Syncope A Diagnostic and Treatment Strategy

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Syncope A Diagnostic and Treatment Strategy

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Title: Syncope A Diagnostic and Treatment Strategy

1
SyncopeA Diagnostic and Treatment Strategy
Developed
by David G. Benditt, M.D. Richard
Sutton, DScMed University of Minnesota Medical
Center Royal Brompton Hospital, London,
UK
2
Presentation Overview

Prevalence Impact
Etiology
Diagnosis Evaluation Options
Specific Conditions
Treatment Options
Insights into more efficient and effective
diagnosis and treatment of patients with syncope

3
Section IPrevalence and Impact
4
The Significance of Syncope

The only difference between
syncope and sudden death
is that in one you wake up.1

1 Engel GL. Psychologic stress, vasodepressor
syncope, and sudden death. Ann Intern Med 1978
89 403-412.
5
The Significance of Syncope
1 National Disease and Therapeutic Index on
Syncope and Collapse, ICD-9-CM 780.2, IMS
America, 1997 2 Blanc J-J, Lher C, Touiza A, et
al. Eur Heart J, 2002 23 815-820. 3 Day SC, et
al, AM J of Med 1982 4 Kapoor W. Evaluation and
outcome of patients with syncope. Medicine
199069160-175
6
Syncope Reported Frequency

Individuals lt18 yrs
Military Population 17- 46 yrs
Individuals 40-59 yrs
Individuals gt70 yrs

15
20-25
16-19
23

during a 10-year period
Brignole M, Alboni P, Benditt DG, et al. Eur
Heart J, 2001 22 1256-1306.
7
The Significance of Syncope

500,000 new syncope patients each year 5
170,000 have recurrent syncope 6
70,000 have recurrent, infrequent, unexplained
syncope 1-4

1 Kapoor W, Med. 199069160-175. 2 Silverstein
M, et al. JAMA. 19822481185-1189. 3 Martin G,
et al. Ann Emerg. Med. 198412499-504.
4 Kapoor W, et al. N Eng J Med.
1983309197-204. 5 National Disease and
Therapeutic Index, IMS America, Syncope and
Collapse 780.2 Jan 1997-Dec 1997. 6 Kapoor W,
et al. Am J Med. 198783700-708.
8
The Significance of Syncope

Some causes of syncope are potentially fatal
Cardiac causes of syncope have the highest
mortality rates

1 Day SC, et al. Am J of Med 19827315-23. 2
Kapoor W. Medicine 199069160-175. 3 Silverstein
M, Sager D, Mulley A. JAMA. 19822481185-1189.
4 Martin G, Adams S, Martin H. Ann Emerg Med.
198413499-504.
9
Impact of Syncope
73 1
71 2
60 2
Proportion of Patients
37 2
Anxiety/Depression
Alter DailyActivities
RestrictedDriving
ChangeEmployment
1Linzer, J Clin Epidemiol, 1991. 2Linzer, J Gen
Int Med, 1994.
10
Section IIEtiology
11
Syncope A SymptomNot a Diagnosis

Self-limited loss of consciousness and postural
tone
Relatively rapid onset
Variable warning symptoms
Spontaneous complete recovery

12
Causes of Syncope1
1Kapoor W. In Grubb B, Olshansky B (eds) Syncope
Mechanisms and Management. Armonk NY Futura
Publishing Co, Inc 1998 1-13.
13
Syncope Etiology
Orthostatic
Cardiac Arrhythmia
Structural Cardio- Pulmonary
Non- Cardio- vascular
Neurally- Mediated

1
Vasovagal
Carotid Sinus
Situational
Cough
Post-
micturition

2
Drug
Induced
ANS
Failure
Primary
Secondary

3
Brady
Sick sinus
AV block
Tachy
VT
SVT
Long QT Syndrome

4
Aortic Stenosis
HOCM
Pulmonary
Hypertension

5
Psychogenic
Metabolic
e.g. hyper-
ventilation
Neurological

24
11
14
4
12
Unknown Cause 34
DG Benditt, UM Cardiac Arrhythmia Center
14
Causes of Syncope-like States

Migraine
Acute hypoxemia
Hyperventilation
Somatization disorder (psychogenic syncope)
Acute Intoxication (e.g., alcohol)
Seizures
Hypoglycemia
Sleep disorders

may cause true syncope
15
Section IIIDiagnosis and Evaluation Options
16
Syncope Diagnostic Objectives

Distinguish True Syncope from other Loss of
Consciousness spells
Seizures
Psychiatric disturbances
Establish the cause of syncope with sufficient
certainty to
Assess prognosis confidently
Initiate effective preventive treatment

17
Initial Evaluation(Clinic/Emergency Dept.)

Detailed history
Physical examination
12-lead ECG
Echocardiogram (as available)

18
Syncope Basic Diagnostic Steps

Detailed History Physical
Document details of events
Assess frequency, severity
Obtain careful family history
Heart disease present?
Physical exam
ECG long QT, WPW, conduction system disease
Echo LV function, valve status, HOCM
Follow a diagnostic plan...

19
Conventional Diagnostic Methods/Yield
9 Day S, et al. Am J Med. 1982 73 15-23. 10
Stetson P, et al. PACE. 1999 22 (part II) 782.
5 Kapoor, JAMA, 1992 6 Krahn, Circulation, 1995 7
Krahn, Cardiology Clinics, 1997. 8 Eagle K,, et
al. The Yale J Biol and Medicine. 1983 56 1-8.
1 Kapoor, et al N Eng J Med, 1983. 2 Kapoor, Am J
Med, 1991. 3 Linzer, et al. Ann Int. Med, 1997. 4
Kapoor, Medicine, 1990.
Structural Heart Disease MRI not studied
20
Syncope Evaluation and Differential Diagnosis
History What to Look for

Complete Description
From patient and observers
Type of Onset
Duration of Attacks
Posture
Associated Symptoms
Sequelae

21
12-Lead ECG

Normal or Abnormal?
Acute MI
Severe Sinus Bradycardia/pause
AV Block
Tachyarrhythmia (SVT, VT)
Preexcitation (WPW), Long QT, Brugada
Short sampling window (approx. 12 sec)

22
Carotid Sinus Massage

Site
Carotid arterial pulse just below thyroid
cartilage
Method
Right followed by left, pause between
Massage, NOT occlusion
Duration 5-10 sec
Posture supine erect

23
Carotid Sinus Massage

Outcome
3 sec asystole and/or 50 mmHg fall in systolic
blood pressure with reproduction of symptoms
Carotid Sinus Syndrome (CSS)
Contraindications
Carotid bruit, known significant carotid arterial
disease, previous CVA, MI last 3 months
Risks
1 in 5000 massages complicated by TIA

24
Conventional AECG Low Yield, Poor Symptom /
Arrhythmia Concordance

8 studies, 2612 patients
19 pts had symptoms with AECG
Only 4 had arrhythmia with symptoms
79 pts were without symptoms
14 had arrhythmia despite absence of symptoms

ACC/AHA Task Force, JACC 1999912-948
25
Ambulatory ECG
26
Head-up Tilt Test (HUT)

Unmasks VVS susceptibility
Reproduces symptoms
Patient learns VVS warning symptoms
Physician is better able to give prognostic /
treatment advice

27
Head-Up Tilt Test (HUT)
DG Benditt, UM Cardiac Arrhythmia Center
28
Electroencephalogram

Not a first line of testing
Syncope from Seizures
Abnormal in the interval between two attacks
Epilepsy
Normal Syncope

29
Value of Event Recorder in Syncope
Asterisk denotes event marker
Linzer M. Am J Cardiol. 199066214-219.
30
Reveal Plus Insertable Loop Recorder
Patient Activator
Reveal Plus ILR
9790 Programmer
31
ILR Recordings
56 yo woman with syncope accompanied with
seizures. Infra-Hisian AV Block Dual chamber
pacemaker
65 yo man with syncope accompanied with brief
retrograde amnesia. VT and VF ICD and meds
Medtronic data on file
32
Randomized Assessment of Syncope Trial
Krahn A, Klein GJ, Skanes Y. Circulation 2001
10446-51.
33
RAST Methods

Prospective randomized trial
60 patients with unexplained syncope referred for
cardiac investigation
Inclusion
Recurrent unexplained syncope
Referred to the arrhythmia service for cardiac
investigation
No clinical diagnosis after history, physical,
ECG and at least 24 hours of cardiac monitoring
Exclusion
LVEF lt 35
Unable to give informed consent
Major morbidity precluding one year of follow-up

Krahn A, Klein GJ, Skanes Y. Circulation 2001
10446-51.
34
RAST Results
Unexplained Syncope n60
In Follow-up n3
Diagnosed n14
Undiagnosed n13
Diagnosed n6
Undiagnosed n24
Krahn A, Klein GJ, Skanes Y. Circulation 2001
10446-51.
35
RAST Crossover Results
Unexplained Syncope n60
13/30 Undiagnosed after monitoring 6 accepted
crossover to conventional
24/30 Undiagnosed after conventional 21 accepted
crossover to ILR
Diagnosed n1
Undiagnosed n5
Diagnosed n8
Undiagnosed n5
In follow-up n8
Krahn A, Klein GJ, Skanes Y. Circulation 2001
10446-51.
36
RAST - Diagnoses
number of patients
Krahn A, Klein GJ, Skanes Y. Circulation 2001
10446-51.
37
Conventional EP Testing in Syncope

Limited utility in syncope evaluation
Most useful in patients with structural heart
disease
Heart disease..50-80
No Heart disease18-50
Relatively ineffective for assessing
bradyarrhythmias

Brignole M, Alboni P, Benditt DG, et al. Eur
Heart Journal 2001 22 1256-1306.
38
EP Testing in SyncopeUseful Diagnostic
Observations

Inducible monomorphic VT
SNRT gt 3000 ms or CSRT gt 600 ms
Inducible SVT with hypotension
HV interval 100 ms (especially in absence of
inducible VT)
Pacing induced infra-nodal block

39
ISSUE Study International Study of Syncope of
Uncertain Etiology

Objectives
Understand the mechanism of syncope in
tilt-positive and tilt-negative (isolated)
patients
Use the ILR to assess the correlation of rhythms
captured during tilt testing and spontaneous
recurrent episodes
Inclusion Criteria
Patients with three or more syncopal episodes in
the last 2 years
Groups matched in age, sex, history of syncope,
ECG, Echo abnormalities, SHD and arrhythmias

Moya A. Circulation. 2001 1041261-1267
40
ISSUE Study Design

Multicenter, prospective

Moya A. Circulation. 2001 1041261-1267
41
ISSUE Study Results
Moya A. Circulation. 2001 1041261-1267
42
ISSUE Study

Conclusions
Homogeneous findings from tilt-negative and
tilt-positive syncope patients were observed
(clinical characteristics and outcomes). Most
frequent finding was asystole secondary to
progressive sinus bradycardia, suggesting a
neuromediated origin
In this study tilt-negative patients had as many
arrhythmias (18) as tilt-positive patients (21)
In tilt-positive patients the spontaneous
episode ECG was more frequently asystolic than
what was predicted by tilt test

Moya A. Circulation. 2001 1041261-1267
43
ISSUE Study Implications

HUT outcome was not predictive of vasodepressor
vs. cardioinhibitory response
Bradycardia is common in spontaneous VVS -
independent of HUT outcome
Bradycardia is more prevalent in spontaneous
events vs. HUT induced VVS
Clinical Implication Consider a strategy of
postponing treatment until a spontaneous episode
can be documented

Moya A. Circulation. 2001 1041261-1267
44
Symptom-Rhythm Correlation
Auto Activation Point
Patient Activation Point
45
Diagnostic Limitations

Difficult to correlate spontaneous events and
laboratory findings
Often must settle for an attributable cause
Unknowns remain 20-30 1

1Kapoor W. In Grubb B, Olshansky B (eds) Syncope
Mechanisms and Management. Armonk NY Futura
Publishing Co, Inc 1998 1-13.
46
Unexplained Syncope Diagnosis
History and Physical Exam Surface ECG
ENT Evaluation
Endocrine Evaluation

CV Syncope Workup
Holter
ELR or ILR
Tilt Table
Echo
EPS

Neurological Testing
Head CT Scan
Carotid Doppler
MRI
Skull Films
Brain Scan
EEG

Other CV Testing
Angiogram
Exercise Test
SAECG

Psychological Evaluation
Adapted from W.Kapoor.An overview of the
evaluation and management of syncope. From Grubb
B, Olshansky B (eds) Syncope Mechanisms and
Management. Armonk, NY Futura Publishing Co.,
Inc.1998.
47
Typical Cardiovascular Diagnostic Pathway
Syncope
History and Physical, ECG
KnownSHD
NoSHD
gt 30 days gt 2 Events
lt 30 days
Echo
EPS
-

Treat
Tilt/ILR
Adapted from Linzer M, et al. Annals of Int Med,
1997. 12776-86. Syncope Mechanisms and
Management. Grubb B, Olshansky B (eds) Futura
Publishing 1999 Zimetbaum P, Josephson M. Annals
of Int Med, 1999. 130848-856. Krahn A et al. ACC
Current Journal Review,1999. Jan/Feb80-84.
48
Section IVSpecific Conditions
49
Neurally-Mediated Reflex Syncope (NMS)

Vasovagal syncope (VVS)
Carotid sinus syndrome (CSS)
Situational syncope
post-micturition
cough
swallow
defecation
blood drawing
etc.

50
NM Reflex Syncope Pathophysiology

Multiple triggers
Variable contribution of vasodilatation and
bradycardia

51
NMS Basic Pathophysiology
Benditt DG, Lurie KG, Adler SW, et al.
Pathophysiology of vasovagal syncope. In
Neurally mediated syncope Pathophysiology,
investigations and treatment. Blanc JJ, Benditt
D, Sutton R. Bakken Research Center Series, v.
10. Armonk, NY Futura, 1996
52
Vasovagal Syncope (VVS)Clinical Pathophysiology

Neurally Mediated Physiologic Reflex Mechanism
with two Components
Cardioinhibitory ( HR )
Vasodepressor ( BP )
Both components are usually present

53
Prevalence of VVS

Prevalence is poorly known
Various studies report 8 to 37 (mean 18) of
cases of syncope (Linzer 1997)
In general
VVS patients younger than CSS patients
Ages range from adolescence to elderly (median
43 years)
Pallor, nausea, sweating, palpitations are common
Amnesia for warning symptoms in older patients

54
Spontaneous VVS
16.3
sec
Continuous Tracing
1 sec
DG Benditt, UM Cardiac Arrhythmia Center
55
Management Strategies for VVS

Optimal management strategies for VVS are a
source of debate
Patient education, reassurance, instruction
Fluids, salt, diet
Tilt Training
Support hose
Drug therapies
Pacing
Class II indication for VVS patients with
positive HUT and cardioinhibitory or mixed reflex

56
VVS Tilt-Training

Objectives
Enhance Orthostatic Tolerance
Diminish Excessive Autonomic Reflex Activity
Reduce Syncope Susceptibility / Recurrences
Technique
Prescribed Periods of Upright Posture
Progressive Increased Duration

57
Carotid Sinus Syndrome (CSS)

Syncope clearly associated with carotid sinus
stimulation is rare (1 of syncope)
CSS may be an important cause of unexplained
syncope / falls in older individuals

58
Etiology of CSS

Sensory nerve endings in the carotid sinus walls
respond to deformation
Deafferentation of neck muscles may contribute
Increased afferent signals to brain stem
Reflex increase in efferent vagal activity and
diminution of sympathetic tone results in
bradycardia and vasodilation

Carotid Sinus
59
Carotid Sinus Hypersensitivity(CSH)

Abnormal response to CSM
Absence of symptoms attributable to CSS
CSH reported frequent in fallers (Kenny)
CSH ? CSS

60
CSS and Falls in the Elderly

30 of people gt65 yrs of age fall each year1
Total is 9,000,000 people in USA
Approximately 10 of falls in elderly persons are
due to syncope2
50 of fallers have documented recurrence3
Prevalence of CSS among frequent and unexplained
fallers unknown but
CSH present in 23 of gt50 yrs fallers presenting
at ER 3

1Falling in the Elderly U.S. Prevalence Data.
Journal of the American Geriatric Society,
1995. 2 Campbell et al Age and Aging
198110264-270. 3Richardson DA, Bexton RS, et
al. Prevalence of cardioinhibitory carotid sinus
hypersensitivity in patients 50 years or over
presenting to the Accident and Emergency
Department with unexplained or recurrent
falls. PACE 1997
61
Section VTreatment Options
62
VVS Pharmacologic Rx

Salt /Volume
Salt tablets, sport drinks, fludrocortisone
Beta-adrenergic blockers
1 positive controlled trial (atenolol),
1 on-going RCT (POST)
Disopyramide
SSRIs
1 controlled trial
Vasoconstrictors (e.g., midodrine)
1 negative controlled trial (etilephrine)

63
Midodrine for Neurocardiogenic Syncope
Journal of Cardiovascular Electrophysiology Vol.
12, No. 8, Perez-Lugones, et al.
64
Status of Pacing in VVS

Perception of pacing for VVS changing
VVS with HUT and cardioinhibitory response a
Class IIb indication1
Recent clinical studies demonstrated benefits of
pacing in select VVS patients
VPS I
VASIS
SYDIT
VPS II Phase I
ROME VVS Trial

1Gregoratos G, et al. ACC/AHA Guidelines for
Implantation of Cardiac Pacemakers and
Antiarrhythmic Devices. Circulation. 1998 97
1325-1335.
65
Status of Pacing in VVS

Benefits of specific device features evolving
Some success with DDD/DDI hysteresis 1
False positives may result in prolonged high
rate intervention
Tied to lower rate intervention
Rate drop therapies designed for treating VVS
syncope appear to be successful 2-4

1 Sutton R, et al. Circulation. 2000
102294-299. 2 Connolly S, et al. J Am Coll
Cardiol 1999 3316-20. 3 Ammirati F, et al.
Circulation. 2002 104 52-57. 4 Ammirati F, et
al. NASPE Abstract 307. PACE, Vol. 24, April
2002, Part II.
66
VPS-IVasovagal Pacemaker Study I

Study Design
54 patients randomized, prospective, single
center
27 DDD pacemaker with rate drop response (RDR)
27 no pacemaker
Patient Inclusion Criteria
6 syncopal events ever
HUT
Relative bradycardia

a trough heart rate lt60/min if no isoproterenol
used, lt70/min if up to 2 mcg/min isoproterenol
used, or lt80/min if over 2 mcg/min isoproterenol
used
Connolly S, et al. J Am Coll Cardiol 1999 33
16-20.
67
VPS- I

Endpoints
Time to first syncope
Outcome

2p 0.000022
Connolly S, et al. J Am Coll Cardiol 1999 33
16-20.
68
VPS- I
100
90
Control (No Pacemaker)
80
70
60
Cumulative Risk ()
50
2P0.000022
40
30
Pacemaker
20
10
0
15
12
9
6
3
0
Time in Months
NumberAt Risk
C 27 9 4 2 1 0 P 27 21 17 12 11 8
Connolly S, et al. J Am Coll Cardiol 1999 33
16-20.
69
VPS-I

Conclusion
Dual-chamber pacing with rate drop response
reduces the likelihood of syncope in patients
with recurrent VVS.

Connolly S, et al. J Am Coll Cardiol 1999 33
16-20.
70
VASIS Vasovagal Syncope International Study

Study Design
42 patients, randomized, prospective, multicenter
19 DDI pacemaker (80 bpm) with rate hysteresis
(45 bpm)
23 no pacemaker
Patient Inclusion Criteria
gt 3 syncopal events in 2 years and last event
occurring within 6 months of enrollment and,
Positive VASIS type 2A or 2B cardioinhibitory
response to HUT and,
Age gt 40 years or drug refractory if lt 40 years

Sutton, R, et al. Circulation. 2000
102294-299.
71
VASIS

Endpoints
Time to first syncope

Outcome

P 0.0006
Sutton, R, et al. Circulation. 2000
102294-299.
72
VASIS
Pacemaker
100
80
p0.0004
syncope-free
60
40
No-Pacemaker
20
0
2
3
4
5
6
Years
Sutton, R, et al. Circulation. 2000
102294-299.
73
VASIS

Conclusion
Dual-chamber pacing (at a rate of 80 bpm ) with
rate hysteresis reduces the likelihood of syncope
in patients with tilt-positive, cardioinhibitory
syncope.

Sutton, R, et al. Circulation. 2000
102294-299.
74
SYDIT Syncope Diagnosis and Treatment Study

Study Design
93 patients randomized, prospective, multicenter
46 DDD pacemaker with rate drop response (RDR)
47 Atenolol 100 MG/D
Patient Inclusion Criteria
gt 55 yrs
gt 3 syncopal episodes in 2 years
HUT with relative bradycardia (trough HR lt60
bpm)

Ammirati F, et al. Circulation. 2001 10452-57.
75
SYDIT

Endpoints
Time to first syncope
Outcome

P0.004
Ammirati, et al. Circulation. 2001 10452-57.
76
SYDIT
Syncope-free Survival Intention-to-Treat
(n46/paced, 47/drug).
1.0
0.9
drug
pacemaker
P 0.0032
0.8
of syncope free pts
0.7
0.6
100
200
300
400
500
600
700
800
900
1000
0
Time (days)
Ammirati F, et al. Circulation. 2001 10452-57.
77
SYDIT

Conclusion
Dual-chamber pacing RDR is superior to
Atenolol in prevention of recurrent syncope in
highly symptomatic patients with relative
bradycardia during tilt-induced syncope.

Ammirati F, et al. Circulation. 2001 10452-57.
78
VPS-II Phase IVasovagal Pacemaker Study-II

Study Design
100 patients, randomized, prospective,
multicenter
50 DDD pacemaker with rate drop response (RDR)
50 ODO pacemaker (inactive mode)
Patient Inclusion Criteria
gt 6 syncope events ever or gt 3 syncope events in
2 years or gt 1 syncope event in 6 months and,
Positive HUT with syncope or presyncope and a
heart rate blood pressure product lt9000

Presented at the 23rd Annual Scientific Sessions
of the North American Society of Pacing and
Electrophysiology. Late Breaking Clinical Trials,
May 11, 2002.
79
VPS-II Phase I

Endpoints
Time to first syncope
Outcome

P0.153
Presented at the 23rd Annual Scientific Sessions
of the North American Society of Pacing and
Electrophysiology. Late Breaking Clinical Trials,
May 11, 2002.
80
VPS-II Phase I
0.4
0.3
ODO
DDD
Cumulative Risk of Syncope
0.2
P 0.153 (one-sided)
0.1
0.0
0
1
2
3
4
5
6
ODO 40 37 35 32 31 21 DDD 39 36 34 33 33 17
Number at Risk
Presented at the 23rd Annual Scientific Sessions
of the North American Society of Pacing and
Electrophysiology. Late Breaking Clinical Trials,
May 11, 2002.
81
VPS-II Phase I

Conclusions
Lower than anticipated syncope event rate in the
control arm.
Higher than anticipated event rate in the
treatment group.
Consequence treatment effect was less than
VPS-I.
Results favored pacing but the treatment effect
was not statistically significant.

Presented at the 23rd Annual Scientific Sessions
of the North American Society of Pacing and
Electrophysiology. Late Breaking Clinical Trials,
May 11, 2002.
82
VVS Pacing Trials Conclusions

DDD pacing reduces the risk of syncope
in patients with recurrent, refractory,
highly-symptomatic, cardioinhibitory
vasovagal syncope.

83
SAFE PACE Study Design

Randomized controlled trial (N175)
Pacing (87) vs. No Pacing (88)
Single center Royal Victoria Infirmary,
Newcastle, UK
Recruitment began April 1998
12 month follow-up per patient
Study concluded May 2000

Kenny RA, J Am Coll Cardiol 2001 381491-1496.
84
SAFE PACE Inclusion Criteria

Consecutive adults attending accident and
emergency department
gt 50 Years
- Experienced non-accidental fall
Positive response to CSM

Kenny RA, J Am Coll Cardiol 2001 381491-1496.
85
SAFE PACE Screening Process
Accident and Emergency Attendees gt 50 Yrs
Falls or Syncope
Non-accidental Fall
CSM Performed
Cardioinhibitory or Mixed CSH
RCT
Control
Pacemaker
Kenny RA, J Am Coll Cardiol 2001 381491-1496.
86
SAFE PACE Screening Results
RCT (n175)

No pacing intervention

Medtronic Thera DR(Rate Drop ResponseAlgorithm)

Kenny RA, J Am Coll Cardiol 2001 381491-1496.
87
SAFE PACE ResultsNumber of Falls
70ReductionOR 0.42 95CI 0.23, 0.75
Falls during 12 months post randomization
Crude adjustment calculation
Kenny RA, J Am Coll Cardiol 2001 381491-1496.
88
SAFE PACE ResultsNumber of Syncopal Episodes
50ReductionOR 0.53 95 CI 0.23 1.20 ns
Syncopal events 12 months past
randomization Crude adjustment calculation
Kenny RA, J Am Coll Cardiol 2001 38000-000.
89
SAFE PACE ResultsNumber of Injury Events
70Reduction
Injurious events 12 months post randomization
Kenny RA, J Am Coll Cardiol 2001 381491-1496.
90
SAFE PACE Conclusions

In patients with unexplained falls and a
diagnosis of Cardioinhibitory CSH, cardiac
pacing reduced the total number of
Falls by 70
Syncopal events by 53
Injurious events by 70

Kenny RA, J Am Coll Cardiol 2001 381491-1496.
91
Role of Pacing in CSS --Syncope Recurrence Rate

Class I indication for pacing (AHA and BPEG)
Limit pacing to CSS that is
Cardioinhibitory
Mixed
DDD/DDI superior to VVI

57
Recurrence
6
(Mean follow-up 6 months)
Brignole et. Al. Diagnosis, natural history and
treatment. Eur JCPE. 1992 4247-254
92
Section VIInsights into More Efficient and
Effective Diagnosis and Treatment
93
Principal Causes of Orthostatic Syncope

Drug-induced (very common)
diuretics
vasodilators
Primary autonomic failure
multiple system atrophy
Parkinsonism
Secondary autonomic failure
diabetes
alcohol
amyloid
Alcohol
orthostatic intolerance apart from neuropathy

94
Syncope Due to Arrhythmia or Structural CV
DiseaseGeneral Rules

Often life-threatening and/or exposes patient to
high risk of injury
May be warning of critical CV disease
Aortic stenosis, Myocardial ischemia, Pulmonary
hypertension
Assess culprit arrhythmia / structural
abnormality aggressively
Initiate treatment promptly

95
Principal Causes of Syncope due to Structural
Cardiovascular Disease

Acute MI / Ischemia
Acquired coronary artery disease
Congenital coronary artery anomalies
HOCM
Acute aortic dissection
Pericardial disease / tamponade
Pulmonary embolus / pulmonary hypertension
Valvular abnormalities
Aortic stenosis, Atrial myxoma

96
Syncope Due to Cardiac Arrhythmias

Bradyarrhythmias
Sinus arrest, exit block
High grade or acute complete AV block
Tachyarrhythmias
Atrial fibrillation / flutter with rapid
ventricular rate (e.g. WPW syndrome)
Paroxysmal SVT or VT
Torsades de pointes

97
Rhythms During Recurrent Syncope
Bradycardia 36
Normal Sinus Rhythm 58
Normal Sinus Rhythm 58
Tachyarrhythmia 6
Krahn A, et al. Circulation. 1999 99 406-410
98
AECG 74 yr Male, Syncope
From the files of DG Benditt, UM Cardiac
Arrhythmia Center
99
Syncope Torsades
From the files of DG Benditt, UM Cardiac
Arrhythmia Center
100
28 yo man in the ER multiple times after falls
resulting in trauma VT ablated and medicated
83 yo woman Bradycardia Pacemaker implanted
Reveal ILR recordings Medtronic data on file.
101
Infra-His Block
From the files of DG Benditt, UM Cardiac
Arrhythmia Center
102
Drug-Induced QT Prolongation

Antiarrhythmics
Class IA ...Quinidine, Procainamide, Disopyramide
Class IIISotalol, Ibutilide, Dofetilide,
Amiodarone, (NAPA)
Antianginal Agents
(Bepridil)
Psychoactive Agents
Phenothiazines, Amitriptyline, Imipramine,
Ziprasidone
Antibiotics
Erythromycin, Pentamidine, Fluconazole
Nonsedating antihistamines
(Terfenadine), Astemizole
Others
(Cisapride), Droperidol

103
Treatment of Syncope Due to Bradyarrhythmia

Class I indication for pacing using dual- chamber
system wherever adequate atrial rhythm is
available
Ventricular pacing in atrial fibrillation with
slow ventricular response

104
Treatment of Syncope Due to Tachyarrhythmia

Atrial Tachyarrhythmias
AVRT due to accessory pathway ablate pathway
AVNRT ablate AV nodal slow pathway
Atrial fib? Pacing, linear / focal ablation, ICD
selected pts
Atrial flutter Ablation of reentrant circuit
Ventricular Tachyarrhythmias
Ventricular tachycardia ICD or ablation where
appropriate
Torsades de Pointes withdraw offending Rx or
ICD (long-QT/Brugada)
Drug therapy may be an alternative in many cases

105
Conclusion

Syncope is a common symptom,
often with dramatic consequences,
which deserves thorough investigation
and appropriate treatment of its cause.

106
Disclaimer
INDICATIONS 9526 Reveal Plus Insertable Loop
Recorder The Reveal Plus Insertable Loop Recorder
(ILR) is an implantable patient activated
monitoring system that records subcutaneous ECG
and is indicated for patients who experience
transient symptoms that may suggest a cardiac
arrhythmia. 9790 Programmer The Medtronic
9790 Programmers are portable, microprocessor
based instruments used to program Medtronic
implantable devices. 6191 Activator The Model
6191 Activator is intended for use in combination
with a Medtronic Model 9525 Reveal and the Model
9526 Reveal Plus Insertable Loop
Recorders. CONTRAINDICATIONS There are no known
contraindications for the implantation of the
Reveal Plus ILR. However, the patients
particular medical condition may dictate whether
or not a subcutaneous, chronically implanted
device can be tolerated. WARNINGS/PRECAUTIONS
9526 Reveal Plus Insertable Loop
Recorder Patients with the Reveal Plus ILR should
avoid sources of magnetic resonance imaging,
diathermy, high sources of radiation,
electrosurgical cautery, external defibrillation,
lithotripsy, and radiofrequency ablation to avoid
electrical reset of the device, and/or
inappropriate sensing. 6191 Activator Operation
of the Model 6191 Activator near sources of
electromagnetic interference, such as cellular
phones, computer monitors, etc., may adversely
affect the performance of this device. See the
appropriate technical manual for detailed
information regarding indications,
contraindications, warnings, and
precautions. Caution Federal law (U.S.A.)
restricts this device to sale by or on the order
of a physician.
107
Disclaimer
INDICATIONS Medtronic.Kappa 700 Series
Pacemakers The Medtronic.Kappa 700 Series
pacemakers are indicated for rate adaptive pacing
in patients who may benefit from increased pacing
rates concurrent with increases in activity and
are also indicated for dual chamber and atrial
tracking modes in patients who may benefit from
maintenance of AV synchrony. Dual chamber modes
are specifically indicated for treatment of
conduction disorders that require restoration of
both rate and AV synchrony, which include various
degrees of AV block to maintain the atrial
contribution to cardiac output and VVI
intolerance (e.g., pacemaker syndrome) in the
presence of persistent sinus rhythm. 9790
Programmer The Medtronic 9790 Programmers are
portable, microprocessor based instruments used
to program Medtronic implantable
devices. 9462 The Model 9462 Remote Assistant is
intended for use in combination with a Medtronic
implantable pacemaker with Remote Assistant
diagnostic capabilities. CONTRAINDICATIONS The
Medtronic.Kappa 700 Series pacemakers are
contraindicated for the following applications
Dual chamber atrial pacing in patients with
chronic refractory atrial tachyarrhythmias.
Asynchronous pacing in the presence (or
likelihood) of competitive paced and intrinsic
rhythms. Unipolar pacing for patients with an
implanted cardioverter-defibrillator (ICD)
because it may cause unwanted delivery or
inhibition of ICD therapy. WARNINGS/PRECAUTIONS M
edtronic.Kappa 700 Series patients should avoid
sources of magnetic resonance imaging, diathermy,
high sources of radiation, electrosurgical
cautery, external defibrillation, lithotripsy,
and radiofrequency ablation to avoid electrical
reset of the device, inappropriate sensing and/or
therapy. See the appropriate technical manual for
detailed information regarding indications,
contraindications, warnings, and
precautions. Caution Federal law (U.S.A.)
restricts this device to sale by or on the order
of a physician.
108
Additional Slides
109
Falls -- Incidence, Recurrence, CHS
50 1
30 1
Percent of People
23 2
Incidencegt 65 yrs. old
Recurrence
CSH presentin fallers gt 50 yrs.presenting at ER
1 Falling in the Elderly, 1995. 2 Richardson,
PACE, 1997.
Carotid Sinus Hypersensitivity
110
VVS Pacing TrialsComparison Summary
111
Pacing in VVS

Two randomized, controlled trials suggest
benefit in selected patients with multiple (gt5
lifetime) syncope recurrences and one or more of
prominent cardioinhibitory features
asystolic pause gt10 seconds
sustained HRlt40/minute

112
VVS Recurrences

35 of patients report syncope recurrence during
follow-up 3 years
Positive HUT with gt6 lifetime syncope episodes
recurrence risk gt50 over 2 years

Sheldon et al. Circulation 1996 93
973-81. Savage et al. STROKE 1985 16 626-29.
113
SAFE PACE 2 Syncope and Falls in the Elderly

30 of individuals gt65 yrs fall each year
5 of falls result in fractures
1 of falls result in hip fractures
SAFEPACE Pilot Study
18 prevalence of CSH in unexplained fallers
31 in fallers gt80 yrs

Kenny RA, J Am Coll Cardiol 2001 381491-1496.
114
Rate Drop Response Overview
Detection Options
Both
Drop Detect
Low Rate Detect
Detection occurs when either Drop Detection or
Low Rate Detection criteria are met
Detects relative heart rate drops of a
pre-determined size
Detects heart rate that falls to a user-defined
lower rate
Rate Drop Detection in Medtronic Kappa Series
Pacemakers
115
Drop Detection with Intervention
Drop Detection Method Drop Size 25, Drop Rate 70
110
Peak Rate90 bpm
100
90
80
Drop Size25 bpm
Ventricular Rate
Drop Rate
70
60
2 consecutive beats
lt
Drop
50
Size and Drop Rate
40
Rate Drop Detection in Medtronic Kappa Series
Pacemakers
116
Drop Detect Peak Rate
Drop Detection Method Drop Size 25
120
Peak Rate90 bpm
110
100
90
Ventricular Rate
80
Drop Size25
bpm
70
60
50
40
Rate Drop Detection in Medtronic Kappa Series
Pacemakers
117
Low Rate Detect
Low Rate Detection Method Lower Rate 40,
Detection beats 2
110
100
90
80
Ventricular Rate
70
2 consecutive paced
60
beats at Lower Rate
50
40
Lower Rate
30
Rate Drop Detection in Medtronic Kappa Series
Pacemakers
118
Using Both Detection Algorithms

When both detection algorithms are used
Detection occurs when either Drop Detection or
Low Rate Detection criteria are met
Intervention Rate, Duration and Termination are
programmed the same as when using the individual
detection modes

Rate Drop Detection in Medtronic Kappa Series
Pacemakers
119
Rate Drop Intervention Therapy

DDD or DDI pacing
Pacing intervention
Paces at programmed Intervention Rate for
programmed duration
Pacing termination
Pacing rate decreases until there are three
consecutive atrial senses or Lower Rate is reached

Rate Drop Detection in Medtronic Kappa Series
Pacemakers
120
Challenges of Syncope