Title: ExerciseInduced Syncope: Diagnosis and Management
1Exercise-Induced SyncopeDiagnosis and Management
- Francis G. OConnor, MD, FACSM
- Primary Care Sports Medicine
2Objectives
- Review the epidemiology of sudden death and
exercise-induced syncope in athletes - Discuss the pathophysiology and differential
diagnosis of exertional collapse - Discuss the evaluation and management of the
athlete with exercise-associated collapse
3Definitions
- Syncope a sudden and temporary loss of
consciousness, in the absence of head trauma,
that is associated with a loss of postural tone
with spontaneous recovery not requiring
electrical or chemical cardioversion - Exercise-Induced Syncope
- Exercise-Associated Collapse
4Exercise-Induced Syncope
- Syncopal episode during exercise or in the
immediate post-exertional period the athlete
normally recovers quickly
5Exercise-Associated Collapse
- Athlete is unable to stand or walk unaided as a
result of lightheadedness, faintness, dizziness,
or syncope.
6Epidemiology of Exertional Sudden Death and
Syncope
7Sudden Death in Older Athletes
8Sudden Death in Younger Athletes
9Nontraumatic Sports Death in High School and
College Athletes
- VanCamp SP, et al Medicine and Science in Sports
and Exercise 1996. Vol 27(5)641-7.
10- estimated death rates in male athletes were
fivefold higher than in female athletes (7.5 vs.
1.33) - estimated death rates were twofold higher in male
college athletes than in male high school
athletes - noncardiac causes of death accounted for 22 of
the cases - male football and basketball accounted for the
majority of deaths (104/160)
11Risk for Sudden Cardiac Death Associated with
Marathon Running
- Maron BJ,et alJournal of the American College of
Cardiology 199628428-431.
12- 215,413 completed the Marine Corps and the Twin
Cities Marathon - four exercise-related sudden deaths occurred
three during the race, one right after completion - risk for sudden death with marathon running
150,000 this was 1/100 the risk of overall
living for 1 year
13Syncope in Children and Adolescents
- Driscoll DJ, et al Journal of the American
college of Cardiology 1997291039-45.
14- population-based review of syncope in children
and adolescents - 194 cases studied 3 presented with exertional
syncope, with one subsequent sudden death - conclusions
- electrocardiography warranted in all patients
with syncope - detailed evaluation should be considered for
patients with syncope with exercise, a family
history of syncope, premature sudden death or
arrhythmias
15Screening for Hypertrophic Cardiomyopathy in
Young Athletes
- Corrado D, et al The New England Journal of
Medicine 1998339364-9.
16- prospective study of sudden death events among
athletes and nonathletes - the incidence of sudden death from HCM was
decreased in the athletes who had PPE screens - most common cause of sudden death in athletes was
arrhythmogenic right ventricular dysplasia - 7 of the 28 athletes who died had complained of
syncope none of the victims complained about
exertional chest pain
17Exertional Sudden Death in Soldiers
- Drory Y et al Medicine and Science in Sports
- and Exercise 1991. Vol 23(2) 147-151.
18- All exercise-related sudden unexpected deaths of
soldiers 18-29 in the IDF during 1974-1986 were
reviewed - twenty male soldiers died suddenly within 24hr of
strenuous exercise - 70 of the victims had prodromal symptoms within
one month of their demise with syncope being the
most common complaint (40) - syncope was associated with HCM, myocarditis,
intracranial hemorrhage, and heat stroke
19Clinical and Biochemical Characteristics of
Collapsed Ultramarathon Runners
- Holtzhausen LM, Noakes TD et al Medicine and
Science in Sports and Exercise 1994. Vol
26(9)1095-1101.
20- 56 km race 65 controls 46 runners with
exertional collapse - most cases of EAC occurred at the finish line
(85) correlation with cutoff for medals and
race closure - 15 collapsing during the event had readily
identifiable medical diagnoses asthma angina
hypoglycemia gastroenteritis - states of dehydration, plasma renin and
vasopressin concentrations were comparable in
controls and EAC victims
21Pathophysiology of Exercise-Associated Collapse
22- Multifactorial
- Cardiovascular changes with exercise
- Second Heart
- Orthostatic intolerance in Athletes
23Cardiovascular Regulation with Exercise
- aerobic exercise results in dramatic shifts in
blood distribution - cardiac ouput increases to accommodate an
increase in peripheral oxygen demand - there is a preferential redistribution of blood
flow to the working muscles and away from
non-exercising areas
24The Second Heart
- During exercise the skeletal muscle functions as
a second heart as the pumping action of
skeletal muscle maintains venous return - During muscle contraction, the veins are emptied
and the driving pressure back to the heart is
substantially increased - If the the pumping action of skeletal muscle is
lost despite a persistent vasodilation, syncope
may ensue
25Orthostatic Intolerance in Athletes
- Endurance trained athletes have a reduced
capacity to compensate for any acute hypotensive
stress - Luft et al report that the incidence of syncope
during lower body negative pressure is greater in
trained than in untrained controls - Smith et al postulate training induced
alterations in the autonomic nervous system with
attenuated sympathetic activity to hypotensive
stress in athletes
26The Prevalence and Significance of Post-Exercise
Hypotension in Ultramarathon Runners
- Holtzhausen LM, Noakes TD, et al Medicine and
Science in Sports and Exercise 199527(12)1595-16
01.
27- Study involving 31/240 runners in an 80k
ultramarathon (mean age 38.9 years) - Pre- and Post-race weights, supine and erect
blood pressures, and blood samples - osmolality
- chemistries
- glucose
28- Average weight loss was 3.5 kg (4.6)
- Large increase in supine-erect blood pressure
differences after the race - 81 of runners demonstrated a posture-related
difference in systolic blood pressure in excess
of 20mmHg - No significant correlation was found with weight
loss, or plasma volume with systolic blood
pressure differences
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30- Systolic and diastolic BP were decreased after
exercise, but to a much greater extent in the
erect versus supine position - Level of dehydration was unrelated to the degree
of postural hypotension - EAC should initially be treated with pelvic and
lower limb elevation, not IV rehydration
31Exercise Associated Collapse
- Postulated Mechanism for EAC
- redistribution of blood flow to working muscle
and skin - reliance of skeletal muscle pump to maintain
atrial filling pressure - sudden cessation of exercise of exercise promotes
peripheral pooling
32Exercise Associated Collapse
- Postulated Mechanism for EAC
- contractions of empty ventricle stimulate
mecchanoreceptors - afferent vagal C-fibers transmit these signals to
the CNS with efferent reflexes result in
vasodilatation and bradycardia with syncope
33Exercise Associated Collapse
- In summary, syncope after exercise is
multifactorial but can usually be explained by
predictable hemodynamic responses - heat stress
- extraordinary effort
- standing quietly in an upright position
34Differential Diagnosis of Exertional Syncope
35Differential Diagnosis of Syncope
Mean Arterial Pressure
Cerebral Metabolism
- Heart Rate
- Stroke Volume
- Peripheral Resistance
- Tissue Oxygen
- Substrate Delivery
36Differential Diagnosis
- Cerebral Metabolism
- seizure
- hypocapnia
- hypoxia
- hypoglycemia
- hyperthermia
37Differential Diagnosis
- Heart Rate too Slow
- bradyarrhythmia
- cardioinhibitory reflex (neurocardiogenic)
- conduction abnormality
38Differential Diagnosis
- Heart Rate too Fast
- supraventricular
- pre-excitation
- atrial fibrillation
- ventricular
- ventricular tachycardia
- ventricular fibrillation
39Differential Diagnosis
- LVEDV too Low
- pulmonary hypertension
- pulmonic stenosis
- dehydration
- hemorrhage
40Differential Diagnosis
- LVESV too High
- aortic stenosis
- hypertrophic cardiomyopathy
- ischemia
41Differential Diagnosis
- TPR too Low
- vasodepressor reflex
- anaphylaxis
- functional sympatholysis
42Evaluation and Management of the Athlete with a
History of Exertional Syncope
43Assessment
- History and Physical Examination
- Electrocardiogram
- Special Tests
- Echocardiography
- Exercise Stress Testing
- Putting it All Together
44History
- True syncope versus exercise associated
collapse - During versus immediately after exercise
- Prodromal symptoms
- Post-event state
- Medications
- High risk behaviors
- Family history
45Physical Examination
- Vital signs supine and upright (at least 5
minutes standing) - BP in arms/legs
- Body habitus
- Cardiac murmurs at rest and during Valsalva or
rise from squatting position
46Electrocardiogram
- QTc
- Pre-excitation
- ST-T wave abnormalities
- Ischemic changes
- T wave inversion v1 -v3
- Ectopy, inparticular with LBBB
47Echocardiogram
- LV and RV size and function
- Valve structure
- Left main coronary ostial position
- Aortic annulus size
- Pulmonary systolic pressure
48Exercise Stress Test
- Designed to reproduce conditions which provoked
the event e.g. - start-stop
- prolonged high intensity
- Appropriate QT shortening
49Putting it All Together
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51Evaluation and Management of the Athlete with
Acute Exercise-Associated Collapse
52Collapsed Ultraendurance Athlete Proposed
Mechanisms and an Approach to Management
- Holtzhausen LM, Noakes TD Clinical Journal of
Sports Medicine 19977292-301.
53Conditions Associated with Collapse during or
after Prolonged Exercise
- Hypothermia
- Hyponatremia
- Cardiac arrest
- Other medical conditions
- Orthopedic conditions
- Exercise-associated collapse
- Muscle cramps
- Heat stroke
- Hypoglycemia
54Initial Management of Collapsed Athletes
- Noakes Fallacy 1 All persons who collapse after
exercise have dehydration-induced hyperthermia - Treatment by necessity is most often initiated in
the absence of a diagnosis - Appropriate Triage
- level of consciousness
- site of collapse
- vital signs HR, BP, rectal temp
55Severity of the Collapsed Athlete
- Nonsevere
- Immediate Assessment
- conscious
- alert
- rectal temp lt40C
- systolic BP gt100 mmHg
- heart rate lt100 bpm
- Specialized Assessment
- glucose 4 -10 mmol/L
- sodium 135 -148 mmol/l
- wt loss 0 -5
- Severe
- Immediate Assessment
- unconscious or altered mental state
- confused, disoriented
- rectal temp gt40C
- systolic BP lt100mmHg
- heart rate gt100 bpm
- Specialized
- glucose lt4 or gt10 mmol/L
- sodium lt130 or gt148 mmol/l
- wt loss gt10
56Management of Collapsed Athletes who are
Unconscious
- Universal Algorithm for Adults
- ABCs
- Differential Diagnosis
- Medical vs. Exercise-related
- Vital Signs
- Clinical Judgement
57Universal Algorithm for Adults
Assess Responsiveness
- Responsive
- Observe
- Treat as Indicated
- Not Responsive
- Activate EMS
- Call for defibrillator
- Assess breathing
- Not Breathing
- Give 2 slow breaths
- Assess circulation
- Breathing
- Place in recovery position
- Rescue breathing
- Oxygen, endotracheal intubation
- Vital signs, IV, Monitor
- History and Physical
Pulse
No Pulse
Start CPR
58Management of Collapsed Athletes who are
Unconscious
- Medical Condition not Necessarily Related to
Exercise - cardiac arrest
- diabetic coma
- subarachnoid hemorrhage
- grand mal epilepsy
- Exercise-Related Disorder
- hyponatremia
- heat stroke
- severe hypoglycemia
59Differential Diagnosis
- Heat Stroke
- unconscious
- altered mental state
- T gt41C
- tachycardia
- hypotension
- Hyponatremia
- unconscious
- altered mental state
- Tlt40C
- NL V/S
60Initial Management
- Heat Stroke
- ABCs
- IV, monitor
- Immediate cooling to 38C
- Normal saline
- Transfer
- Hyponatremia
- ABCs
- IV, monitor
- Isotonic/hypertonic saline lt50ml/hr
- avoid overhydration
- transfer
61Management of Collapsed Athletes who are
Conscious
- Clinical Assessment
- altered mental status
- pertinent history
- state of hydration
- vital signs
- rectal temp
- blood pressure
- heart rate
- orthostatics
62Management of Collapsed Athletes who are
Conscious
- Pertinent History
- amount of fluid ingested during the race
- amount of urine passed during the race
- vomiting and/or diarrhea
- carbohydrate ingested before and during the race
- drugs taken during the race
- recent illness
- race preparation
63Management of Collapsed Athletes who are
Conscious
- Exercise-Associated Collapse
- diagnosis of exclusion
- ingest oral fluids
- elevate legs and pelvis
- cool as indicated
- monitor vital signs
- most athletes asymptomatic within 30 minutes
64Management of Collapsed Athletes who are
Conscious
- Who needs an IV?
- unconscious
- suspected heat stroke, hyponatremia, hypoglycemia
- physical exam c/w dehydration
- persistent emesis
- persistent tachycardia and hypotension when
lying supine with legs and pelvis elevated gt10 to
15 minutes
65Conclusions
- EAC is common, and most often benign
- Exercise-induced syncope, however, particularly
during exercise, may be a harbinger of a sudden
death event - Management of the young athlete requires an
astute clinician who incorporates judgement with
an appropriate history and physical - Always treat the patient first and the athlete
second
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67You find what you look for, and diagnose what
you know!
68Compression
- No RCTs isolating effect of compression
- Compression wraps with malleolar horseshoes to
decrease swelling - When combined with appropriate elevation, thought
to limit swelling and result in a faster recovery
69Putting it All Together
- Assessment
- History
- Physical Examination
- Electrocardiogram
- Selected Laboratory Tests
70Putting it All Together
- Diagnostic
- Suggestive
- Unexplained
71Putting it All Together
- Diagnostic or Suggestive
- Potentially life-threatening
- Restriction vs. treat or evaluate
- Consider Referral
72Putting it All Together
- Unexplained
- Restriction
- ECHO/GXT
- Reassurance vs. Referral
- Post-exertional
- Non-recurrent
- Normal family history
- Normal cardiac examination
- Normal ECG, ECHO, GXT