for successful conversion and adverse effects.
episodes. Additional doses were equal to or greater than
Univariate analyses (χ2 or Fisher’s exact test, 2-tailed), with
preceding doses for patients receiving more than 1 dose.
success as an outcome, were used to identify the individual
The number of doses administered per patient event aver-
variables with the greatest association. A probability value
aged 2.44, 1.90, and 1.5 for patients who initially received
lower than .05 was considered to be indicative of a sig-
low, medium, and high doses, respectively.
The overall success rate of adenosine per patient-event
in presumed SVT was 71 (72%) of 98. Of the 90 AVnode-dependent SVT events, 71 (79%) were treated suc-
cessfully. In patients with non–AV node-dependent SVT or
Six pediatric emergency medicine physicians from 7 urban
ventricular tachycardia, cardioversion with adenosine
pediatric EDs (annual census, 22,000 to 70,000 visits)
was not successful. Demographic, clinical, and therapeutic
participated. There were 82 patients and a total of 98 pre-
factors in relation to success of treatment are summarized
sumed SVT events. One patient had 5 events, 3 patients
in Table 2. There were no significant associations between
had 3 events each, and 6 patients had 2 events each. There
any of these factors and treatment success. The medium- and
were 52 prospective and 46 retrospective patient-events.
high-dose ranges of adenosine resulted in greater success
The range of patient entry dates for each investigator is
rates than did the low-dose treatment. Among the 10 patients
presented in Table 1. Prospective and retrospective cases
with multiple events, cardioversion with adenosine treatment
were combined, and total patient-events were used for
data analysis. No patient was excluded because of con-
Adverse effects occurred in 22 of the 98 cases; no patient
current use of dipyridamole, carbamazepine, or methyl-
with more than 1 event had recurrent adverse effects. The
most common noncardiac adverse effect (8 patients) was
Of the 98 patient-events, 54 (55%) occurred in boys.
Sixty-six occurred in white patients, 22 in black patients, 6in Hispanics, and 4 in patients of other ethnic backgrounds.
Twenty-five events (26%) occurred in children younger
Method of patient entry and dates.
than 1 year of age. In 8 cases (8%), congenital heart disease waspresent; 7 patients (7%) had undergone cardiac surgery; and43 (44%) were taking cardiac medications, including 27
Patients Entered Investigator (Prospective/Retrospective) Date Range
who were taking digoxin. In 59 cases (60%), there was ahistory of SVT; in 13 (13%), there was a history of asthma.
In 25 events (26%), the patient presented in compensated
cardiogenic shock. Vagal maneuvers were performed in 45
cases; in 6 of these, the rhythm temporarily converted to sinus
Ninety-five events were SVT, and 3 were ventricular
tachycardia. Of the SVT events, 90 were AV node-depen-
dent and 5 were non–AV node-dependent. The latter group
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vomiting (Table 3). Dyspnea occurred in 2 patients, neither
with the following treatments: procainimide (3), verapamil
of whom had a history of asthma. Both patients with arrhyth-
(3), β-blocker (2), digoxin (2), flecainide (2), further doses
mia had self-limited bradycardia (duration, 5 and 15 seconds)
of adenosine during hospitalization (1), electrical syn-
before successful conversion to sinus rhythm. The adverse
chronized cardioversion (1), esophageal overdrive pacing
effect probability values were not determined due to the low
(1), spontaneous cardioversion (1), and unknown (3). There
prevalence of adverse effects. Trends included a greater rate
were no deaths in this study population.
of adverse effects in children 1 year of age or older, in thosewho had undergone cardiac surgery, and those who were
not in cardiogenic shock (Table 2). The number of adverseevents was similar in the medium- and high-dose groups
The overall success rate for conversion of 98 presumed SVT
and did not depend on the number of doses received.
events in 82 pediatric patients treated in the ED was 72%.
The 19 AV node–dependent SVT events unsuccessfully
This compares with a rate of 77% (90/117) reported by
treated with adenosine were converted to sinus rhythm
Till et al10 in 50 hospitalized pediatric patients (1 to 17
Patient characteristics and results of treatment with adenosine.Successful Cardioversion Adverse Effects Category Patient-Events
*Fisher’s exact test, 2-tailed. †Total number of doses given.
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3 3 : 2 F E B R U A R Y 1 9 9 9 A D E N O S I N E A N D P E D I A T R I C S V T
years of age). Till et al reported an 86% (88/102) success rate
ing aminophylline and caffeine required .4 to .8 mg/kg
for AV node–dependent SVT, compared with 79% in our
per dose of adenosine for cardioversion of SVT after
study. Two ED studies of adult patients showed overall
multiple doses less than .4 mg/kg were unsuccessful.
success rates of 54% and 85% and AV node–dependent
In our study, 32 adverse effects occurred in 22 (22%)
SVT success rates of 85% and 96%.16,17 Five prehospital
of 98 patient-events. Eight patients had more than 1
care studies of adult patients reported adenosine success
adverse effect. Vomiting, the most common adverse
rates ranging from 45% to 68%, with AV node–dependent
effect, was reported in 8 patients. No sustained arrhythmia
or bronchospasm was observed in our study. Overholt et
Our study, like others, showed no decrease in adenosine
al11 reported adverse effects in 6 pediatric patients (25%),
effectiveness in the presence of WPW, congenital heart
including 5 with dyspnea, flushing, or irritability and 1 with
disease, or concurrent digoxin use.8,10 The 68% success
bradycardia. No other pediatric study has delineated
rate for children younger than 1 year of age was lower than
nonserious adverse effects. Studies of adult patients that
the rate of 74% for older children, but the difference was not
listed nonserious adverse effects and limited the maximum
significant. This is consistent with a report by Dorostkar et al,14
adenosine dose to 12 mg have reported adverse effects rates
who indicated a 60% success rate for infants. Possible expla-
of 9.3% to 26.6%. In these studies, the most common adverse
nations for this lower success rate are that smaller-gauge
effect was chest pain or discomfort; this complaint accounted
intravenous catheters used in infants may not permit rapid
for 36% of the nonserious adverse effects. These effects were
delivery of adenosine and that the AV nodes of infants may
transient (<1 min) and were associated with successful
be relatively more resistant to adenosine.
The effectiveness of adenosine in the treatment of pedi-
Factors in our study that had a greater rate of adverse
atric patients with compensated cardiogenic shock (nor-
effects of adenosine treatment were age 1 year or older,
mal systolic blood pressure for age) secondary to SVT has
absence of cardiogenic shock, and cardiac surgery. The
not been reported previously. We found the success rate of
greater rate of adverse effects in older children can
adenosine treatment for 25 patients in compensated car-
probably be attributed to the subjective nature of adeno-
diogenic shock to be similar to the rate for patients without
sine’s adverse effects (nausea, light-headedness, dizziness,
cardiogenic shock (80% versus 70%, respectively). No
impression of impending doom, weakness, headache, and
significant adverse effects occurred in patients with com-
chest pain or discomfort). Younger children would be less
pensated cardiogenic shock. Studies of adults with SVT
likely to report these adverse effects. The greater rate of
and associated hypotension (systolic pressure <90 mm Hg)
adverse effects in patients with noncardiogenic shock is
reveal that the presence of hypotension does not increase
possibly related to the fact that the signs of cardiogenic
the incidence of adverse effects or alter the effectiveness
shock are similar to those of adverse effects, so that adverse
of adenosine in achieving cardioversion and normal bloodpressure.16,18,22,23
In our study, the rate of success for medium- or high-dose
adenosine (≥.1 mg/kg) was 38%, compared with 22% for
Type and frequency of adverse effects.
low-dose adenosine (<.1 mg/kg). Also, initial low-dosetreatment resulted in a greater number of doses being
No. of Patients
given than when the starting dose was .1 mg/kg or higher. Of the 8 doses of .3 mg/kg or more (administered to 8 differ-
ent patients), only 1 (at .3 mg/kg) was successful. Five of
these 8 patients had AV node–dependent SVT, and 3 had
VT. The Emergency Cardiac Care Committees and the
American Heart Association recommend a dose of .1 to
.2 mg/kg.24 Our study supports a dose range of .1 to .3
mg/kg (maximum, 12 mg) as most effective for treat-
ment of SVT. If higher doses are unsuccessful, a non–AV
node–dependent arrhythmia should be considered.
Higher doses may be necessary for patients receiving
theophylline or aminophylline. Berul25 reported that
a 16-day-old female infant with WPW who was receiv-
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A D E N O S I N E A N D P E D I A T R I C S V T
effects are more apparent in the patients without noncar-
and inhaled albuterol. In contrast to adenosine-related
bronchospasm, Cook et al31 reported conversion to sinus
The greater rate of adverse effects among patients with
tachycardia with administration of .1 mg/kg adenosine in
previous cardiac surgery is consistent with reports showing
a 4-year-old with albuterol-induced SVT. None of the
that cardiac transplantation patients are hypersensitive to
patients in our study had bronchospasm, and this group
adenosine. Ellenbogen et al26 studied the effects of adeno-
included 13 asthmatic patients. From our experience,
sine in 28 orthotopic cardiac transplantation patients and
asthma is not a contraindication to adenosine, although
found that the denervated transplanted donor sinus and AV
emergency physicians should be prepared to treat immedi-
nodes demonstrated an increased duration of electrophys-
ate bronchospasm and to consider delayed bronchospasm
iologic effect. In a case series by Crosson et al27 of 38 chil-
when managing asthmatic patients who receive adeno-
dren with 50 episodes of SVT undergoing electrophysiologic
testing, 1 cardiac transplantation patient became asystolic
In our study, 3 patients (3%) had ventricular tachycardia
with adenosine and required 1 minute of resuscitation.
misinterpreted as SVT. Two patients received doses of .1,
Because of these findings, the recommended adenosine
.2, and .3 mg/kg, and 1 patient received doses of .2 and .3
dose given to transplantation patients to treat SVT is
mg/kg. One patient complained of chest pain, and none of
approximately 67% to 80% of the generally recommended
these patients had successful cardioversion with adenosine.
dose.26,27 Our findings indicate that this reduced dose
Crosson et al27 described 2 children (5%) with ventricu-
recommendation may also be applicable to children who
lar tachycardia misinterpreted as SVT. One had successful
have previously undergone cardiac surgery.
cardioversion with adenosine, and no adverse effects
Clinically significant cardiac adverse effects associated
occurred. In prehospital and ED studies of adult patients,
with adenosine are extremely uncommon in children but
10 (1.4%) of 691 patients had ventricular tachycardia
have been reported. ED personnel must be prepared to treat
misinterpreted as SVT and were treated with adenosine.
life-threatening arrhythmias when administering adeno-
Conversion was successful in 1 patient, and no adverse
sine. In our report, 2 patients had episodes of bradycardia
effects were reported.16-22 Therefore adenosine treat-
lasting less than 1 minute. Till et al10 reported that 1 patient
ment of ventricular tachycardia misinterpreted as SVT
experienced a 40-second bradycardic adverse effect. In a
does not appear to be associated with serious adverse
case series of 25 pediatric patients (age range, 6 hours to
17 years), a 10-year-old child with Down’s syndrome, AV
Our study has 2 limitations. First, the original design
canal, and pulmonary hypertension had sinus bradycar-
was prospective, but retrospective patients were added to
dia for 2 to 3 minutes and required temporary pacing.11
increase the study population and to include patients not
Ventricular fibrillation is another, very uncommon adverse
entered prospectively. The 2 centers that entered patients
reaction to adenosine. Mulla and Karpawich28 reported
only prospectively (21 patient-events) may have missed
that an 8-day-old child with WPW treated with digoxin
eligible patients. Therefore the results of this study might
received .2 mg/kg of adenosine for an SVT episode after
not be generalizable to the target population (pediatric
no response was obtained with smaller doses. The patient
patients with presumed SVT presenting to the ED). Second,
had asystole for 1 second, followed by ventricular fibrilla-
clinical factors not recorded in the medical records of
tion and hypotension that was converted to sinus rhythm
patients entered into the study retrospectively were con-
sidered to be negative. For this reason, the true number of
The most serious noncardiac adverse effect of adenosine
nonserious adverse effects among such patients may have
is bronchospasm. Adenosine causes bronchospasm by
been greater than reported, although the rate of adverse
enhancing the release of preformed mediators from mast
effects was similar for patients entered retrospectively (20%)
cells via the adenylate cyclase receptor.29 Mast-cell stimu-
and those entered prospectively (25%).
lation can cause immediate or delayed bronchospasm.
In summary, adenosine is effective treatment for children
Adenosine has not been associated with bronchospasm in
who present to an ED with presumed SVT. Adenosine doses
patients who do not have asthma. DeGroff and Silka30
of .1 to .3 mg/kg (maximum dose, 12 mg) were more suc-
described a 13-year-old child with asthma who had had no
cessful than doses of less than .1 mg/kg. Life-threatening
asthma episodes in 3 years but experienced severe bron-
adverse effects of adenosine treatment were not found in
chospasm 90 seconds after a 12-mg dose of intravenous
this study. However, emergency physicians must be pre-
adenosine during electrophysiologic testing. The bron-
pared to treat hemodynamically compromising arrhyth-
chospasm was reversed with subcutaneous epinephrine
mias for all patients and immediate or delayed bron-
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26. Ellenbogen KA, Thames MC, DiMarco JP, et al: Electrophysiological effects of adenosine in
chospasm for asthma patients when administering
the transplanted human heart: Evidence of supersensitivity. Circulation 1990;81:821-828.
27. Crosson JE, Etheridge SP, Milstein S, et al: Therapeutic and diagnostic utility of adenosineduring tachycardia evaluation in children. Am J Cardiol 1994;74:155-160.
We thank Alice Sather for her help in the preparation of this manuscript.
28. Mulla N, Karpawich PP: Ventricular fibrillation following adenosine therapy for supraventric-ular tachycardia in a neonate with concealed Wolff-Parkinson-White syndrome treated withdigoxin. Pediatr Emerg Care 1995;11:238-239.
29. Burkhart KK: Respiratory failure following adenosine administration. Am J Emerg Med
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2. Adenosine. The Medical Letter 1990;32:63.
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3. Dimarco JP, Miles W, Akhtar M, et al: Adenosine for paroxysmal supraventricular tachycar-
31. Cook P, Scarfone RJ, Cook RT: Adenosine in the termination of albuterol induced supraven-
dia: Dose ranging and comparison with verapamil. Ann Intern Med 1990;113:104-110.
tricular tachycardia. Ann Emerg Med 1994;24:316-318.
4. Garratt CJ, Linker N, Griffith M, et al: Comparison of adenosine and verapamil for termina-
32. Herbert ME, Votey SR: Adenosine in wide-complex tachycardia. Ann Emerg Med
tion of paroxysmal junctional tachycardia. Am J Cardiol 1989;64:1310-1316.
5. Dimarco JP, Sellers TD, Berne RM, et al: Adenosine: Electrophysiologic effects and thera-
peutic use for terminating paroxysmal supraventricular tachycardia. Circulation 1983;68:1254-1263.
6. Campbell RM, Dick M, Rosenthal A: Cardiac arrhythmias in children. Annu Rev Med
7. Ros SP, Fisher EA, Bell TJ: Adenosine in the emergency management of supraventricular
tachycardia. Pediatr Emerg Care 1991;7:222-223.
8. Greco R, Musto B, Arienzo V, et al: Treatment of paroxysmal supraventricular tachycardia in
infancy with digitalis, adenosine 5´ triphosphate, and verapamil: A comparative study. Circulation 1982;66:504-508.
9. Clark B, Rowland E, Barnes PJ, et al: Rapid and safe termination of supraventricular tachy-
cardia in children by adenosine. Lancet 1987;1:299-301.
10. Till J, Shinebourne EA, Rigby ML, et al: Efficacy and safety of adenosine in the treatment ofsupraventricular tachycardia in infants and children. Br Heart J 1989;62:204-211.
11. Overholt ED, Rheuban SK, Gutgesell HP, et al: Usefulness of adenosine in the treatment ofsupraventricular tachycardia in infants and children. Am J Cardiol 1988;61:336-340.
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13. Rossi AF, Burton DA: Adenosine in altering short and long term treatment of SVT in infants. Am J Cardiol 1989;64:685-686.
14. Dorostkar PC, Dick M, Serwer GA: Failure of adenosine to terminate supraventricular tachy-cardia in neonates [abstract]. Am J Cardiol 1993;72:501.
15. Zempsky WT, Dick M: Acute SVT: The case for adenosine. Contemp Pediatr 1993;10:87-97.
16. Marco CA, Cardinale JF: Adenosine for the treatment of supraventricular tachycardia in theED. Am J Emerg Med 1994;12:485-488.
17. Cairns CB, Niemann JT: Intravenous adenosine in the emergency department managementof paroxysmal supraventricular tachycardia. Ann Emerg Med 1991;20:717-721.
18. McCabe JL, Adhar GC, Menegazzi JJ, et al: Intravenous adenosine in the prehospital treat-ment of paroxysmal supraventricular tachycardia. Ann Emerg Med 1992;21:358-361.
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20. Furlong R, Gerhardt RT, Farber P, et al: Intravenous adenosine as first-line prehospital man-agement of narrow-complex tachycardias by EMS personnel without direct physician control. Am J Emerg Med 1995;13:383-388.
21. Lozano M, McIntosh BA, Giordano LM: Effect of adenosine on the management of supraven-tricular tachycardia by urban paramedics. Ann Emerg Med 1995;26:691-696.
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24. Pediatric Advanced Life Support, part IV. JAMA 1992;268:2262-2275.
25. Berul CI: Higher adenosine dosage required for supraventricular tachycardia in infantstreated with theophylline. Clin Pediatr 1993;32:167-168. F E B R U A R Y 1 9 9 9
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