Exercise stress electrocardiography
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Transcript of Exercise stress electrocardiography
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Exercise stress electrocardiography
• Physiology and Protocol,• Indications and Contraindications
• Frijo Jose A
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Exercise physiology
• Sympathetic activation• Parasympathetic withdrawal• Vasoconstriction, exept-
– Exercising muscles– Cerebral circulation – Coronary circulation
• ↑norepinephrine and renin
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Exercise physiology
• ↑ventri contractility• ↑O2 extraction(upto 3)• ↓peripheral resistance• ↑SBP,MBP,PP• DBP –no significant change• Pulm vasc bed can accommodate 6 fold CO• CO - ↑ 4-6 times
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Exercise physiology
• Isotonic exercise(cardiac output)•Early phase- SV+HR•Late phase-HR
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Oxygenconsumption(liters/min)
V02 peak
Work rate (watts)
↑ exercise work à ↑ O2 usage à Person’s max. O2 consumption (VO2max) reached
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•The peak oxygen consumption is influenced by the age, sex, and training level of the person performing the exercise
•The plateau in peak oxygen consumption, reached during exercise involving a sufficiently large muscle mass, represents the maximal oxygen consumption
•Maximal oxygen consumption is limited by the ability to deliver O2 to skeletal muscles and muscle oxidative capacity (mucle mass and mitochondirial enzymes activity).
Oxygenconsumption(liters/min)
Work rate (watts)
V02 peak
(VO2max)
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Oxygenconsumption(liters/min)
70% V02 max (trained) V02
peak
(trained)
V02 peak
(untrained)
100% V02 max
(untrained)
Work rate (watts)
The ability to deliver O2 to muscles and muscle’s oxidative capacity limit a person’s VO2max. Training à ↑ VO2max
175
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• during dynamic exercise of increasing intensity, ventilation increases linearly over the mild to moderate range, then more rapidly in intense exercise• the workload at which rapid ventilation occures is called the ventilatory breakpoint (together with lactate threshold)
Respiration during exercise
Lactate acidifies the blood, driving off CO2 and increasing ventilatory rate
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Blood Pressure (BP) also rises in exercise
•systolic pressure (SBP) goes up to 150-170 mm Hg during dynamic exercise; diastolic scarcely alters
•in isometric (heavy static) exercise, SBP may exceed 250 mmHg, and diastolic (DBP) can itself reach 180
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Bloodlacticacid(mM)
Relative work rate (% V02 max)
Intense exercise à Glycolysis>aerobic metabolism à ↑ blood lactate (other organs use some)
Lactate threshold; endurance estimation
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Maximum HR
• HR=220 - age in years
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Post exercise phase
•Vagal reactivation•Imp cardiac deceleration mech•↑in well trained athletes•Blunted in CCF
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MET
• Metabolic Equivalent Term
•1 MET = "Basal" aerobic oxygen consumption to stay alive = 3.5 ml O2 /Kg/min
• Differs with thyroid status, post exercise, obesity, disease states
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Key MET Values
• 1 MET = "Basal" = 3.5 ml O2 /Kg/min
•2 METs = 2 mph on level
• 4 METs = 4 mph on level
• < 5METs = Poor prognosis if < 65;• 10 METs = same progn with medical thpy as CABG• 13 METs = Excell prognosis, • regardless of othr exercise responses
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Key MET Values
• 3-5 METs: •raking leaves,light carpentry,golf,3-4 mph• 5-7 METs: •exterior carpentry, singles tennis• >9 METs: •heavy labour, hand ball, squash, running 6-7 mph
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Estimated Energy Requirements for Various Activities
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Estimated Energy Requirements for Various Activities
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Calculation of METs on the Treadmill
• METs = Speed x [0.1 + (Grade x 1.8)] + 3.5
3.5
• Calculated automatically by Device!
•Note: Speed in meters/minute• conversion = MPH x 26.8
• Grade expressed as a fraction
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Treadmill protocol
• Bruce protocol• Naughton protocol• Weber protocol• ACIP(asymptomatic cardiac ischemia pilot)• Modified ACIP
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The Bruce protocol• Developed in 1949 by
Robert A. Bruce, considered the “father of exercise physiology”.
• Published as a standardized protocol in 1963.
• Remains the gold-standard for detection of myocardial ischemia when risk stratification is necessary.
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Protocol description
Stage Time (min) M/hr Slope
1 0 1.7 10%
2 3 2.5 12%
3 6 3.4 14%
4 9 4.2 16%
5 12 5.0 18%
6 15 5.5 20%
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Calculation of METs on the Treadmill
• METs = Speed x [0.1 + (Grade x 1.8)] + 3.5
3.5
• Calculated automatically by Device!
•Note: Speed in meters/minute• conversion = MPH x 26.8
• Grade expressed as a fraction
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Procedure
• Standard 12 lead ECG- leads distally• Torso ECG + BP
– Supine and Sitting / standing
• HR ,BP ,ECG– Before,after,stage end– Onset of ischemic response– Each minute recovery(5-10 mints)
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Procedure- Lead systems
• Mason-Liker modification– RAD– ↑inf lead voltage– Loss of inf lead q– New Q in AVL
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Contraindications to Exercise Testing
• Absolute• Acute MI (< 2 d)• High-risk unstable angina• Uncontrolled cardiac arrhythmias causing
symptoms or hemodynamic compromise• Symptomatic severe AS• Uncontrolled symptomatic CCF• Acute pulmonary embolus or pulmonary infarction• Acute myocarditis or pericarditis• Acute Ao dissection
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Contraindications to Exercise Testing
• Relative• LMCA stenosis• Moderate stenotic valvular heart disease• Electrolyte abnormalities• Severe HTN• Tachyarrhythmias or bradyarrhythmias• HOCM and other forms of outflow tract obstruction• Mental or physical impairment leading to inability to
exercise adequately• High-degree AV block
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• Both MI and deaths have been reported and can be expected to occur at a rate of up to 1 per 2500 tests
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‘The post test probability is proportional to the pretest probability’
Bayes' theorem A theory of probability
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Classification of chest pain
•Typical angina
•Atypical angina
•Noncardiac chest pain
1. Substernal chest discomfort with characterstic quality and duration
2. Provoked by exertion or emotional stress
3. Relieved by rest or NTG
Meets 2 of the above characteristics
Meets one or none of the typical characteristics
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Pretest Probability
•Based on the patient's history ( age, gender, chest pain ), physical examination and initial testing, and the clinician's experience.
•Typical or definite angina →pretest probability high - test result does not dramatically change the probability.
•Diagnostic testing is most valuable in intermediate pretest probability category
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Pre Test Probability of Coronary Disease by Symptoms, Gender and Age
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Pre-test Probability of CAD by Age, Gender, and Symptoms
•Typical/Definite Angina Pectoris
• Age 30-39– Men Intermediate (10-90%) – Women Intermediate
• Age 40-49– Men High (>90%) – Women Intermediate
• Age 50-59– Men High – Women Intermediate
• Age 60-69 – Men High – Women High
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Pre-test Probability of CAD by Age, Gender, and Symptoms
• Atypical/Possible Angina Pectoris:
• Age 30-39 – Men Intermediate– Women Very Low (<5%)
• Age 40-49– Men Intermediate– Women Low (<10%)
• Age 50-50– Men Intermediate– Women Intermediate
• Age 60-69– Men Intermediate– Women Intermediate
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Pre-test Probability of CAD by Age, Gender, and Symptoms
•Nonanginal Chest Pain:– Age 30-39
• Men Low• Women Very Low
– Age 40-49• Men Intermediate• Women Very Low
– Age 50-59• Men Intermediate• Women Low
– Age 60-69• Men Intermediate• Women Intermediate
•
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Pre-test Probability of CAD by Age, Gender, and Symptoms
• Asymptomatic:– Age 30-39
• Men Very Low• Women Very Low
– Age 40-49 • Men Low• Women Very Low
– Age 50-59 • Men Low• Women Very Low
– Age 60-69 • Men Low• Women Low
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EXERCISE TESTING TO DIAGNOSE OBSTRUCTIVE CAD
•Class I•Adult patients (including RBBB or <1 mm of resting ST↓) with intermediate pretest probability of CAD
•Class IIa•Patients with vasospastic angina.
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EXERCISE TESTING TO DIAGNOSE OBSTRUCTIVE CAD
•Class IIb•1. Patients with a high pretest probability of CAD •2. Patients with a low pretest probability of CAD •3. Patients with <1 mm of baseline ST ↓and on digoxin.•4. Patients with LVH and <1 mm baseline ST ↓.
•Class III1.Patients with the following baseline ECG abnormalities:
•• Pre-excitation syndrome•• Electronically paced ventricular rhythm•• >1 mm of resting ST depression•• Complete LBBB
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Exercise Testing in Asymptomatic PersonsWithout Known CAD
• Class I •None.•Class IIa•Evaluation of asymptomatic T2 DM pts who plan to start vigorous
exercise ( C)•Class IIb•1. Evaluation of pts with multiple risk factors as a guide to risk-
reduction therapy.•2. Evaluation of asymptomatic men > 45 yrs and women >55 yrs:•• Plan to start vigorous exercise •• Involved in occupations which impact public safety •• High risk for CAD(e.g., PVOD and CRF)•Class III•Routine screening of asymptomatic
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RISK ASSESSMENT AND PROGNOSISIN PATIENTS WITH SYMPTOMS OR A
PRIOR HISTORY OF CAD
• Class I•1. Initial evaluation with susp/known CAD,
includingRBBB or <1 mm of resting ST Depression•2.Susp/ known CAD, previously evaluated, now
significant change in clinical status.•3. Low-risk UA pts >8 to 12 hrs & free of active
ischemia/CCF•4. Intermed-risk UApts > 2 to 3 days & no active
ischemia/ CCF•Class IIa•Intermed-risk UA pts – initial markers (N),rpt ECG –no
signi change, and markers >6-12 hrs (N) & no other evidence of ischemia during observation.
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AFTER MYOCARDIAL INFARCTION
• Class I•1. Before discharge (submaximal --4 to 6
days).•2. Early after discharge if the predischarge
exercise test was not done (symptom limited --14 to 21 days).
•3. Late after discharge if the early exercise test was submaximal (symptom limited --3 to 6 weeks).
•Class IIa•After discharge as part of cardiac rehabilitation
in patients who have undergone coronary revascularization.
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•Submaximal protocols • predetermined end point, often a peak HR 120 bpm, or 70% predicted max HR or peak MET - 5
•Symptom-limited tests •to continue till signs or symptoms necessitating termination (i.e., angina, fatigue, ≥ 2 mm of ST↓,ventricular arrhythmias, or ≥10-mm Hg drop in SBP from the resting blood pressure)
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•The incidence of fatal cardiac events(inclu fatal MI & cardiac rupture)-- 0.03%
•Nonfatal MI and successfully resuscitated cardiac arrest -- 0.09%
•Complex arrhythmias, including VT --1.4%.
•Symptom-limited protocols have an event rate that is 1.9 times that of submaximal tests
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AFTER MYOCARDIAL INFARCTION
•Class IIb•1. Patients with the following ECG abnormalities:•• Complete LBBB•• Pre-excitation syndrome•• LVH•• Digoxin therapy•• >1 mm of resting ST-segment depression•• Electronically paced ventricular rhythm•2. Periodic monitoring in patients who continue to participate in exercise training or cardiac rehabilitation.
•Class III•1. Severe comorbidity likely to limit life expectancy and/or candidacy for revascularization.
•2. At any time to evaluate pts with AMI with uncompensated CCF, arrhythmia, or noncardiac exercise limiting conditions.
•3. Before discharge to evaluate pts who have already been selected for, or have undergone, cardiac cath.
• Although a stress test may be useful before or after cath to evaluate or identify ischemia in the distribution of a coronary lesion of borderline severity, stress imaging tests are recommended.
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Clinical indications of high risk at pre-discharge
Strategy 3
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Clinical indications of high risk at pre-discharge
Cardiac cath
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Exercise Testing Before and After Revascularization
• Class I•1. Demonstration of ischemia before revascularization.•2. Evaluating recurrent symps suggesting ischemia aft revascularization.
•Class IIa•Aft discharge for activity counseling and/or exercise training as part of rehabilitation in pts aft revascularization.
•Class IIb•1. Detection of restenosis in selected, high-risk asymptomatic pts < first 12 months aft PCI.
•2. Periodic monitoring of selected, high-risk asymptomatic ps for restenosis, graft occlusion, incomplete coronary revascularization, or disease progression.
•Class III•1. Localization of ischemia for determining the site of intervention.•2. Routine, periodic monitoring of asymptomatic pts after PCI or CABG without specific indications.
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Stress Testing
Modality Sensitivity Specificity
Exercise test 68% 77%
Nuclear Imaging
87-92% 80-85%
Stress Echo
80-85% 88-95%
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Investigation of Heart Rhythm Disorders
• Class I•1. Identification of appropriate settings in pts
with rate-adaptive pacemakers.•2. Evaluation of cong CHB in pts considering
↑activity/competitive sports. (C)•Class IIa•1. Evaluating known or suspected exercise-
induced arrhythmias.•2. Evaluation of medical, surgical, or ablative
therapy in exercise-induced arrhythmias
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Investigation of Heart Rhythm Disorders
•Class IIb•1. Isolated VPC in middle-aged pts without other evidence of CAD.
•2. Prolonged 1˚AV block or type I-2˚AV block , LBBB, RBBB, or VPC in young pts considering competitive sports. (C)
•Class III•Routine investigation of isolated VPC in young pts.
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• Interpreting TMT
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Normal ECG changes during exercise
• ↓ PR, QRS, QT• ↑ P amplitude• Progressive downsloping PR in inf leads• j point depression
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1 = Iso-electric2 = J point3 = J + 80 msec
The Exercise ECG
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Criteria for Reading ST-Segment Changes on the Exercise ECG
•ST DEPRESSION:
•Measurements made on 3 consecutive ECG complexes
•ST level is measured relative to the P-Q junction
•When J-point is depressed relative to P-Q junction at baseline:–Net difference from the J junction determines the amount of deviation
•When the J-point is elevated relative to P-Q junction at baseline and becomes depressed with exercise:
–Magnitude of ST depression is determined from the P-Q junction and not the resting J point
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J point depression of 2 to 3 mm in leads V4 to V6 with
rapid upsloping ST segments depressed
approximately 1 mm 80 msec after the J point. The ST segment slope in leads V4 and V5 is 3.0 mV/sec.
This response should not be considered abnormal.
Upsloping
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• ST 60 -- HR > 130/min• ST 80 -- HR ≤ 130/min
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Criteria for Abnormal and Borderline ST-Segment Depression on the Exercise ECG
• ABNORMAL:–1.0 mm or greater horizontal or downsloping ST
depression at 80 msec after J point on 3 consecutive ECG complexes
• BORDERLINE:–0.5 to 1.0 mm horizontal or downsloping ST depression at
80 msec after J point on 3 consecutive ECG complexes–2.0 mm or greater upsloping ST depression at 80 msec
after J point on 3 consecutive ECG complexes
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Normal
Rapid Upsloping
Minor ST Depression
Slow Upsloping
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Horizontal
Downsloping
Elevation (non Q lead)
Elevation (Q wave lead)
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• In lead V4 , the exercise ECG result is abnormal early in the test, reaching 0.3 mV (3 mm) of horizontal ST segment depression at the end of exercise.
• Consistent with a severe ischemic response.
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• The J point at peak exertion is depressed 2.5 mm, the ST segment slope is 1.5 mV/sec, and the ST segment level at 80 msec after the J point is depressed 1.6 mm.
• This “slow upsloping” ST segment at peak exercise indicates an ischemic pattern in patients with a high coronary disease prevalence pretest.
• A typical ischemic pattern is seen at 3 minutes of the recovery phase when the ST segment is horizontal and 5 minutes after exertion when the ST segment is downsloping.
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•Becomes abnormal at 9:30 minutes (horizontal arrow right) of a 12-minute exercise test and resolves in the immediate recovery phase.
•This ECG pattern in which the ST segment becomes abnormal only at high exercise workloads and returns to baseline in the immediate recovery phase may indicate a false-positive result in an asymptomatic individual without atherosclerotic risk factors.
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ST Elevation(localising)•Abnormal response
– J ↑ ≥0.10mV(1 mm)– ST 60 ≥0.10mV(1 mm)– Three consecutive beats
•Q wave lead (Past MI)•Severe RWMA, ↓EF, ↓Prognosis•Non Q wave lead (Past MI)•Severe ischemic response•Non Q wave lead (No past MI)-1%•Transmural reversible myocardial ischemia- ----vasospasm, ↑coronary narrowing
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•A 48-year-old man with several atherosclerotic risk factors and a normal rest ECG result developed marked ST segment elevation (4 mm [arrows]) in leads V2 and V3 with lesser degrees of ST segment elevation in leads V1 and V4 and J point depression with upsloping ST segments in lead II, associated with angina.
•This type of ECG pattern is usually associated with a full-thickness, reversible myocardial perfusion defect in the corresponding left ventricular myocardial segments and high-grade intraluminal narrowing at coronary angiography. Rarely, coronary vasospasm produces this result in the absence of significant intraluminal atherosclerotic narrowing.(
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ECG Patterns Indicative of Myocardial Ischaemia
ECG Patterns Not Indicative of Myocardial Ischaemia
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ECG changes during stress test
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ST Heart Rate Slope
•Maximal change in ST with heart rate calculated at the end of each stage
•Heart rate adjustment of ST segment depression - improve the sensitivity
•Calculation of the maximal ST/heart rate slope in mV/beats/min - linear regression
•An ST/heart rate slope
• >2.4 mV/beats/min - abnormal
• >6 mV/beats/min - three-vessel CAD.
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The ST/heart rate index
• Average change of ST segment depression with heart rate throughout the course of the exercise test.
• >1.6 - abnormal
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Confounders of Exercise Treadmill Test Interpretation• Digoxin
– Produces an abnormal ST-segment response to exercise. This abnormal ST depression occurs in 25% to 40% of healthy subjects studied and is directly related to age.
• Left Ventricular Hypertrophy– Decreased specificity of exercise testing, but sensitivity is unaffected. Therefore, a
standard exercise test may still be the first test, with referrals for additional tests only indicated in patients with an abnormal test result.
• Resting ST Depression– Resting ST-segment depression has been identified as a marker for adverse cardiac
events in patients with and without known CAD.• Left Bundle-Branch Block
– Exercise-induced ST depression usually occurs with left bundle-branch block and has no association with ischemia. Even up to 1 cm of ST depression can occur in healthy normal subjects. There is no level of ST-segment depression that confers diagnostic significance in left bundle-branch block.
• Right Bundle-Branch Block– The presence of right bundle-branch block does not appear to reduce the sensitivity,
specificity, or predictive value of the stress ECG for the diagnosis of ischemia. • Beta Blocker Therapy
– For routine exercise testing, it appears unnecessary for physicians to accept the risk of stopping beta-blockers before testing when a patient exhibits possible symptoms of ischemia or has hypertension. However, exercise testing in patients taking beta-blockers may have reduced diagnostic or prognostic value because of inadequate heart rate response.
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Early repolarization and resting ST↑
• Return to the PQ junction is normal• Hence ST↓ determined from PQ junction• Not from the elevated J point before
exercise
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Duke Treadmill Score• Treadmill Score=Exercise time • -5X (amount of ST-seg. deviation in
mm) - 4X exercise angina index• (0-no angina, 1 angina, 2 if angina stops
test).
• High Risk= -11, mortality >5% annually.• Low Risk= +5, mortality 0.5% annually.
• Ann Intern Med 1987;106:793.
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ACC/AHA Guidelines:
• “Patients with a high-risk exercise test
result (mortality ≥ 4%/yr), should be
referred for cardiac catheterization.”
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ACC/AHA Guidelines:
• “Pts. with an intermediate-risk result
(mortality of 2% to 3%/yr), should be
referred for additional testing, either
cardiac catheterization, or an exercise
imaging study.”
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Pseudo normalization pattern
•No prior MI•Nondiagnostic finding•Prior MI•Suggests Reversible myocardial ischemia•Needs substantiation by rev myo perfusion defect
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R Wave amplitude
•LVH Voltage criteria•ST seg – less reliable to ∆ CAD even in the absence of LV strain pattern
•Loss of R wave (MI)•↓Sensitivity of ST response in that lead
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U inversion
• Occasionally in precordial leads at HR<120
•Relatively nonsensitive •Relatively specific
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Abnormal BP Response
•Failure to ↑SBP >120 mmHg•Sustained ↓(15 secs) >10mmHg•↓SBP below resting BP during progressive exe•Inadequate ↑ of CO•3VD,LMCA-d,cardiomyopathy,arrhythmias,• vasovagal,LVOTobs,hypovolemia,• prolonged vigorous exe
•Normal responses: – Increase in SBP (> 20-30 mmHg)– No change or fall in DBP
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Maximum work capacity
• Important prognostic measurement•Work performed in METs•Not the no: of minutes of exercise
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Exercise Capacity• VO max = (mph x 26.8) x (0.1 + [% grade X 1.8] + 3.5
• 1 MET (metabolic equivalent) = 3.5 ml 0 /kg/min
• Stage 1 = 5 METS
• Stage 2 = 6 - 8 METS
• Stage 3 = 8 -10 METS
2
2
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Exercise Capacity“The strongest predictor of the risk of death among both normal subjects, and those with cardiovascular disease”.“Each 1-MET increase in exercise capacity conferred a 12% improvement in survival”.NEJM 2002;346:793-801.
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For each 1-MET increase in exercise capacity, the survival improved by 12 percent N Engl J Med 2002
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Exercise Capacity•In pts. with CAD > 13 METS (Stage IV) prognosis excellent regardless of whether medical or surgical therapy is selected.*
•Documented CAD, ≥ 2 mm ST-segment depression. Stage IV had a 100% 5-year survival rate.**
•*Circ 1984;70:226.
•**Circ 1982;65:482.
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Exercise Capacity
In the Coronary Artery Surgery Study (CASS), patients with 3-vessel disease, and high exercise capacity (≥ 10 METS), showed no benefit from surgery.
JACC 1986;8:741-748.
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Heart rate response
•Inappropriate ↑ at low work load•Anxiety (<1minute-transient)•Persisting several minutes• AF,physically deconditioned,hypovolemic,
• anemic,marginal LV function
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Heart rate response
•Chronotropic incompetence•Inability to attain THR OR•Abnormal HR Reserve(<80%)•{%HR Reserve=(HRpeak-HRrest)/(220-age-
HRrest)}•Autonomic dysfunction,SN dysfuntion,• drugs,myocardial ischemia•↑long term mortality (not on β blockers)
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Chronotropic Incompetence
Circ 1996;93:1520.Framingham Heart Study
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Heart Rate Recovery
•During exercise, HR increases due to withdrawal of vagal tone, and increase of sympathetic tone.
•During recovery, there is a rapid reactivation of vagal tone leading to a decrease in heart rate.
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Heart Rate Recovery• Abnormal:• 1 minute• TMT (upright) < 12 bpm
• TMT (supine) < 18 bpm
• An upright value <22 bpm at 2 minutes is abnormal• Poor prognosis independent of other factors•
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Heart Rate Recovery After Exercise Testing Predicts Outcome in CAD
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Exercise induced Chest discomfort
•Usually after ischemic ST changes•May be associated with DBP• In some, only chest discomfort• In CSA, CP less freq than ST↓•Angina with no ST ↓- MPI useful to assess
ischemic severity.
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Angina during Stress Test
• Mortality•(+) Stress Test with angina 5%/yr.
•(+) Stress Test, no angina 2.5%/yr.
Circ 1984;70:547-551.
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Markedly Positive Stress Test
1. ECG changes in the first three minutes.
2. ECG changes that last through recovery.
3. Hypotensive response.
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Adverse prognosis & multivessel CAD
•Symptom limiting exercise < 5METs•Abnormal BP response•ST↓≥2mm or downsloping ST↓• <5METs, ≥5 leads, persisting ≥5 mins into
reco•ST↑•Angina at low exercise work loads•Reproducible sustained/symptomatic VT
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Indications for Terminating Exercise Testing
• Absolute indications• Drop in systolic BP >10 mm Hg from baseline when
accompanied by other evidence of ischemia• Moderate to severe angina• ↑ CNS sympts (ataxia, dizziness, or near-syncope)• Signs of poor perfusion (cyanosis or pallor)• Technical difficulties in monitoring ECG or systolic BP• Subject’s desire to stop• Sustained VT• ST ↑ (≥1.0 mm) in leads without Q-waves (other than
V1 or aVR)
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Indications for Terminating Exercise Testing
• Relative indications• ↓ in systolic BP (≥10 mm Hg) in the absence of other
evidence of ischemia• ST or QRS changes such as excessive ST↓ (>2 mm of
horizontal or downsloping ST↓ ) or marked axis shift• Arrhythmias other than sustained VT, including multifocal
PVCs, triplets of PVCs, SVT, heart block, or bradyarrhythmias
• Fatigue, shortness of breath, wheezing, leg cramps, or claudication
• Development of BBB or IVCD that cannot be distinguished from VT
• Increasing chest pain• Hypertensive response
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